Solving incorrect handling when processing ExportName=SymbolName@Ordinal syntax.
#
# Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of the License "Eclipse Public License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.eclipse.org/legal/epl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
#
# raptor_api module
#
# Python API for Raptor. External code should interact with Raptor via this
# module only, as it is the only programatic interface considered public. The
# command line --query option is also implemented using this module.
# constants
ALL = 1
# objects
class Reply(object):
"""object to return values from API calls.
"""
def __init__(self, text="", raptor=None):
self._raptor = raptor
self.text = text
def _getEvaluator(self, meaning):
""" Note: Will pass on Evaluator constructor exceptions """
try:
return self.__evaluator
except AttributeError:
# create an evaluator for the named configuration
tmp = raptor_data.Alias("tmp")
tmp.SetProperty("meaning", meaning)
units = tmp.GenerateBuildUnits(self._raptor.cache)
self.__evaluator = self._raptor.GetEvaluator(None, units[0])
return self.__evaluator
def __str__(self):
name = type(self).__name__.lower()
string = "<" + name
children = []
longend = False
for attribute,value in self.__dict__.items():
if attribute != "text" and not attribute.startswith('_'):
if isinstance(value, Reply):
children.append(value)
elif isinstance(value, list):
for item in value:
if isinstance(item, Reply):
children.append(item)
else:
raise BadReply(str(item)+" is not a Reply object")
else:
if value != None: # skip attributes whose value is None
string += " %s='%s'" % (attribute, value)
if children or self.text:
string += ">"
longend = True
if self.text:
string += self.text
children.sort()
# Note mixing sortable and unsortable lists results in
# sort not working, so if you really need your
# children to come out in the right order, put them in
# a list. This is only for niceness, where it works.
if children:
string += "\n"
for c in children:
clines = str(c).rstrip().split("\n")
string += "".join(map(lambda l:" "+l+"\n",clines))
if longend:
string += "</%s>\n" % name
else:
string += "/>\n"
return string
class BadReply(Exception):
pass
class Alias(Reply):
def __init__(self, name, meaning):
super(Alias,self).__init__()
self.name = name
self.meaning = meaning
def __cmp__(self, other):
""" Add __cmp__ to enable comparisons between two Alias objects based upon name."""
return cmp(self.name, other.name)
class Config(Reply):
def __init__(self, raptor, name, text = None):
""" Constructor to create a Config from a user-supplied name.
possibly including aliases (but not groups)
"""
super(Config,self).__init__(text, raptor)
self.query = name
# Work out the real name
names = name.split(".")
if names[0] in self._raptor.cache.aliases:
x = self._raptor.cache.FindNamedAlias(names[0])
if len(names) > 1:
self.meaning = x.meaning + "." + ".".join(names[1:])
else:
self.meaning = x.meaning
elif names[0] in self._raptor.cache.variants:
self.meaning = name
else:
raise BadQuery("'%s' is not an alias or a variant" % names[0])
def resolveOutputPath(self):
""" Get the outputpath """
try:
evaluator = self._getEvaluator(self.meaning)
# This is messy as some configs construct the path inside the FLM
# rather than talking it from the XML: usually because of some
# conditional logic... but maybe some refactoring could avoid that.
releasepath = evaluator.Get("RELEASEPATH")
if not releasepath:
raise BadQuery("could not get RELEASEPATH for config '%s'" % self.fullname)
variantplatform = evaluator.Get("VARIANTPLATFORM")
varianttype = evaluator.Get("VARIANTTYPE")
featurevariantname = evaluator.Get("FEATUREVARIANTNAME")
platform = evaluator.Get("TRADITIONAL_PLATFORM")
if platform == "TOOLS2":
self.outputpath = releasepath
else:
if not variantplatform:
raise BadQuery("could not get VARIANTPLATFORM for config '%s'" % self.fullname)
if featurevariantname:
variantplatform += featurevariantname
if not varianttype:
raise BadQuery("could not get VARIANTTYPE for config '%s'" % self.fullname)
self.outputpath = str(generic_path.Join(releasepath, variantplatform, varianttype))
except Exception, e: # Unable to determine output path
self.text = str(e)
def resolveMetadata(self):
try:
metadata = self.metadata
except AttributeError:
metadata = MetaData(self.meaning, self._raptor)
self.metadata = metadata
try:
metadata.resolve()
except Exception:
# Evaluator exception hopefully - already handled
self.metadata = None
def resolveBuild(self):
try:
build = self.build
except AttributeError:
build = Build(self.meaning, self._raptor)
self.build = build
try:
build.resolve()
except Exception:
# Evaluator exception, hopefully - already handled
self.build = None
def resolveTargettypes(self):
try:
build = self.build
except AttributeError:
build = Build(self.meaning, self._raptor)
self.build = build
try:
build.resolveTargettypes()
except Exception:
# Evaluator exception hopefully - already handled
self.build = None
class MetaData(Reply):
def __init__(self, meaning, raptor):
super(MetaData,self).__init__("", raptor)
self.__meaning = meaning
def resolve(self):
includepaths = []
preincludeheader = ""
platmacros = []
evaluator = self._getEvaluator(self.__meaning)
# Initialise data and metadata objects
buildunits = raptor_data.GetBuildUnits([self.__meaning], self._raptor.cache, self._raptor)
metareader = raptor_meta.MetaReader(self._raptor, buildunits)
metadatafile = raptor_meta.MetaDataFile(generic_path.Path("bld.inf"), "cpp", [], None, self._raptor)
# There is only one build platform here; obtain the pre-processing include paths,
# OS pre-include file, compiler pre-include file and macros.
includepaths = metadatafile.preparePreProcessorIncludePaths(metareader.BuildPlatforms[0])
preincludeheader = metareader.BuildPlatforms[0]['VARIANT_HRH']
# Macros arrive as a a list of strings, or a single string, containing definitions of the form "name" or "name=value".
platmacrolist = metadatafile.preparePreProcessorMacros(metareader.BuildPlatforms[0])
platmacros.extend(map(lambda macrodef: [macrodef.partition("=")[0], macrodef.partition("=")[2]], platmacrolist))
# Add child elements to appropriate areas if they were calculated
if len(includepaths) > 0:
self.includepaths = map(lambda x: Include(str(x)), includepaths)
if preincludeheader != "":
self.preincludeheader = PreInclude(str(preincludeheader))
if len(platmacros):
self.platmacros = map(lambda x: Macro(x[0],x[1]) if x[1] else Macro(x[0]), platmacros)
class Build(Reply):
def __init__(self, meaning, raptor):
super(Build,self).__init__("", raptor)
self.__meaning = meaning
def resolve(self):
compilerpreincludeheader = ""
sourcemacros = []
evaluator = self._getEvaluator(self.__meaning)
platform = evaluator.Get("TRADITIONAL_PLATFORM")
# Compiler preinclude files may or may not be present, depending on the configuration.
if evaluator.Get("PREINCLUDE"):
compilerpreincludeheader = generic_path.Path(evaluator.Get("PREINCLUDE"))
# Macros arrive as a a list of strings, or a single string, containing definitions of the form "name" or "name=value".
# If required, we split to a list, and then processes the constituent parts of the macro.
sourcemacrolist = evaluator.Get("CDEFS").split()
sourcemacros.extend(map(lambda macrodef: [macrodef.partition("=")[0], macrodef.partition("=")[2]], sourcemacrolist))
if platform == "TOOLS2":
# Source macros are determined in the FLM for tools2 builds, therefore we have to
# mimic the logic here
if 'win' in raptor.hostplatform or 'win32' in self.__meaning:
sourcemacrolist = evaluator.Get("CDEFS.WIN32").split()
else:
sourcemacrolist = evaluator.Get("CDEFS.LINUX").split()
sourcemacros.extend(map(lambda macrodef: [macrodef.partition("=")[0], macrodef.partition("=")[2]], sourcemacrolist))
if len(sourcemacros):
self.sourcemacros = map(lambda x: Macro(x[0],x[1]) if x[1] else Macro(x[0]), sourcemacros)
if compilerpreincludeheader:
self.compilerpreincludeheader = PreInclude(str(compilerpreincludeheader))
def resolveTargettypes(self):
evaluator = self._getEvaluator(self.__meaning)
targettypes = evaluator.Get("TARGET_TYPES").split(' ')
self.targettypes = []
for type in targettypes:
self.targettypes.append(TargetType(type))
self.targettypes.sort()
class TargetType(Reply):
def __init__(self, name):
super(TargetType,self).__init__()
self.name = name
def __cmp__(self, other):
return cmp(self.name, other.name)
class Product(Reply):
def __init__(self, name):
super(Product,self).__init__()
self.name = name
def __cmp__(self, other):
""" Add __cmp__ to enable comparisons between two Product objects based upon name."""
return cmp(self.name, other.name)
class Include(Reply):
def __init__(self, path):
super(Include,self).__init__()
self.path = path
class PreInclude(Reply):
def __init__(self, file):
super(PreInclude,self).__init__()
self.file = file
class Macro(Reply):
def __init__(self, name, value=None):
super(Macro,self).__init__()
self.name = name
self.value = value
import generic_path
import raptor
import raptor_data
import raptor_meta
import re
class Context(object):
"""object to contain state information for API calls.
For example,
api = raptor_api.Context()
val = api.getaliases("X")
"""
def __init__(self, initialiser=None):
# this object has a private Raptor object that can either be
# passed in or created internally.
if initialiser == None:
self.__raptor = raptor.Raptor()
else:
self.__raptor = initialiser
def stringquery(self, query):
"""turn a string into an API call and execute it.
This is a convenience method for "lazy" callers.
The return value is also converted into a well-formed XML string.
"""
if query == "aliases":
aliases = self.getaliases()
return "".join(map(str, aliases)).strip()
elif query == "products":
variants = self.getproducts()
return "".join(map(str, variants)).strip()
elif query.startswith("config"):
match = re.match("config\[(.*)\]", query)
if match:
config = self.getconfig(match.group(1))
return str(config).strip()
else:
raise BadQuery("syntax error")
raise BadQuery("unknown query")
def getaliases(self, type=""):
"""extract all aliases of a given type.
the default type is "".
to get all aliases pass type=ALL
"""
aliases = []
for a in self.__raptor.cache.aliases.values():
if type == ALL or a.type == type:
# copy the members we want to expose
aliases.append( Alias(a.name, a.meaning) )
aliases.sort()
return aliases
def getconfig(self, name):
"""extract the values for a given configuration.
'name' should be an alias or variant followed optionally by a
dot-separated list of variants. For example "armv5_urel" or
"armv5_urel.savespace.vasco".
"""
config = Config(self.__raptor, name)
config.resolveOutputPath()
config.resolveTargettypes()
config.resolveMetadata()
config.resolveBuild()
return config
def getproducts(self):
"""extract all product variants."""
variants = []
for v in self.__raptor.cache.variants.values():
if v.type == "product":
# copy the members we want to expose
variants.append( Product(v.name) )
variants.sort()
return variants
class BadQuery(Exception):
pass
# end of the raptor_api module