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# Status: ported, except for tests and --abbreviate-paths.
# Base revision: 64070
#
# Copyright 2001, 2002, 2003 Dave Abrahams
# Copyright 2006 Rene Rivera
# Copyright 2002, 2003, 2004, 2005, 2006 Vladimir Prus
# Distributed under the Boost Software License, Version 1.0.
# (See accompanying file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
import re
from b2.util.utility import *
from b2.build import feature
from b2.util import sequence, qualify_jam_action
import b2.util.set
from b2.manager import get_manager
__re_two_ampersands = re.compile ('&&')
__re_comma = re.compile (',')
__re_split_condition = re.compile ('(.*):(<.*)')
__re_split_conditional = re.compile (r'(.+):<(.+)')
__re_colon = re.compile (':')
__re_has_condition = re.compile (r':<')
__re_separate_condition_and_property = re.compile (r'(.*):(<.*)')
class Property(object):
__slots__ = ('_feature', '_value', '_condition')
def __init__(self, f, value, condition = []):
if type(f) == type(""):
f = feature.get(f)
# At present, single property has a single value.
assert type(value) != type([])
assert(f.free() or value.find(':') == -1)
self._feature = f
self._value = value
self._condition = condition
def feature(self):
return self._feature
def value(self):
return self._value
def condition(self):
return self._condition
def to_raw(self):
result = "<" + self._feature.name() + ">" + str(self._value)
if self._condition:
result = ",".join(str(p) for p in self._condition) + ':' + result
return result
def __str__(self):
return self.to_raw()
def __hash__(self):
# FIXME: consider if this class should be value-is-identity one
return hash((self._feature, self._value, tuple(self._condition)))
def __cmp__(self, other):
return cmp((self._feature, self._value, self._condition),
(other._feature, other._value, other._condition))
def create_from_string(s, allow_condition=False):
condition = []
import types
if not isinstance(s, types.StringType):
print type(s)
if __re_has_condition.search(s):
if not allow_condition:
raise BaseException("Conditional property is not allowed in this context")
m = __re_separate_condition_and_property.match(s)
condition = m.group(1)
s = m.group(2)
# FIXME: break dependency cycle
from b2.manager import get_manager
feature_name = get_grist(s)
if not feature_name:
if feature.is_implicit_value(s):
f = feature.implied_feature(s)
value = s
else:
raise get_manager().errors()("Invalid property '%s' -- unknown feature" % s)
else:
f = feature.get(feature_name)
value = get_value(s)
if not value:
get_manager().errors()("Invalid property '%s' -- no value specified" % s)
if condition:
condition = [create_from_string(x) for x in condition.split(',')]
return Property(f, value, condition)
def create_from_strings(string_list, allow_condition=False):
return [create_from_string(s, allow_condition) for s in string_list]
def reset ():
""" Clear the module state. This is mainly for testing purposes.
"""
global __results
# A cache of results from as_path
__results = {}
reset ()
def path_order (x, y):
""" Helper for as_path, below. Orders properties with the implicit ones
first, and within the two sections in alphabetical order of feature
name.
"""
if x == y:
return 0
xg = get_grist (x)
yg = get_grist (y)
if yg and not xg:
return -1
elif xg and not yg:
return 1
else:
if not xg:
x = feature.expand_subfeatures([x])
y = feature.expand_subfeatures([y])
if x < y:
return -1
elif x > y:
return 1
else:
return 0
def identify(string):
return string
# Uses Property
def refine (properties, requirements):
""" Refines 'properties' by overriding any non-free properties
for which a different value is specified in 'requirements'.
Conditional requirements are just added without modification.
Returns the resulting list of properties.
"""
# The result has no duplicates, so we store it in a set
result = set()
# Records all requirements.
required = {}
# All the elements of requirements should be present in the result
# Record them so that we can handle 'properties'.
for r in requirements:
# Don't consider conditional requirements.
if not r.condition():
required[r.feature()] = r
for p in properties:
# Skip conditional properties
if p.condition():
result.add(p)
# No processing for free properties
elif p.feature().free():
result.add(p)
else:
if required.has_key(p.feature()):
result.add(required[p.feature()])
else:
result.add(p)
return sequence.unique(list(result) + requirements)
def translate_paths (properties, path):
""" Interpret all path properties in 'properties' as relative to 'path'
The property values are assumed to be in system-specific form, and
will be translated into normalized form.
"""
result = []
for p in properties:
if p.feature().path():
values = __re_two_ampersands.split(p.value())
new_value = "&&".join(os.path.join(path, v) for v in values)
if new_value != p.value():
result.append(Property(p.feature(), new_value, p.condition()))
else:
result.append(p)
else:
result.append (p)
return result
def translate_indirect(properties, context_module):
"""Assumes that all feature values that start with '@' are
names of rules, used in 'context-module'. Such rules can be
either local to the module or global. Qualified local rules
with the name of the module."""
result = []
for p in properties:
if p.value()[0] == '@':
q = qualify_jam_action(p.value()[1:], context_module)
get_manager().engine().register_bjam_action(q)
result.append(Property(p.feature(), '@' + q, p.condition()))
else:
result.append(p)
return result
def validate (properties):
""" Exit with error if any of the properties is not valid.
properties may be a single property or a sequence of properties.
"""
if isinstance (properties, str):
__validate1 (properties)
else:
for p in properties:
__validate1 (p)
def expand_subfeatures_in_conditions (properties):
result = []
for p in properties:
if not p.condition():
result.append(p)
else:
expanded = []
for c in p.condition():
if c.feature().name().startswith("toolset") or c.feature().name() == "os":
# It common that condition includes a toolset which
# was never defined, or mentiones subfeatures which
# were never defined. In that case, validation will
# only produce an spirious error, so don't validate.
expanded.extend(feature.expand_subfeatures ([c], True))
else:
expanded.extend(feature.expand_subfeatures([c]))
result.append(Property(p.feature(), p.value(), expanded))
return result
# FIXME: this should go
def split_conditional (property):
""" If 'property' is conditional property, returns
condition and the property, e.g
<variant>debug,<toolset>gcc:<inlining>full will become
<variant>debug,<toolset>gcc <inlining>full.
Otherwise, returns empty string.
"""
m = __re_split_conditional.match (property)
if m:
return (m.group (1), '<' + m.group (2))
return None
def select (features, properties):
""" Selects properties which correspond to any of the given features.
"""
result = []
# add any missing angle brackets
features = add_grist (features)
return [p for p in properties if get_grist(p) in features]
def validate_property_sets (sets):
for s in sets:
validate(s.all())
def evaluate_conditionals_in_context (properties, context):
""" Removes all conditional properties which conditions are not met
For those with met conditions, removes the condition. Properies
in conditions are looked up in 'context'
"""
base = []
conditional = []
for p in properties:
if p.condition():
conditional.append (p)
else:
base.append (p)
result = base[:]
for p in conditional:
# Evaluate condition
# FIXME: probably inefficient
if all(x in context for x in p.condition()):
result.append(Property(p.feature(), p.value()))
return result
def change (properties, feature, value = None):
""" Returns a modified version of properties with all values of the
given feature replaced by the given value.
If 'value' is None the feature will be removed.
"""
result = []
feature = add_grist (feature)
for p in properties:
if get_grist (p) == feature:
if value:
result.append (replace_grist (value, feature))
else:
result.append (p)
return result
################################################################
# Private functions
def __validate1 (property):
""" Exit with error if property is not valid.
"""
msg = None
if not property.feature().free():
feature.validate_value_string (property.feature(), property.value())
###################################################################
# Still to port.
# Original lines are prefixed with "# "
#
#
# import utility : ungrist ;
# import sequence : unique ;
# import errors : error ;
# import feature ;
# import regex ;
# import sequence ;
# import set ;
# import path ;
# import assert ;
#
#
# rule validate-property-sets ( property-sets * )
# {
# for local s in $(property-sets)
# {
# validate [ feature.split $(s) ] ;
# }
# }
#
def remove(attributes, properties):
"""Returns a property sets which include all the elements
in 'properties' that do not have attributes listed in 'attributes'."""
result = []
for e in properties:
attributes_new = feature.attributes(get_grist(e))
has_common_features = 0
for a in attributes_new:
if a in attributes:
has_common_features = 1
break
if not has_common_features:
result += e
return result
def take(attributes, properties):
"""Returns a property set which include all
properties in 'properties' that have any of 'attributes'."""
result = []
for e in properties:
if b2.util.set.intersection(attributes, feature.attributes(get_grist(e))):
result.append(e)
return result
def translate_dependencies(properties, project_id, location):
result = []
for p in properties:
if not p.feature().dependency():
result.append(p)
else:
v = p.value()
m = re.match("(.*)//(.*)", v)
if m:
rooted = m.group(1)
if rooted[0] == '/':
# Either project id or absolute Linux path, do nothing.
pass
else:
rooted = os.path.join(os.getcwd(), location, rooted)
result.append(Property(p.feature(), rooted + "//" + m.group(2), p.condition()))
elif os.path.isabs(v):
result.append(p)
else:
result.append(Property(p.feature(), project_id + "//" + v, p.condition()))
return result
class PropertyMap:
""" Class which maintains a property set -> string mapping.
"""
def __init__ (self):
self.__properties = []
self.__values = []
def insert (self, properties, value):
""" Associate value with properties.
"""
self.__properties.append(properties)
self.__values.append(value)
def find (self, properties):
""" Return the value associated with properties
or any subset of it. If more than one
subset has value assigned to it, return the
value for the longest subset, if it's unique.
"""
return self.find_replace (properties)
def find_replace(self, properties, value=None):
matches = []
match_ranks = []
for i in range(0, len(self.__properties)):
p = self.__properties[i]
if b2.util.set.contains (p, properties):
matches.append (i)
match_ranks.append(len(p))
best = sequence.select_highest_ranked (matches, match_ranks)
if not best:
return None
if len (best) > 1:
raise NoBestMatchingAlternative ()
best = best [0]
original = self.__values[best]
if value:
self.__values[best] = value
return original
# local rule __test__ ( )
# {
# import errors : try catch ;
# import feature ;
# import feature : feature subfeature compose ;
#
# # local rules must be explicitly re-imported
# import property : path-order ;
#
# feature.prepare-test property-test-temp ;
#
# feature toolset : gcc : implicit symmetric ;
# subfeature toolset gcc : version : 2.95.2 2.95.3 2.95.4
# 3.0 3.0.1 3.0.2 : optional ;
# feature define : : free ;
# feature runtime-link : dynamic static : symmetric link-incompatible ;
# feature optimization : on off ;
# feature variant : debug release : implicit composite symmetric ;
# feature rtti : on off : link-incompatible ;
#
# compose <variant>debug : <define>_DEBUG <optimization>off ;
# compose <variant>release : <define>NDEBUG <optimization>on ;
#
# import assert ;
# import "class" : new ;
#
# validate <toolset>gcc <toolset>gcc-3.0.1 : $(test-space) ;
#
# assert.result <toolset>gcc <rtti>off <define>FOO
# : refine <toolset>gcc <rtti>off
# : <define>FOO
# : $(test-space)
# ;
#
# assert.result <toolset>gcc <optimization>on
# : refine <toolset>gcc <optimization>off
# : <optimization>on
# : $(test-space)
# ;
#
# assert.result <toolset>gcc <rtti>off
# : refine <toolset>gcc : <rtti>off : $(test-space)
# ;
#
# assert.result <toolset>gcc <rtti>off <rtti>off:<define>FOO
# : refine <toolset>gcc : <rtti>off <rtti>off:<define>FOO
# : $(test-space)
# ;
#
# assert.result <toolset>gcc:<define>foo <toolset>gcc:<define>bar
# : refine <toolset>gcc:<define>foo : <toolset>gcc:<define>bar
# : $(test-space)
# ;
#
# assert.result <define>MY_RELEASE
# : evaluate-conditionals-in-context
# <variant>release,<rtti>off:<define>MY_RELEASE
# : <toolset>gcc <variant>release <rtti>off
#
# ;
#
# try ;
# validate <feature>value : $(test-space) ;
# catch "Invalid property '<feature>value': unknown feature 'feature'." ;
#
# try ;
# validate <rtti>default : $(test-space) ;
# catch \"default\" is not a known value of feature <rtti> ;
#
# validate <define>WHATEVER : $(test-space) ;
#
# try ;
# validate <rtti> : $(test-space) ;
# catch "Invalid property '<rtti>': No value specified for feature 'rtti'." ;
#
# try ;
# validate value : $(test-space) ;
# catch "value" is not a value of an implicit feature ;
#
#
# assert.result <rtti>on
# : remove free implicit : <toolset>gcc <define>foo <rtti>on : $(test-space) ;
#
# assert.result <include>a
# : select include : <include>a <toolset>gcc ;
#
# assert.result <include>a
# : select include bar : <include>a <toolset>gcc ;
#
# assert.result <include>a <toolset>gcc
# : select include <bar> <toolset> : <include>a <toolset>gcc ;
#
# assert.result <toolset>kylix <include>a
# : change <toolset>gcc <include>a : <toolset> kylix ;
#
# # Test ordinary properties
# assert.result
# : split-conditional <toolset>gcc
# ;
#
# # Test properties with ":"
# assert.result
# : split-conditional <define>FOO=A::B
# ;
#
# # Test conditional feature
# assert.result <toolset>gcc,<toolset-gcc:version>3.0 <define>FOO
# : split-conditional <toolset>gcc,<toolset-gcc:version>3.0:<define>FOO
# ;
#
# feature.finish-test property-test-temp ;
# }
#
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