dolphin/Externals/scons-local/scons-local-2.0.1/SCons/Node/__init__.py

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"""SCons.Node
The Node package for the SCons software construction utility.
This is, in many ways, the heart of SCons.
A Node is where we encapsulate all of the dependency information about
any thing that SCons can build, or about any thing which SCons can use
to build some other thing. The canonical "thing," of course, is a file,
but a Node can also represent something remote (like a web page) or
something completely abstract (like an Alias).
Each specific type of "thing" is specifically represented by a subclass
of the Node base class: Node.FS.File for files, Node.Alias for aliases,
etc. Dependency information is kept here in the base class, and
information specific to files/aliases/etc. is in the subclass. The
goal, if we've done this correctly, is that any type of "thing" should
be able to depend on any other type of "thing."
"""
#
# 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/Node/__init__.py 5134 2010/08/16 23:02:40 bdeegan"
import collections
import copy
from itertools import chain
from SCons.Debug import logInstanceCreation
import SCons.Executor
import SCons.Memoize
import SCons.Util
from SCons.Debug import Trace
def classname(obj):
return str(obj.__class__).split('.')[-1]
# Node states
#
# These are in "priority" order, so that the maximum value for any
# child/dependency of a node represents the state of that node if
# it has no builder of its own. The canonical example is a file
# system directory, which is only up to date if all of its children
# were up to date.
no_state = 0
pending = 1
executing = 2
up_to_date = 3
executed = 4
failed = 5
StateString = {
0 : "no_state",
1 : "pending",
2 : "executing",
3 : "up_to_date",
4 : "executed",
5 : "failed",
}
# controls whether implicit dependencies are cached:
implicit_cache = 0
# controls whether implicit dep changes are ignored:
implicit_deps_unchanged = 0
# controls whether the cached implicit deps are ignored:
implicit_deps_changed = 0
# A variable that can be set to an interface-specific function be called
# to annotate a Node with information about its creation.
def do_nothing(node): pass
Annotate = do_nothing
# Classes for signature info for Nodes.
class NodeInfoBase(object):
"""
The generic base class for signature information for a Node.
Node subclasses should subclass NodeInfoBase to provide their own
logic for dealing with their own Node-specific signature information.
"""
current_version_id = 1
def __init__(self, node=None):
# Create an object attribute from the class attribute so it ends up
# in the pickled data in the .sconsign file.
self._version_id = self.current_version_id
def update(self, node):
try:
field_list = self.field_list
except AttributeError:
return
for f in field_list:
try:
delattr(self, f)
except AttributeError:
pass
try:
func = getattr(node, 'get_' + f)
except AttributeError:
pass
else:
setattr(self, f, func())
def convert(self, node, val):
pass
def merge(self, other):
self.__dict__.update(other.__dict__)
def format(self, field_list=None, names=0):
if field_list is None:
try:
field_list = self.field_list
except AttributeError:
field_list = sorted(self.__dict__.keys())
fields = []
for field in field_list:
try:
f = getattr(self, field)
except AttributeError:
f = None
f = str(f)
if names:
f = field + ': ' + f
fields.append(f)
return fields
class BuildInfoBase(object):
"""
The generic base class for build information for a Node.
This is what gets stored in a .sconsign file for each target file.
It contains a NodeInfo instance for this node (signature information
that's specific to the type of Node) and direct attributes for the
generic build stuff we have to track: sources, explicit dependencies,
implicit dependencies, and action information.
"""
current_version_id = 1
def __init__(self, node=None):
# Create an object attribute from the class attribute so it ends up
# in the pickled data in the .sconsign file.
self._version_id = self.current_version_id
self.bsourcesigs = []
self.bdependsigs = []
self.bimplicitsigs = []
self.bactsig = None
def merge(self, other):
self.__dict__.update(other.__dict__)
class Node(object):
"""The base Node class, for entities that we know how to
build, or use to build other Nodes.
"""
if SCons.Memoize.use_memoizer:
__metaclass__ = SCons.Memoize.Memoized_Metaclass
memoizer_counters = []
class Attrs(object):
pass
def __init__(self):
if __debug__: logInstanceCreation(self, 'Node.Node')
# Note that we no longer explicitly initialize a self.builder
# attribute to None here. That's because the self.builder
# attribute may be created on-the-fly later by a subclass (the
# canonical example being a builder to fetch a file from a
# source code system like CVS or Subversion).
# Each list of children that we maintain is accompanied by a
# dictionary used to look up quickly whether a node is already
# present in the list. Empirical tests showed that it was
# fastest to maintain them as side-by-side Node attributes in
# this way, instead of wrapping up each list+dictionary pair in
# a class. (Of course, we could always still do that in the
# future if we had a good reason to...).
self.sources = [] # source files used to build node
self.sources_set = set()
self._specific_sources = False
self.depends = [] # explicit dependencies (from Depends)
self.depends_set = set()
self.ignore = [] # dependencies to ignore
self.ignore_set = set()
self.prerequisites = SCons.Util.UniqueList()
self.implicit = None # implicit (scanned) dependencies (None means not scanned yet)
self.waiting_parents = set()
self.waiting_s_e = set()
self.ref_count = 0
self.wkids = None # Kids yet to walk, when it's an array
self.env = None
self.state = no_state
self.precious = None
self.noclean = 0
self.nocache = 0
self.always_build = None
self.includes = None
self.attributes = self.Attrs() # Generic place to stick information about the Node.
self.side_effect = 0 # true iff this node is a side effect
self.side_effects = [] # the side effects of building this target
self.linked = 0 # is this node linked to the variant directory?
self.clear_memoized_values()
# Let the interface in which the build engine is embedded
# annotate this Node with its own info (like a description of
# what line in what file created the node, for example).
Annotate(self)
def disambiguate(self, must_exist=None):
return self
def get_suffix(self):
return ''
memoizer_counters.append(SCons.Memoize.CountValue('get_build_env'))
def get_build_env(self):
"""Fetch the appropriate Environment to build this node.
"""
try:
return self._memo['get_build_env']
except KeyError:
pass
result = self.get_executor().get_build_env()
self._memo['get_build_env'] = result
return result
def get_build_scanner_path(self, scanner):
"""Fetch the appropriate scanner path for this node."""
return self.get_executor().get_build_scanner_path(scanner)
def set_executor(self, executor):
"""Set the action executor for this node."""
self.executor = executor
def get_executor(self, create=1):
"""Fetch the action executor for this node. Create one if
there isn't already one, and requested to do so."""
try:
executor = self.executor
except AttributeError:
if not create:
raise
try:
act = self.builder.action
except AttributeError:
executor = SCons.Executor.Null(targets=[self])
else:
executor = SCons.Executor.Executor(act,
self.env or self.builder.env,
[self.builder.overrides],
[self],
self.sources)
self.executor = executor
return executor
def executor_cleanup(self):
"""Let the executor clean up any cached information."""
try:
executor = self.get_executor(create=None)
except AttributeError:
pass
else:
executor.cleanup()
def reset_executor(self):
"Remove cached executor; forces recompute when needed."
try:
delattr(self, 'executor')
except AttributeError:
pass
def push_to_cache(self):
"""Try to push a node into a cache
"""
pass
def retrieve_from_cache(self):
"""Try to retrieve the node's content from a cache
This method is called from multiple threads in a parallel build,
so only do thread safe stuff here. Do thread unsafe stuff in
built().
Returns true iff the node was successfully retrieved.
"""
return 0
#
# Taskmaster interface subsystem
#
def make_ready(self):
"""Get a Node ready for evaluation.
This is called before the Taskmaster decides if the Node is
up-to-date or not. Overriding this method allows for a Node
subclass to be disambiguated if necessary, or for an implicit
source builder to be attached.
"""
pass
def prepare(self):
"""Prepare for this Node to be built.
This is called after the Taskmaster has decided that the Node
is out-of-date and must be rebuilt, but before actually calling
the method to build the Node.
This default implementation checks that explicit or implicit
dependencies either exist or are derived, and initializes the
BuildInfo structure that will hold the information about how
this node is, uh, built.
(The existence of source files is checked separately by the
Executor, which aggregates checks for all of the targets built
by a specific action.)
Overriding this method allows for for a Node subclass to remove
the underlying file from the file system. Note that subclass
methods should call this base class method to get the child
check and the BuildInfo structure.
"""
for d in self.depends:
if d.missing():
msg = "Explicit dependency `%s' not found, needed by target `%s'."
raise SCons.Errors.StopError(msg % (d, self))
if self.implicit is not None:
for i in self.implicit:
if i.missing():
msg = "Implicit dependency `%s' not found, needed by target `%s'."
raise SCons.Errors.StopError(msg % (i, self))
self.binfo = self.get_binfo()
def build(self, **kw):
"""Actually build the node.
This is called by the Taskmaster after it's decided that the
Node is out-of-date and must be rebuilt, and after the prepare()
method has gotten everything, uh, prepared.
This method is called from multiple threads in a parallel build,
so only do thread safe stuff here. Do thread unsafe stuff
in built().
"""
try:
self.get_executor()(self, **kw)
except SCons.Errors.BuildError, e:
e.node = self
raise
def built(self):
"""Called just after this node is successfully built."""
# Clear the implicit dependency caches of any Nodes
# waiting for this Node to be built.
for parent in self.waiting_parents:
parent.implicit = None
self.clear()
self.ninfo.update(self)
def visited(self):
"""Called just after this node has been visited (with or
without a build)."""
try:
binfo = self.binfo
except AttributeError:
# Apparently this node doesn't need build info, so
# don't bother calculating or storing it.
pass
else:
self.ninfo.update(self)
self.store_info()
#
#
#
def add_to_waiting_s_e(self, node):
self.waiting_s_e.add(node)
def add_to_waiting_parents(self, node):
"""
Returns the number of nodes added to our waiting parents list:
1 if we add a unique waiting parent, 0 if not. (Note that the
returned values are intended to be used to increment a reference
count, so don't think you can "clean up" this function by using
True and False instead...)
"""
wp = self.waiting_parents
if node in wp:
return 0
wp.add(node)
return 1
def postprocess(self):
"""Clean up anything we don't need to hang onto after we've
been built."""
self.executor_cleanup()
self.waiting_parents = set()
def clear(self):
"""Completely clear a Node of all its cached state (so that it
can be re-evaluated by interfaces that do continuous integration
builds).
"""
# The del_binfo() call here isn't necessary for normal execution,
# but is for interactive mode, where we might rebuild the same
# target and need to start from scratch.
self.del_binfo()
self.clear_memoized_values()
self.ninfo = self.new_ninfo()
self.executor_cleanup()
try:
delattr(self, '_calculated_sig')
except AttributeError:
pass
self.includes = None
def clear_memoized_values(self):
self._memo = {}
def builder_set(self, builder):
self.builder = builder
try:
del self.executor
except AttributeError:
pass
def has_builder(self):
"""Return whether this Node has a builder or not.
In Boolean tests, this turns out to be a *lot* more efficient
than simply examining the builder attribute directly ("if
node.builder: ..."). When the builder attribute is examined
directly, it ends up calling __getattr__ for both the __len__
and __nonzero__ attributes on instances of our Builder Proxy
class(es), generating a bazillion extra calls and slowing
things down immensely.
"""
try:
b = self.builder
except AttributeError:
# There was no explicit builder for this Node, so initialize
# the self.builder attribute to None now.
b = self.builder = None
return b is not None
def set_explicit(self, is_explicit):
self.is_explicit = is_explicit
def has_explicit_builder(self):
"""Return whether this Node has an explicit builder
This allows an internal Builder created by SCons to be marked
non-explicit, so that it can be overridden by an explicit
builder that the user supplies (the canonical example being
directories)."""
try:
return self.is_explicit
except AttributeError:
self.is_explicit = None
return self.is_explicit
def get_builder(self, default_builder=None):
"""Return the set builder, or a specified default value"""
try:
return self.builder
except AttributeError:
return default_builder
multiple_side_effect_has_builder = has_builder
def is_derived(self):
"""
Returns true iff this node is derived (i.e. built).
This should return true only for nodes whose path should be in
the variant directory when duplicate=0 and should contribute their build
signatures when they are used as source files to other derived files. For
example: source with source builders are not derived in this sense,
and hence should not return true.
"""
return self.has_builder() or self.side_effect
def alter_targets(self):
"""Return a list of alternate targets for this Node.
"""
return [], None
def get_found_includes(self, env, scanner, path):
"""Return the scanned include lines (implicit dependencies)
found in this node.
The default is no implicit dependencies. We expect this method
to be overridden by any subclass that can be scanned for
implicit dependencies.
"""
return []
def get_implicit_deps(self, env, scanner, path):
"""Return a list of implicit dependencies for this node.
This method exists to handle recursive invocation of the scanner
on the implicit dependencies returned by the scanner, if the
scanner's recursive flag says that we should.
"""
if not scanner:
return []
# Give the scanner a chance to select a more specific scanner
# for this Node.
#scanner = scanner.select(self)
nodes = [self]
seen = {}
seen[self] = 1
deps = []
while nodes:
n = nodes.pop(0)
d = [x for x in n.get_found_includes(env, scanner, path) if x not in seen]
if d:
deps.extend(d)
for n in d:
seen[n] = 1
nodes.extend(scanner.recurse_nodes(d))
return deps
def get_env_scanner(self, env, kw={}):
return env.get_scanner(self.scanner_key())
def get_target_scanner(self):
return self.builder.target_scanner
def get_source_scanner(self, node):
"""Fetch the source scanner for the specified node
NOTE: "self" is the target being built, "node" is
the source file for which we want to fetch the scanner.
Implies self.has_builder() is true; again, expect to only be
called from locations where this is already verified.
This function may be called very often; it attempts to cache
the scanner found to improve performance.
"""
scanner = None
try:
scanner = self.builder.source_scanner
except AttributeError:
pass
if not scanner:
# The builder didn't have an explicit scanner, so go look up
# a scanner from env['SCANNERS'] based on the node's scanner
# key (usually the file extension).
scanner = self.get_env_scanner(self.get_build_env())
if scanner:
scanner = scanner.select(node)
return scanner
def add_to_implicit(self, deps):
if not hasattr(self, 'implicit') or self.implicit is None:
self.implicit = []
self.implicit_set = set()
self._children_reset()
self._add_child(self.implicit, self.implicit_set, deps)
def scan(self):
"""Scan this node's dependents for implicit dependencies."""
# Don't bother scanning non-derived files, because we don't
# care what their dependencies are.
# Don't scan again, if we already have scanned.
if self.implicit is not None:
return
self.implicit = []
self.implicit_set = set()
self._children_reset()
if not self.has_builder():
return
build_env = self.get_build_env()
executor = self.get_executor()
# Here's where we implement --implicit-cache.
if implicit_cache and not implicit_deps_changed:
implicit = self.get_stored_implicit()
if implicit is not None:
# We now add the implicit dependencies returned from the
# stored .sconsign entry to have already been converted
# to Nodes for us. (We used to run them through a
# source_factory function here.)
# 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.
for tgt in executor.get_all_targets():
tgt.add_to_implicit(implicit)
if implicit_deps_unchanged or self.is_up_to_date():
return
# one of this node's sources has changed,
# so we must recalculate the implicit deps:
self.implicit = []
self.implicit_set = set()
# Have the executor scan the sources.
executor.scan_sources(self.builder.source_scanner)
# If there's a target scanner, have the executor scan the target
# node itself and associated targets that might be built.
scanner = self.get_target_scanner()
if scanner:
executor.scan_targets(scanner)
def scanner_key(self):
return None
def select_scanner(self, scanner):
"""Selects a scanner for this Node.
This is a separate method so it can be overridden by Node
subclasses (specifically, Node.FS.Dir) that *must* use their
own Scanner and don't select one the Scanner.Selector that's
configured for the target.
"""
return scanner.select(self)
def env_set(self, env, safe=0):
if safe and self.env:
return
self.env = env
#
# SIGNATURE SUBSYSTEM
#
NodeInfo = NodeInfoBase
BuildInfo = BuildInfoBase
def new_ninfo(self):
ninfo = self.NodeInfo(self)
return ninfo
def get_ninfo(self):
try:
return self.ninfo
except AttributeError:
self.ninfo = self.new_ninfo()
return self.ninfo
def new_binfo(self):
binfo = self.BuildInfo(self)
return binfo
def get_binfo(self):
"""
Fetch a node's build information.
node - the node whose sources will be collected
cache - alternate node to use for the signature cache
returns - the build signature
This no longer handles the recursive descent of the
node's children's signatures. We expect that they're
already built and updated by someone else, if that's
what's wanted.
"""
try:
return self.binfo
except AttributeError:
pass
binfo = self.new_binfo()
self.binfo = binfo
executor = self.get_executor()
ignore_set = self.ignore_set
if self.has_builder():
binfo.bact = str(executor)
binfo.bactsig = SCons.Util.MD5signature(executor.get_contents())
if self._specific_sources:
sources = []
for s in self.sources:
if s not in ignore_set:
sources.append(s)
else:
sources = executor.get_unignored_sources(self, self.ignore)
seen = set()
bsources = []
bsourcesigs = []
for s in sources:
if not s in seen:
seen.add(s)
bsources.append(s)
bsourcesigs.append(s.get_ninfo())
binfo.bsources = bsources
binfo.bsourcesigs = bsourcesigs
depends = self.depends
dependsigs = []
for d in depends:
if d not in ignore_set:
dependsigs.append(d.get_ninfo())
binfo.bdepends = depends
binfo.bdependsigs = dependsigs
implicit = self.implicit or []
implicitsigs = []
for i in implicit:
if i not in ignore_set:
implicitsigs.append(i.get_ninfo())
binfo.bimplicit = implicit
binfo.bimplicitsigs = implicitsigs
return binfo
def del_binfo(self):
"""Delete the build info from this node."""
try:
delattr(self, 'binfo')
except AttributeError:
pass
def get_csig(self):
try:
return self.ninfo.csig
except AttributeError:
ninfo = self.get_ninfo()
ninfo.csig = SCons.Util.MD5signature(self.get_contents())
return self.ninfo.csig
def get_cachedir_csig(self):
return self.get_csig()
def store_info(self):
"""Make the build signature permanent (that is, store it in the
.sconsign file or equivalent)."""
pass
def do_not_store_info(self):
pass
def get_stored_info(self):
return None
def get_stored_implicit(self):
"""Fetch the stored implicit dependencies"""
return None
#
#
#
def set_precious(self, precious = 1):
"""Set the Node's precious value."""
self.precious = precious
def set_noclean(self, noclean = 1):
"""Set the Node's noclean value."""
# Make sure noclean is an integer so the --debug=stree
# output in Util.py can use it as an index.
self.noclean = noclean and 1 or 0
def set_nocache(self, nocache = 1):
"""Set the Node's nocache value."""
# Make sure nocache is an integer so the --debug=stree
# output in Util.py can use it as an index.
self.nocache = nocache and 1 or 0
def set_always_build(self, always_build = 1):
"""Set the Node's always_build value."""
self.always_build = always_build
def exists(self):
"""Does this node exists?"""
# All node exist by default:
return 1
def rexists(self):
"""Does this node exist locally or in a repositiory?"""
# There are no repositories by default:
return self.exists()
def missing(self):
return not self.is_derived() and \
not self.linked and \
not self.rexists()
def remove(self):
"""Remove this Node: no-op by default."""
return None
def add_dependency(self, depend):
"""Adds dependencies."""
try:
self._add_child(self.depends, self.depends_set, depend)
except TypeError, e:
e = e.args[0]
if SCons.Util.is_List(e):
s = list(map(str, e))
else:
s = str(e)
raise SCons.Errors.UserError("attempted to add a non-Node dependency to %s:\n\t%s is a %s, not a Node" % (str(self), s, type(e)))
def add_prerequisite(self, prerequisite):
"""Adds prerequisites"""
self.prerequisites.extend(prerequisite)
self._children_reset()
def add_ignore(self, depend):
"""Adds dependencies to ignore."""
try:
self._add_child(self.ignore, self.ignore_set, depend)
except TypeError, e:
e = e.args[0]
if SCons.Util.is_List(e):
s = list(map(str, e))
else:
s = str(e)
raise SCons.Errors.UserError("attempted to ignore a non-Node dependency of %s:\n\t%s is a %s, not a Node" % (str(self), s, type(e)))
def add_source(self, source):
"""Adds sources."""
if self._specific_sources:
return
try:
self._add_child(self.sources, self.sources_set, source)
except TypeError, e:
e = e.args[0]
if SCons.Util.is_List(e):
s = list(map(str, e))
else:
s = str(e)
raise SCons.Errors.UserError("attempted to add a non-Node as source of %s:\n\t%s is a %s, not a Node" % (str(self), s, type(e)))
def _add_child(self, collection, set, child):
"""Adds 'child' to 'collection', first checking 'set' to see if it's
already present."""
#if type(child) is not type([]):
# child = [child]
#for c in child:
# if not isinstance(c, Node):
# raise TypeError, c
added = None
for c in child:
if c not in set:
set.add(c)
collection.append(c)
added = 1
if added:
self._children_reset()
def set_specific_source(self, source):
self.add_source(source)
self._specific_sources = True
def add_wkid(self, wkid):
"""Add a node to the list of kids waiting to be evaluated"""
if self.wkids is not None:
self.wkids.append(wkid)
def _children_reset(self):
self.clear_memoized_values()
# We need to let the Executor clear out any calculated
# build info that it's cached so we can re-calculate it.
self.executor_cleanup()
memoizer_counters.append(SCons.Memoize.CountValue('_children_get'))
def _children_get(self):
try:
return self._memo['children_get']
except KeyError:
pass
# The return list may contain duplicate Nodes, especially in
# source trees where there are a lot of repeated #includes
# of a tangle of .h files. Profiling shows, however, that
# eliminating the duplicates with a brute-force approach that
# preserves the order (that is, something like:
#
# u = []
# for n in list:
# if n not in u:
# u.append(n)"
#
# takes more cycles than just letting the underlying methods
# hand back cached values if a Node's information is requested
# multiple times. (Other methods of removing duplicates, like
# using dictionary keys, lose the order, and the only ordered
# dictionary patterns I found all ended up using "not in"
# internally anyway...)
if self.ignore_set:
if self.implicit is None:
iter = chain(self.sources,self.depends)
else:
iter = chain(self.sources, self.depends, self.implicit)
children = []
for i in iter:
if i not in self.ignore_set:
children.append(i)
else:
if self.implicit is None:
children = self.sources + self.depends
else:
children = self.sources + self.depends + self.implicit
self._memo['children_get'] = children
return children
def all_children(self, scan=1):
"""Return a list of all the node's direct children."""
if scan:
self.scan()
# The return list may contain duplicate Nodes, especially in
# source trees where there are a lot of repeated #includes
# of a tangle of .h files. Profiling shows, however, that
# eliminating the duplicates with a brute-force approach that
# preserves the order (that is, something like:
#
# u = []
# for n in list:
# if n not in u:
# u.append(n)"
#
# takes more cycles than just letting the underlying methods
# hand back cached values if a Node's information is requested
# multiple times. (Other methods of removing duplicates, like
# using dictionary keys, lose the order, and the only ordered
# dictionary patterns I found all ended up using "not in"
# internally anyway...)
if self.implicit is None:
return self.sources + self.depends
else:
return self.sources + self.depends + self.implicit
def children(self, scan=1):
"""Return a list of the node's direct children, minus those
that are ignored by this node."""
if scan:
self.scan()
return self._children_get()
def set_state(self, state):
self.state = state
def get_state(self):
return self.state
def state_has_changed(self, target, prev_ni):
return (self.state != SCons.Node.up_to_date)
def get_env(self):
env = self.env
if not env:
import SCons.Defaults
env = SCons.Defaults.DefaultEnvironment()
return env
def changed_since_last_build(self, target, prev_ni):
"""
Must be overridden in a specific subclass to return True if this
Node (a dependency) has changed since the last time it was used
to build the specified target. prev_ni is this Node's state (for
example, its file timestamp, length, maybe content signature)
as of the last time the target was built.
Note that this method is called through the dependency, not the
target, because a dependency Node must be able to use its own
logic to decide if it changed. For example, File Nodes need to
obey if we're configured to use timestamps, but Python Value Nodes
never use timestamps and always use the content. If this method
were called through the target, then each Node's implementation
of this method would have to have more complicated logic to
handle all the different Node types on which it might depend.
"""
raise NotImplementedError
def Decider(self, function):
SCons.Util.AddMethod(self, function, 'changed_since_last_build')
def changed(self, node=None):
"""
Returns if the node is up-to-date with respect to the BuildInfo
stored last time it was built. The default behavior is to compare
it against our own previously stored BuildInfo, but the stored
BuildInfo from another Node (typically one in a Repository)
can be used instead.
Note that we now *always* check every dependency. We used to
short-circuit the check by returning as soon as we detected
any difference, but we now rely on checking every dependency
to make sure that any necessary Node information (for example,
the content signature of an #included .h file) is updated.
"""
t = 0
if t: Trace('changed(%s [%s], %s)' % (self, classname(self), node))
if node is None:
node = self
result = False
bi = node.get_stored_info().binfo
then = bi.bsourcesigs + bi.bdependsigs + bi.bimplicitsigs
children = self.children()
diff = len(children) - len(then)
if diff:
# The old and new dependency lists are different lengths.
# This always indicates that the Node must be rebuilt.
# We also extend the old dependency list with enough None
# entries to equal the new dependency list, for the benefit
# of the loop below that updates node information.
then.extend([None] * diff)
if t: Trace(': old %s new %s' % (len(then), len(children)))
result = True
for child, prev_ni in zip(children, then):
if child.changed_since_last_build(self, prev_ni):
if t: Trace(': %s changed' % child)
result = True
contents = self.get_executor().get_contents()
if self.has_builder():
import SCons.Util
newsig = SCons.Util.MD5signature(contents)
if bi.bactsig != newsig:
if t: Trace(': bactsig %s != newsig %s' % (bi.bactsig, newsig))
result = True
if not result:
if t: Trace(': up to date')
if t: Trace('\n')
return result
def is_up_to_date(self):
"""Default check for whether the Node is current: unknown Node
subtypes are always out of date, so they will always get built."""
return None
def children_are_up_to_date(self):
"""Alternate check for whether the Node is current: If all of
our children were up-to-date, then this Node was up-to-date, too.
The SCons.Node.Alias and SCons.Node.Python.Value subclasses
rebind their current() method to this method."""
# Allow the children to calculate their signatures.
self.binfo = self.get_binfo()
if self.always_build:
return None
state = 0
for kid in self.children(None):
s = kid.get_state()
if s and (not state or s > state):
state = s
return (state == 0 or state == SCons.Node.up_to_date)
def is_literal(self):
"""Always pass the string representation of a Node to
the command interpreter literally."""
return 1
def render_include_tree(self):
"""
Return a text representation, suitable for displaying to the
user, of the include tree for the sources of this node.
"""
if self.is_derived() and self.env:
env = self.get_build_env()
for s in self.sources:
scanner = self.get_source_scanner(s)
if scanner:
path = self.get_build_scanner_path(scanner)
else:
path = None
def f(node, env=env, scanner=scanner, path=path):
return node.get_found_includes(env, scanner, path)
return SCons.Util.render_tree(s, f, 1)
else:
return None
def get_abspath(self):
"""
Return an absolute path to the Node. This will return simply
str(Node) by default, but for Node types that have a concept of
relative path, this might return something different.
"""
return str(self)
def for_signature(self):
"""
Return a string representation of the Node that will always
be the same for this particular Node, no matter what. This
is by contrast to the __str__() method, which might, for
instance, return a relative path for a file Node. The purpose
of this method is to generate a value to be used in signature
calculation for the command line used to build a target, and
we use this method instead of str() to avoid unnecessary
rebuilds. This method does not need to return something that
would actually work in a command line; it can return any kind of
nonsense, so long as it does not change.
"""
return str(self)
def get_string(self, for_signature):
"""This is a convenience function designed primarily to be
used in command generators (i.e., CommandGeneratorActions or
Environment variables that are callable), which are called
with a for_signature argument that is nonzero if the command
generator is being called to generate a signature for the
command line, which determines if we should rebuild or not.
Such command generators should use this method in preference
to str(Node) when converting a Node to a string, passing
in the for_signature parameter, such that we will call
Node.for_signature() or str(Node) properly, depending on whether
we are calculating a signature or actually constructing a
command line."""
if for_signature:
return self.for_signature()
return str(self)
def get_subst_proxy(self):
"""
This method is expected to return an object that will function
exactly like this Node, except that it implements any additional
special features that we would like to be in effect for
Environment variable substitution. The principle use is that
some Nodes would like to implement a __getattr__() method,
but putting that in the Node type itself has a tendency to kill
performance. We instead put it in a proxy and return it from
this method. It is legal for this method to return self
if no new functionality is needed for Environment substitution.
"""
return self
def explain(self):
if not self.exists():
return "building `%s' because it doesn't exist\n" % self
if self.always_build:
return "rebuilding `%s' because AlwaysBuild() is specified\n" % self
old = self.get_stored_info()
if old is None:
return None
old = old.binfo
old.prepare_dependencies()
try:
old_bkids = old.bsources + old.bdepends + old.bimplicit
old_bkidsigs = old.bsourcesigs + old.bdependsigs + old.bimplicitsigs
except AttributeError:
return "Cannot explain why `%s' is being rebuilt: No previous build information found\n" % self
new = self.get_binfo()
new_bkids = new.bsources + new.bdepends + new.bimplicit
new_bkidsigs = new.bsourcesigs + new.bdependsigs + new.bimplicitsigs
osig = dict(zip(old_bkids, old_bkidsigs))
nsig = dict(zip(new_bkids, new_bkidsigs))
# The sources and dependencies we'll want to report are all stored
# as relative paths to this target's directory, but we want to
# report them relative to the top-level SConstruct directory,
# so we only print them after running them through this lambda
# to turn them into the right relative Node and then return
# its string.
def stringify( s, E=self.dir.Entry ) :
if hasattr( s, 'dir' ) :
return str(E(s))
return str(s)
lines = []
removed = [x for x in old_bkids if not x in new_bkids]
if removed:
removed = list(map(stringify, removed))
fmt = "`%s' is no longer a dependency\n"
lines.extend([fmt % s for s in removed])
for k in new_bkids:
if not k in old_bkids:
lines.append("`%s' is a new dependency\n" % stringify(k))
elif k.changed_since_last_build(self, osig[k]):
lines.append("`%s' changed\n" % stringify(k))
if len(lines) == 0 and old_bkids != new_bkids:
lines.append("the dependency order changed:\n" +
"%sold: %s\n" % (' '*15, list(map(stringify, old_bkids))) +
"%snew: %s\n" % (' '*15, list(map(stringify, new_bkids))))
if len(lines) == 0:
def fmt_with_title(title, strlines):
lines = strlines.split('\n')
sep = '\n' + ' '*(15 + len(title))
return ' '*15 + title + sep.join(lines) + '\n'
if old.bactsig != new.bactsig:
if old.bact == new.bact:
lines.append("the contents of the build action changed\n" +
fmt_with_title('action: ', new.bact))
else:
lines.append("the build action changed:\n" +
fmt_with_title('old: ', old.bact) +
fmt_with_title('new: ', new.bact))
if len(lines) == 0:
return "rebuilding `%s' for unknown reasons\n" % self
preamble = "rebuilding `%s' because" % self
if len(lines) == 1:
return "%s %s" % (preamble, lines[0])
else:
lines = ["%s:\n" % preamble] + lines
return ( ' '*11).join(lines)
class NodeList(collections.UserList):
def __str__(self):
return str(list(map(str, self.data)))
def get_children(node, parent): return node.children()
def ignore_cycle(node, stack): pass
def do_nothing(node, parent): pass
class Walker(object):
"""An iterator for walking a Node tree.
This is depth-first, children are visited before the parent.
The Walker object can be initialized with any node, and
returns the next node on the descent with each get_next() call.
'kids_func' is an optional function that will be called to
get the children of a node instead of calling 'children'.
'cycle_func' is an optional function that will be called
when a cycle is detected.
This class does not get caught in node cycles caused, for example,
by C header file include loops.
"""
def __init__(self, node, kids_func=get_children,
cycle_func=ignore_cycle,
eval_func=do_nothing):
self.kids_func = kids_func
self.cycle_func = cycle_func
self.eval_func = eval_func
node.wkids = copy.copy(kids_func(node, None))
self.stack = [node]
self.history = {} # used to efficiently detect and avoid cycles
self.history[node] = None
def get_next(self):
"""Return the next node for this walk of the tree.
This function is intentionally iterative, not recursive,
to sidestep any issues of stack size limitations.
"""
while self.stack:
if self.stack[-1].wkids:
node = self.stack[-1].wkids.pop(0)
if not self.stack[-1].wkids:
self.stack[-1].wkids = None
if node in self.history:
self.cycle_func(node, self.stack)
else:
node.wkids = copy.copy(self.kids_func(node, self.stack[-1]))
self.stack.append(node)
self.history[node] = None
else:
node = self.stack.pop()
del self.history[node]
if node:
if self.stack:
parent = self.stack[-1]
else:
parent = None
self.eval_func(node, parent)
return node
return None
def is_done(self):
return not self.stack
arg2nodes_lookups = []
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# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4: