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"""SCons.Executor
A module for executing actions with specific lists of target and source
Nodes.
"""
#
# Copyright (c) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 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.
__revision__ = "src/engine/SCons/Executor.py 5134 2010/08/16 23:02:40 bdeegan"
import collections
from SCons.Debug import logInstanceCreation
import SCons.Errors
import SCons.Memoize
class Batch(object):
"""Remembers exact association between targets
and sources of executor."""
def __init__(self, targets=[], sources=[]):
self.targets = targets
self.sources = sources
class TSList(collections.UserList):
"""A class that implements $TARGETS or $SOURCES expansions by wrapping
an executor Method. This class is used in the Executor.lvars()
to delay creation of NodeList objects until they're needed.
Note that we subclass collections.UserList purely so that the
is_Sequence() function will identify an object of this class as
a list during variable expansion. We're not really using any
collections.UserList methods in practice.
"""
def __init__(self, func):
self.func = func
def __getattr__(self, attr):
nl = self.func()
return getattr(nl, attr)
def __getitem__(self, i):
nl = self.func()
return nl[i]
def __getslice__(self, i, j):
nl = self.func()
i = max(i, 0); j = max(j, 0)
return nl[i:j]
def __str__(self):
nl = self.func()
return str(nl)
def __repr__(self):
nl = self.func()
return repr(nl)
class TSObject(object):
"""A class that implements $TARGET or $SOURCE expansions by wrapping
an Executor method.
"""
def __init__(self, func):
self.func = func
def __getattr__(self, attr):
n = self.func()
return getattr(n, attr)
def __str__(self):
n = self.func()
if n:
return str(n)
return ''
def __repr__(self):
n = self.func()
if n:
return repr(n)
return ''
def rfile(node):
"""
A function to return the results of a Node's rfile() method,
if it exists, and the Node itself otherwise (if it's a Value
Node, e.g.).
"""
try:
rfile = node.rfile
except AttributeError:
return node
else:
return rfile()
class Executor(object):
"""A class for controlling instances of executing an action.
This largely exists to hold a single association of an action,
environment, list of environment override dictionaries, targets
and sources for later processing as needed.
"""
if SCons.Memoize.use_memoizer:
__metaclass__ = SCons.Memoize.Memoized_Metaclass
memoizer_counters = []
def __init__(self, action, env=None, overridelist=[{}],
targets=[], sources=[], builder_kw={}):
if __debug__: logInstanceCreation(self, 'Executor.Executor')
self.set_action_list(action)
self.pre_actions = []
self.post_actions = []
self.env = env
self.overridelist = overridelist
if targets or sources:
self.batches = [Batch(targets[:], sources[:])]
else:
self.batches = []
self.builder_kw = builder_kw
self._memo = {}
def get_lvars(self):
try:
return self.lvars
except AttributeError:
self.lvars = {
'CHANGED_SOURCES' : TSList(self._get_changed_sources),
'CHANGED_TARGETS' : TSList(self._get_changed_targets),
'SOURCE' : TSObject(self._get_source),
'SOURCES' : TSList(self._get_sources),
'TARGET' : TSObject(self._get_target),
'TARGETS' : TSList(self._get_targets),
'UNCHANGED_SOURCES' : TSList(self._get_unchanged_sources),
'UNCHANGED_TARGETS' : TSList(self._get_unchanged_targets),
}
return self.lvars
def _get_changes(self):
cs = []
ct = []
us = []
ut = []
for b in self.batches:
if b.targets[0].is_up_to_date():
us.extend(list(map(rfile, b.sources)))
ut.extend(b.targets)
else:
cs.extend(list(map(rfile, b.sources)))
ct.extend(b.targets)
self._changed_sources_list = SCons.Util.NodeList(cs)
self._changed_targets_list = SCons.Util.NodeList(ct)
self._unchanged_sources_list = SCons.Util.NodeList(us)
self._unchanged_targets_list = SCons.Util.NodeList(ut)
def _get_changed_sources(self, *args, **kw):
try:
return self._changed_sources_list
except AttributeError:
self._get_changes()
return self._changed_sources_list
def _get_changed_targets(self, *args, **kw):
try:
return self._changed_targets_list
except AttributeError:
self._get_changes()
return self._changed_targets_list
def _get_source(self, *args, **kw):
#return SCons.Util.NodeList([rfile(self.batches[0].sources[0]).get_subst_proxy()])
return rfile(self.batches[0].sources[0]).get_subst_proxy()
def _get_sources(self, *args, **kw):
return SCons.Util.NodeList([rfile(n).get_subst_proxy() for n in self.get_all_sources()])
def _get_target(self, *args, **kw):
#return SCons.Util.NodeList([self.batches[0].targets[0].get_subst_proxy()])
return self.batches[0].targets[0].get_subst_proxy()
def _get_targets(self, *args, **kw):
return SCons.Util.NodeList([n.get_subst_proxy() for n in self.get_all_targets()])
def _get_unchanged_sources(self, *args, **kw):
try:
return self._unchanged_sources_list
except AttributeError:
self._get_changes()
return self._unchanged_sources_list
def _get_unchanged_targets(self, *args, **kw):
try:
return self._unchanged_targets_list
except AttributeError:
self._get_changes()
return self._unchanged_targets_list
def get_action_targets(self):
if not self.action_list:
return []
targets_string = self.action_list[0].get_targets(self.env, self)
if targets_string[0] == '$':
targets_string = targets_string[1:]
return self.get_lvars()[targets_string]
def set_action_list(self, action):
import SCons.Util
if not SCons.Util.is_List(action):
if not action:
import SCons.Errors
raise SCons.Errors.UserError("Executor must have an action.")
action = [action]
self.action_list = action
def get_action_list(self):
return self.pre_actions + self.action_list + self.post_actions
def get_all_targets(self):
"""Returns all targets for all batches of this Executor."""
result = []
for batch in self.batches:
result.extend(batch.targets)
return result
def get_all_sources(self):
"""Returns all sources for all batches of this Executor."""
result = []
for batch in self.batches:
result.extend(batch.sources)
return result
def get_all_children(self):
"""Returns all unique children (dependencies) for all batches
of this Executor.
The Taskmaster can recognize when it's already evaluated a
Node, so we don't have to make this list unique for its intended
canonical use case, but we expect there to be a lot of redundancy
(long lists of batched .cc files #including the same .h files
over and over), so removing the duplicates once up front should
save the Taskmaster a lot of work.
"""
result = SCons.Util.UniqueList([])
for target in self.get_all_targets():
result.extend(target.children())
return result
def get_all_prerequisites(self):
"""Returns all unique (order-only) prerequisites for all batches
of this Executor.
"""
result = SCons.Util.UniqueList([])
for target in self.get_all_targets():
result.extend(target.prerequisites)
return result
def get_action_side_effects(self):
"""Returns all side effects for all batches of this
Executor used by the underlying Action.
"""
result = SCons.Util.UniqueList([])
for target in self.get_action_targets():
result.extend(target.side_effects)
return result
memoizer_counters.append(SCons.Memoize.CountValue('get_build_env'))
def get_build_env(self):
"""Fetch or create the appropriate build Environment
for this Executor.
"""
try:
return self._memo['get_build_env']
except KeyError:
pass
# Create the build environment instance with appropriate
# overrides. These get evaluated against the current
# environment's construction variables so that users can
# add to existing values by referencing the variable in
# the expansion.
overrides = {}
for odict in self.overridelist:
overrides.update(odict)
import SCons.Defaults
env = self.env or SCons.Defaults.DefaultEnvironment()
build_env = env.Override(overrides)
self._memo['get_build_env'] = build_env
return build_env
def get_build_scanner_path(self, scanner):
"""Fetch the scanner path for this executor's targets and sources.
"""
env = self.get_build_env()
try:
cwd = self.batches[0].targets[0].cwd
except (IndexError, AttributeError):
cwd = None
return scanner.path(env, cwd,
self.get_all_targets(),
self.get_all_sources())
def get_kw(self, kw={}):
result = self.builder_kw.copy()
result.update(kw)
result['executor'] = self
return result
def do_nothing(self, target, kw):
return 0
def do_execute(self, target, kw):
"""Actually execute the action list."""
env = self.get_build_env()
kw = self.get_kw(kw)
status = 0
for act in self.get_action_list():
#args = (self.get_all_targets(), self.get_all_sources(), env)
args = ([], [], env)
status = act(*args, **kw)
if isinstance(status, SCons.Errors.BuildError):
status.executor = self
raise status
elif status:
msg = "Error %s" % status
raise SCons.Errors.BuildError(
errstr=msg,
node=self.batches[0].targets,
executor=self,
action=act)
return status
# use extra indirection because with new-style objects (Python 2.2
# and above) we can't override special methods, and nullify() needs
# to be able to do this.
def __call__(self, target, **kw):
return self.do_execute(target, kw)
def cleanup(self):
self._memo = {}
def add_sources(self, sources):
"""Add source files to this Executor's list. This is necessary
for "multi" Builders that can be called repeatedly to build up
a source file list for a given target."""
# TODO(batch): extend to multiple batches
assert (len(self.batches) == 1)
# TODO(batch): remove duplicates?
sources = [x for x in sources if x not in self.batches[0].sources]
self.batches[0].sources.extend(sources)
def get_sources(self):
return self.batches[0].sources
def add_batch(self, targets, sources):
"""Add pair of associated target and source to this Executor's list.
This is necessary for "batch" Builders that can be called repeatedly
to build up a list of matching target and source files that will be
used in order to update multiple target files at once from multiple
corresponding source files, for tools like MSVC that support it."""
self.batches.append(Batch(targets, sources))
def prepare(self):
"""
Preparatory checks for whether this Executor can go ahead
and (try to) build its targets.
"""
for s in self.get_all_sources():
if s.missing():
msg = "Source `%s' not found, needed by target `%s'."
raise SCons.Errors.StopError(msg % (s, self.batches[0].targets[0]))
def add_pre_action(self, action):
self.pre_actions.append(action)
def add_post_action(self, action):
self.post_actions.append(action)
# another extra indirection for new-style objects and nullify...
def my_str(self):
env = self.get_build_env()
return "\n".join([action.genstring(self.get_all_targets(),
self.get_all_sources(),
env)
for action in self.get_action_list()])
def __str__(self):
return self.my_str()
def nullify(self):
self.cleanup()
self.do_execute = self.do_nothing
self.my_str = lambda: ''
memoizer_counters.append(SCons.Memoize.CountValue('get_contents'))
def get_contents(self):
"""Fetch the signature contents. This is the main reason this
class exists, so we can compute this once and cache it regardless
of how many target or source Nodes there are.
"""
try:
return self._memo['get_contents']
except KeyError:
pass
env = self.get_build_env()
result = "".join([action.get_contents(self.get_all_targets(),
self.get_all_sources(),
env)
for action in self.get_action_list()])
self._memo['get_contents'] = result
return result
def get_timestamp(self):
"""Fetch a time stamp for this Executor. We don't have one, of
course (only files do), but this is the interface used by the
timestamp module.
"""
return 0
def scan_targets(self, scanner):
# TODO(batch): scan by batches
self.scan(scanner, self.get_all_targets())
def scan_sources(self, scanner):
# TODO(batch): scan by batches
if self.batches[0].sources:
self.scan(scanner, self.get_all_sources())
def scan(self, scanner, node_list):
"""Scan a list of this Executor's files (targets or sources) for
implicit dependencies and update all of the targets with them.
This essentially short-circuits an N*M scan of the sources for
each individual target, which is a hell of a lot more efficient.
"""
env = self.get_build_env()
# TODO(batch): scan by batches)
deps = []
if scanner:
for node in node_list:
node.disambiguate()
s = scanner.select(node)
if not s:
continue
path = self.get_build_scanner_path(s)
deps.extend(node.get_implicit_deps(env, s, path))
else:
kw = self.get_kw()
for node in node_list:
node.disambiguate()
scanner = node.get_env_scanner(env, kw)
if not scanner:
continue
scanner = scanner.select(node)
if not scanner:
continue
path = self.get_build_scanner_path(scanner)
deps.extend(node.get_implicit_deps(env, scanner, path))
deps.extend(self.get_implicit_deps())
for tgt in self.get_all_targets():
tgt.add_to_implicit(deps)
def _get_unignored_sources_key(self, node, ignore=()):
return (node,) + tuple(ignore)
memoizer_counters.append(SCons.Memoize.CountDict('get_unignored_sources', _get_unignored_sources_key))
def get_unignored_sources(self, node, ignore=()):
key = (node,) + tuple(ignore)
try:
memo_dict = self._memo['get_unignored_sources']
except KeyError:
memo_dict = {}
self._memo['get_unignored_sources'] = memo_dict
else:
try:
return memo_dict[key]
except KeyError:
pass
if node:
# TODO: better way to do this (it's a linear search,
# but it may not be critical path)?
sourcelist = []
for b in self.batches:
if node in b.targets:
sourcelist = b.sources
break
else:
sourcelist = self.get_all_sources()
if ignore:
idict = {}
for i in ignore:
idict[i] = 1
sourcelist = [s for s in sourcelist if s not in idict]
memo_dict[key] = sourcelist
return sourcelist
def get_implicit_deps(self):
"""Return the executor's implicit dependencies, i.e. the nodes of
the commands to be executed."""
result = []
build_env = self.get_build_env()
for act in self.get_action_list():
deps = act.get_implicit_deps(self.get_all_targets(),
self.get_all_sources(),
build_env)
result.extend(deps)
return result
_batch_executors = {}
def GetBatchExecutor(key):
return _batch_executors[key]
def AddBatchExecutor(key, executor):
assert key not in _batch_executors
_batch_executors[key] = executor
nullenv = None
def get_NullEnvironment():
"""Use singleton pattern for Null Environments."""
global nullenv
import SCons.Util
class NullEnvironment(SCons.Util.Null):
import SCons.CacheDir
_CacheDir_path = None
_CacheDir = SCons.CacheDir.CacheDir(None)
def get_CacheDir(self):
return self._CacheDir
if not nullenv:
nullenv = NullEnvironment()
return nullenv
class Null(object):
"""A null Executor, with a null build Environment, that does
nothing when the rest of the methods call it.
This might be able to disapper when we refactor things to
disassociate Builders from Nodes entirely, so we're not
going to worry about unit tests for this--at least for now.
"""
def __init__(self, *args, **kw):
if __debug__: logInstanceCreation(self, 'Executor.Null')
self.batches = [Batch(kw['targets'][:], [])]
def get_build_env(self):
return get_NullEnvironment()
def get_build_scanner_path(self):
return None
def cleanup(self):
pass
def prepare(self):
pass
def get_unignored_sources(self, *args, **kw):
return tuple(())
def get_action_targets(self):
return []
def get_action_list(self):
return []
def get_all_targets(self):
return self.batches[0].targets
def get_all_sources(self):
return self.batches[0].targets[0].sources
def get_all_children(self):
return self.batches[0].targets[0].children()
def get_all_prerequisites(self):
return []
def get_action_side_effects(self):
return []
def __call__(self, *args, **kw):
return 0
def get_contents(self):
return ''
def _morph(self):
"""Morph this Null executor to a real Executor object."""
batches = self.batches
self.__class__ = Executor
self.__init__([])
self.batches = batches
# The following methods require morphing this Null Executor to a
# real Executor object.
def add_pre_action(self, action):
self._morph()
self.add_pre_action(action)
def add_post_action(self, action):
self._morph()
self.add_post_action(action)
def set_action_list(self, action):
self._morph()
self.set_action_list(action)
# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4:
|