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# ex:ts=4:sw=4:sts=4:et
# -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*-
"""
BitBake Smart Dictionary Implementation
Functions for interacting with the data structure used by the
BitBake build tools.
"""
# Copyright (C) 2003, 2004 Chris Larson
# Copyright (C) 2004, 2005 Seb Frankengul
# Copyright (C) 2005, 2006 Holger Hans Peter Freyther
# Copyright (C) 2005 Uli Luckas
# Copyright (C) 2005 ROAD GmbH
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
# Based on functions from the base bb module, Copyright 2003 Holger Schurig
import copy, re
from collections import MutableMapping
import logging
import bb, bb.codeparser
from bb import utils
from bb.COW import COWDictBase
logger = logging.getLogger("BitBake.Data")
__setvar_keyword__ = ["_append", "_prepend"]
__setvar_regexp__ = re.compile('(?P<base>.*?)(?P<keyword>_append|_prepend)(_(?P<add>.*))?')
__expand_var_regexp__ = re.compile(r"\${[^{}]+}")
__expand_python_regexp__ = re.compile(r"\${@.+?}")
class VariableParse:
def __init__(self, varname, d, val = None):
self.varname = varname
self.d = d
self.value = val
self.references = set()
self.execs = set()
def var_sub(self, match):
key = match.group()[2:-1]
if self.varname and key:
if self.varname == key:
raise Exception("variable %s references itself!" % self.varname)
var = self.d.getVar(key, 1)
if var is not None:
self.references.add(key)
return var
else:
return match.group()
def python_sub(self, match):
code = match.group()[3:-1]
codeobj = compile(code.strip(), self.varname or "<expansion>", "eval")
parser = bb.codeparser.PythonParser(self.varname, logger)
parser.parse_python(code)
if self.varname:
vardeps = self.d.getVarFlag(self.varname, "vardeps", True)
if vardeps is None:
parser.log.flush()
else:
parser.log.flush()
self.references |= parser.references
self.execs |= parser.execs
value = utils.better_eval(codeobj, DataContext(self.d))
return str(value)
class DataContext(dict):
def __init__(self, metadata, **kwargs):
self.metadata = metadata
dict.__init__(self, **kwargs)
self['d'] = metadata
def __missing__(self, key):
value = self.metadata.getVar(key, True)
if value is None or self.metadata.getVarFlag(key, 'func'):
raise KeyError(key)
else:
return value
class ExpansionError(Exception):
def __init__(self, varname, expression, exception):
self.expression = expression
self.variablename = varname
self.exception = exception
self.msg = "Failure expanding variable %s, expression was %s which triggered exception %s: %s" % (varname, expression, type(exception).__name__, exception)
Exception.__init__(self, self.msg)
self.args = (varname, expression, exception)
def __str__(self):
return self.msg
class DataSmart(MutableMapping):
def __init__(self, special = COWDictBase.copy(), seen = COWDictBase.copy() ):
self.dict = {}
# cookie monster tribute
self._special_values = special
self._seen_overrides = seen
self.expand_cache = {}
def expandWithRefs(self, s, varname):
if not isinstance(s, basestring): # sanity check
return VariableParse(varname, self, s)
if varname and varname in self.expand_cache:
return self.expand_cache[varname]
varparse = VariableParse(varname, self)
while s.find('${') != -1:
olds = s
try:
s = __expand_var_regexp__.sub(varparse.var_sub, s)
s = __expand_python_regexp__.sub(varparse.python_sub, s)
if s == olds:
break
except ExpansionError:
raise
except Exception as exc:
raise ExpansionError(varname, s, exc)
varparse.value = s
if varname:
self.expand_cache[varname] = varparse
return varparse
def expand(self, s, varname):
return self.expandWithRefs(s, varname).value
def finalize(self):
"""Performs final steps upon the datastore, including application of overrides"""
overrides = (self.getVar("OVERRIDES", True) or "").split(":") or []
#
# Well let us see what breaks here. We used to iterate
# over each variable and apply the override and then
# do the line expanding.
# If we have bad luck - which we will have - the keys
# where in some order that is so important for this
# method which we don't have anymore.
# Anyway we will fix that and write test cases this
# time.
#
# First we apply all overrides
# Then we will handle _append and _prepend
#
for o in overrides:
# calculate '_'+override
l = len(o) + 1
# see if one should even try
if o not in self._seen_overrides:
continue
vars = self._seen_overrides[o].copy()
for var in vars:
name = var[:-l]
try:
self.setVar(name, self.getVar(var, False))
self.delVar(var)
except Exception:
logger.info("Untracked delVar")
# now on to the appends and prepends
for op in __setvar_keyword__:
if op in self._special_values:
appends = self._special_values[op] or []
for append in appends:
keep = []
for (a, o) in self.getVarFlag(append, op) or []:
if o and not o in overrides:
keep.append((a ,o))
continue
if op == "_append":
sval = self.getVar(append, False) or ""
sval += a
self.setVar(append, sval)
elif op == "_prepend":
sval = a + (self.getVar(append, False) or "")
self.setVar(append, sval)
# We save overrides that may be applied at some later stage
if keep:
self.setVarFlag(append, op, keep)
else:
self.delVarFlag(append, op)
def initVar(self, var):
self.expand_cache = {}
if not var in self.dict:
self.dict[var] = {}
def _findVar(self, var):
dest = self.dict
while dest:
if var in dest:
return dest[var]
if "_data" not in dest:
break
dest = dest["_data"]
def _makeShadowCopy(self, var):
if var in self.dict:
return
local_var = self._findVar(var)
if local_var:
self.dict[var] = copy.copy(local_var)
else:
self.initVar(var)
def setVar(self, var, value):
self.expand_cache = {}
match = __setvar_regexp__.match(var)
if match and match.group("keyword") in __setvar_keyword__:
base = match.group('base')
keyword = match.group("keyword")
override = match.group('add')
l = self.getVarFlag(base, keyword) or []
l.append([value, override])
self.setVarFlag(base, keyword, l)
# todo make sure keyword is not __doc__ or __module__
# pay the cookie monster
try:
self._special_values[keyword].add( base )
except KeyError:
self._special_values[keyword] = set()
self._special_values[keyword].add( base )
return
if not var in self.dict:
self._makeShadowCopy(var)
# more cookies for the cookie monster
if '_' in var:
override = var[var.rfind('_')+1:]
if len(override) > 0:
if override not in self._seen_overrides:
self._seen_overrides[override] = set()
self._seen_overrides[override].add( var )
# setting var
self.dict[var]["content"] = value
def getVar(self, var, expand=False, noweakdefault=False):
value = self.getVarFlag(var, "content", False, noweakdefault)
# Call expand() separately to make use of the expand cache
if expand and value:
return self.expand(value, var)
return value
def renameVar(self, key, newkey):
"""
Rename the variable key to newkey
"""
val = self.getVar(key, 0)
if val is not None:
self.setVar(newkey, val)
for i in ('_append', '_prepend'):
src = self.getVarFlag(key, i)
if src is None:
continue
dest = self.getVarFlag(newkey, i) or []
dest.extend(src)
self.setVarFlag(newkey, i, dest)
if i in self._special_values and key in self._special_values[i]:
self._special_values[i].remove(key)
self._special_values[i].add(newkey)
self.delVar(key)
def delVar(self, var):
self.expand_cache = {}
self.dict[var] = {}
if '_' in var:
override = var[var.rfind('_')+1:]
if override and override in self._seen_overrides and var in self._seen_overrides[override]:
self._seen_overrides[override].remove(var)
def setVarFlag(self, var, flag, flagvalue):
if not var in self.dict:
self._makeShadowCopy(var)
self.dict[var][flag] = flagvalue
def getVarFlag(self, var, flag, expand=False, noweakdefault=False):
local_var = self._findVar(var)
value = None
if local_var:
if flag in local_var:
value = copy.copy(local_var[flag])
elif flag == "content" and "defaultval" in local_var and not noweakdefault:
value = copy.copy(local_var["defaultval"])
if expand and value:
value = self.expand(value, None)
return value
def delVarFlag(self, var, flag):
local_var = self._findVar(var)
if not local_var:
return
if not var in self.dict:
self._makeShadowCopy(var)
if var in self.dict and flag in self.dict[var]:
del self.dict[var][flag]
def setVarFlags(self, var, flags):
if not var in self.dict:
self._makeShadowCopy(var)
for i in flags:
if i == "content":
continue
self.dict[var][i] = flags[i]
def getVarFlags(self, var):
local_var = self._findVar(var)
flags = {}
if local_var:
for i in local_var:
if i == "content":
continue
flags[i] = local_var[i]
if len(flags) == 0:
return None
return flags
def delVarFlags(self, var):
if not var in self.dict:
self._makeShadowCopy(var)
if var in self.dict:
content = None
# try to save the content
if "content" in self.dict[var]:
content = self.dict[var]["content"]
self.dict[var] = {}
self.dict[var]["content"] = content
else:
del self.dict[var]
def createCopy(self):
"""
Create a copy of self by setting _data to self
"""
# we really want this to be a DataSmart...
data = DataSmart(seen=self._seen_overrides.copy(), special=self._special_values.copy())
data.dict["_data"] = self.dict
return data
def expandVarref(self, variable, parents=False):
"""Find all references to variable in the data and expand it
in place, optionally descending to parent datastores."""
if parents:
keys = iter(self)
else:
keys = self.localkeys()
ref = '${%s}' % variable
value = self.getVar(variable, False)
for key in keys:
referrervalue = self.getVar(key, False)
if referrervalue and ref in referrervalue:
self.setVar(key, referrervalue.replace(ref, value))
def localkeys(self):
for key in self.dict:
if key != '_data':
yield key
def __iter__(self):
def keylist(d):
klist = set()
for key in d:
if key == "_data":
continue
if not d[key]:
continue
klist.add(key)
if "_data" in d:
klist |= keylist(d["_data"])
return klist
for k in keylist(self.dict):
yield k
def __len__(self):
return len(frozenset(self))
def __getitem__(self, item):
value = self.getVar(item, False)
if value is None:
raise KeyError(item)
else:
return value
def __setitem__(self, var, value):
self.setVar(var, value)
def __delitem__(self, var):
self.delVar(var)
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