9a8cb7db7e
Get rid of misc.py and just stick misc things in __init__.py Move utility functions out of SCons files and into m5.util Move utility type stuff from m5/__init__.py to m5/util/__init__.py Remove buildEnv from m5 and allow access only from m5.defines Rename AddToPath to addToPath while we're moving it to m5.util Rename read_command to readCommand while we're moving it Rename compare_versions to compareVersions while we're moving it. --HG-- rename : src/python/m5/convert.py => src/python/m5/util/convert.py rename : src/python/m5/smartdict.py => src/python/m5/util/smartdict.py
897 lines
33 KiB
Python
897 lines
33 KiB
Python
# Copyright (c) 2004-2006 The Regents of The University of Michigan
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met: redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer;
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# redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the distribution;
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# neither the name of the copyright holders nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#
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# Authors: Steve Reinhardt
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# Nathan Binkert
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import math
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import sys
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import types
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try:
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import pydot
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except:
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pydot = False
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import m5
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from m5.util import *
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# Have to import params up top since Param is referenced on initial
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# load (when SimObject class references Param to create a class
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# variable, the 'name' param)...
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from m5.params import *
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# There are a few things we need that aren't in params.__all__ since
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# normal users don't need them
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from m5.params import ParamDesc, VectorParamDesc, isNullPointer, SimObjVector
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from m5.proxy import *
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from m5.proxy import isproxy
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#####################################################################
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#
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# M5 Python Configuration Utility
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#
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# The basic idea is to write simple Python programs that build Python
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# objects corresponding to M5 SimObjects for the desired simulation
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# configuration. For now, the Python emits a .ini file that can be
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# parsed by M5. In the future, some tighter integration between M5
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# and the Python interpreter may allow bypassing the .ini file.
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#
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# Each SimObject class in M5 is represented by a Python class with the
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# same name. The Python inheritance tree mirrors the M5 C++ tree
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# (e.g., SimpleCPU derives from BaseCPU in both cases, and all
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# SimObjects inherit from a single SimObject base class). To specify
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# an instance of an M5 SimObject in a configuration, the user simply
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# instantiates the corresponding Python object. The parameters for
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# that SimObject are given by assigning to attributes of the Python
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# object, either using keyword assignment in the constructor or in
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# separate assignment statements. For example:
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#
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# cache = BaseCache(size='64KB')
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# cache.hit_latency = 3
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# cache.assoc = 8
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#
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# The magic lies in the mapping of the Python attributes for SimObject
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# classes to the actual SimObject parameter specifications. This
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# allows parameter validity checking in the Python code. Continuing
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# the example above, the statements "cache.blurfl=3" or
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# "cache.assoc='hello'" would both result in runtime errors in Python,
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# since the BaseCache object has no 'blurfl' parameter and the 'assoc'
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# parameter requires an integer, respectively. This magic is done
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# primarily by overriding the special __setattr__ method that controls
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# assignment to object attributes.
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#
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# Once a set of Python objects have been instantiated in a hierarchy,
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# calling 'instantiate(obj)' (where obj is the root of the hierarchy)
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# will generate a .ini file.
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#
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#####################################################################
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# list of all SimObject classes
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allClasses = {}
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# dict to look up SimObjects based on path
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instanceDict = {}
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# The metaclass for SimObject. This class controls how new classes
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# that derive from SimObject are instantiated, and provides inherited
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# class behavior (just like a class controls how instances of that
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# class are instantiated, and provides inherited instance behavior).
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class MetaSimObject(type):
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# Attributes that can be set only at initialization time
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init_keywords = { 'abstract' : types.BooleanType,
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'cxx_class' : types.StringType,
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'cxx_type' : types.StringType,
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'cxx_predecls' : types.ListType,
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'swig_objdecls' : types.ListType,
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'swig_predecls' : types.ListType,
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'type' : types.StringType }
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# Attributes that can be set any time
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keywords = { 'check' : types.FunctionType }
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# __new__ is called before __init__, and is where the statements
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# in the body of the class definition get loaded into the class's
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# __dict__. We intercept this to filter out parameter & port assignments
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# and only allow "private" attributes to be passed to the base
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# __new__ (starting with underscore).
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def __new__(mcls, name, bases, dict):
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assert name not in allClasses, "SimObject %s already present" % name
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# Copy "private" attributes, functions, and classes to the
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# official dict. Everything else goes in _init_dict to be
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# filtered in __init__.
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cls_dict = {}
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value_dict = {}
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for key,val in dict.items():
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if key.startswith('_') or isinstance(val, (types.FunctionType,
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types.TypeType)):
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cls_dict[key] = val
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else:
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# must be a param/port setting
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value_dict[key] = val
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if 'abstract' not in value_dict:
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value_dict['abstract'] = False
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cls_dict['_value_dict'] = value_dict
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cls = super(MetaSimObject, mcls).__new__(mcls, name, bases, cls_dict)
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if 'type' in value_dict:
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allClasses[name] = cls
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return cls
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# subclass initialization
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def __init__(cls, name, bases, dict):
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# calls type.__init__()... I think that's a no-op, but leave
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# it here just in case it's not.
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super(MetaSimObject, cls).__init__(name, bases, dict)
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# initialize required attributes
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# class-only attributes
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cls._params = multidict() # param descriptions
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cls._ports = multidict() # port descriptions
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# class or instance attributes
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cls._values = multidict() # param values
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cls._port_refs = multidict() # port ref objects
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cls._instantiated = False # really instantiated, cloned, or subclassed
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# We don't support multiple inheritance. If you want to, you
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# must fix multidict to deal with it properly.
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if len(bases) > 1:
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raise TypeError, "SimObjects do not support multiple inheritance"
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base = bases[0]
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# Set up general inheritance via multidicts. A subclass will
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# inherit all its settings from the base class. The only time
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# the following is not true is when we define the SimObject
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# class itself (in which case the multidicts have no parent).
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if isinstance(base, MetaSimObject):
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cls._base = base
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cls._params.parent = base._params
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cls._ports.parent = base._ports
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cls._values.parent = base._values
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cls._port_refs.parent = base._port_refs
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# mark base as having been subclassed
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base._instantiated = True
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else:
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cls._base = None
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# default keyword values
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if 'type' in cls._value_dict:
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if 'cxx_class' not in cls._value_dict:
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cls._value_dict['cxx_class'] = cls._value_dict['type']
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cls._value_dict['cxx_type'] = '%s *' % cls._value_dict['cxx_class']
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if 'cxx_predecls' not in cls._value_dict:
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# A forward class declaration is sufficient since we are
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# just declaring a pointer.
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class_path = cls._value_dict['cxx_class'].split('::')
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class_path.reverse()
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decl = 'class %s;' % class_path[0]
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for ns in class_path[1:]:
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decl = 'namespace %s { %s }' % (ns, decl)
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cls._value_dict['cxx_predecls'] = [decl]
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if 'swig_predecls' not in cls._value_dict:
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# A forward class declaration is sufficient since we are
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# just declaring a pointer.
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cls._value_dict['swig_predecls'] = \
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cls._value_dict['cxx_predecls']
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if 'swig_objdecls' not in cls._value_dict:
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cls._value_dict['swig_objdecls'] = []
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# Now process the _value_dict items. They could be defining
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# new (or overriding existing) parameters or ports, setting
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# class keywords (e.g., 'abstract'), or setting parameter
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# values or port bindings. The first 3 can only be set when
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# the class is defined, so we handle them here. The others
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# can be set later too, so just emulate that by calling
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# setattr().
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for key,val in cls._value_dict.items():
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# param descriptions
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if isinstance(val, ParamDesc):
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cls._new_param(key, val)
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# port objects
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elif isinstance(val, Port):
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cls._new_port(key, val)
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# init-time-only keywords
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elif cls.init_keywords.has_key(key):
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cls._set_keyword(key, val, cls.init_keywords[key])
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# default: use normal path (ends up in __setattr__)
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else:
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setattr(cls, key, val)
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def _set_keyword(cls, keyword, val, kwtype):
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if not isinstance(val, kwtype):
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raise TypeError, 'keyword %s has bad type %s (expecting %s)' % \
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(keyword, type(val), kwtype)
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if isinstance(val, types.FunctionType):
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val = classmethod(val)
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type.__setattr__(cls, keyword, val)
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def _new_param(cls, name, pdesc):
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# each param desc should be uniquely assigned to one variable
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assert(not hasattr(pdesc, 'name'))
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pdesc.name = name
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cls._params[name] = pdesc
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if hasattr(pdesc, 'default'):
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cls._set_param(name, pdesc.default, pdesc)
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def _set_param(cls, name, value, param):
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assert(param.name == name)
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try:
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cls._values[name] = param.convert(value)
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except Exception, e:
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msg = "%s\nError setting param %s.%s to %s\n" % \
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(e, cls.__name__, name, value)
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e.args = (msg, )
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raise
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def _new_port(cls, name, port):
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# each port should be uniquely assigned to one variable
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assert(not hasattr(port, 'name'))
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port.name = name
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cls._ports[name] = port
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if hasattr(port, 'default'):
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cls._cls_get_port_ref(name).connect(port.default)
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# same as _get_port_ref, effectively, but for classes
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def _cls_get_port_ref(cls, attr):
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# Return reference that can be assigned to another port
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# via __setattr__. There is only ever one reference
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# object per port, but we create them lazily here.
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ref = cls._port_refs.get(attr)
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if not ref:
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ref = cls._ports[attr].makeRef(cls)
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cls._port_refs[attr] = ref
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return ref
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# Set attribute (called on foo.attr = value when foo is an
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# instance of class cls).
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def __setattr__(cls, attr, value):
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# normal processing for private attributes
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if attr.startswith('_'):
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type.__setattr__(cls, attr, value)
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return
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if cls.keywords.has_key(attr):
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cls._set_keyword(attr, value, cls.keywords[attr])
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return
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if cls._ports.has_key(attr):
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cls._cls_get_port_ref(attr).connect(value)
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return
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if isSimObjectOrSequence(value) and cls._instantiated:
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raise RuntimeError, \
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"cannot set SimObject parameter '%s' after\n" \
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" class %s has been instantiated or subclassed" \
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% (attr, cls.__name__)
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# check for param
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param = cls._params.get(attr)
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if param:
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cls._set_param(attr, value, param)
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return
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if isSimObjectOrSequence(value):
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# If RHS is a SimObject, it's an implicit child assignment.
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# Classes don't have children, so we just put this object
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# in _values; later, each instance will do a 'setattr(self,
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# attr, _values[attr])' in SimObject.__init__ which will
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# add this object as a child.
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cls._values[attr] = value
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return
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# no valid assignment... raise exception
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raise AttributeError, \
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"Class %s has no parameter \'%s\'" % (cls.__name__, attr)
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def __getattr__(cls, attr):
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if cls._values.has_key(attr):
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return cls._values[attr]
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raise AttributeError, \
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"object '%s' has no attribute '%s'" % (cls.__name__, attr)
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def __str__(cls):
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return cls.__name__
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def cxx_decl(cls):
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code = "#ifndef __PARAMS__%s\n" % cls
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code += "#define __PARAMS__%s\n\n" % cls
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# The 'dict' attribute restricts us to the params declared in
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# the object itself, not including inherited params (which
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# will also be inherited from the base class's param struct
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# here).
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params = cls._params.local.values()
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try:
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ptypes = [p.ptype for p in params]
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except:
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print cls, p, p.ptype_str
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print params
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raise
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# get a list of lists of predeclaration lines
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predecls = []
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predecls.extend(cls.cxx_predecls)
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for p in params:
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predecls.extend(p.cxx_predecls())
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# remove redundant lines
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predecls2 = []
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for pd in predecls:
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if pd not in predecls2:
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predecls2.append(pd)
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predecls2.sort()
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code += "\n".join(predecls2)
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code += "\n\n";
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if cls._base:
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code += '#include "params/%s.hh"\n\n' % cls._base.type
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for ptype in ptypes:
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if issubclass(ptype, Enum):
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code += '#include "enums/%s.hh"\n' % ptype.__name__
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code += "\n\n"
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code += cls.cxx_struct(cls._base, params)
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# close #ifndef __PARAMS__* guard
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code += "\n#endif\n"
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return code
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def cxx_struct(cls, base, params):
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if cls == SimObject:
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return '#include "sim/sim_object_params.hh"\n'
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# now generate the actual param struct
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code = "struct %sParams" % cls
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if base:
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code += " : public %sParams" % base.type
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code += "\n{\n"
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if not hasattr(cls, 'abstract') or not cls.abstract:
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if 'type' in cls.__dict__:
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code += " %s create();\n" % cls.cxx_type
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decls = [p.cxx_decl() for p in params]
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decls.sort()
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code += "".join([" %s\n" % d for d in decls])
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code += "};\n"
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return code
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def swig_decl(cls):
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code = '%%module %s\n' % cls
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code += '%{\n'
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code += '#include "params/%s.hh"\n' % cls
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code += '%}\n\n'
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# The 'dict' attribute restricts us to the params declared in
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# the object itself, not including inherited params (which
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# will also be inherited from the base class's param struct
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# here).
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params = cls._params.local.values()
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ptypes = [p.ptype for p in params]
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# get a list of lists of predeclaration lines
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predecls = []
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predecls.extend([ p.swig_predecls() for p in params ])
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# flatten
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predecls = reduce(lambda x,y:x+y, predecls, [])
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# remove redundant lines
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predecls2 = []
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for pd in predecls:
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if pd not in predecls2:
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predecls2.append(pd)
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predecls2.sort()
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code += "\n".join(predecls2)
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code += "\n\n";
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if cls._base:
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code += '%%import "params/%s.i"\n\n' % cls._base.type
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for ptype in ptypes:
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if issubclass(ptype, Enum):
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code += '%%import "enums/%s.hh"\n' % ptype.__name__
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code += "\n\n"
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code += '%%import "params/%s_type.hh"\n\n' % cls
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code += '%%include "params/%s.hh"\n\n' % cls
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return code
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# The SimObject class is the root of the special hierarchy. Most of
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# the code in this class deals with the configuration hierarchy itself
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# (parent/child node relationships).
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class SimObject(object):
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# Specify metaclass. Any class inheriting from SimObject will
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# get this metaclass.
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__metaclass__ = MetaSimObject
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type = 'SimObject'
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abstract = True
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swig_objdecls = [ '%include "python/swig/sim_object.i"' ]
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# Initialize new instance. For objects with SimObject-valued
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# children, we need to recursively clone the classes represented
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# by those param values as well in a consistent "deep copy"-style
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# fashion. That is, we want to make sure that each instance is
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# cloned only once, and that if there are multiple references to
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# the same original object, we end up with the corresponding
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# cloned references all pointing to the same cloned instance.
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def __init__(self, **kwargs):
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ancestor = kwargs.get('_ancestor')
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memo_dict = kwargs.get('_memo')
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if memo_dict is None:
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# prepare to memoize any recursively instantiated objects
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memo_dict = {}
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elif ancestor:
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# memoize me now to avoid problems with recursive calls
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memo_dict[ancestor] = self
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if not ancestor:
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ancestor = self.__class__
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ancestor._instantiated = True
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# initialize required attributes
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self._parent = None
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self._children = {}
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self._ccObject = None # pointer to C++ object
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self._ccParams = None
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self._instantiated = False # really "cloned"
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# Inherit parameter values from class using multidict so
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# individual value settings can be overridden.
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self._values = multidict(ancestor._values)
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# clone SimObject-valued parameters
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for key,val in ancestor._values.iteritems():
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if isSimObject(val):
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setattr(self, key, val(_memo=memo_dict))
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elif isSimObjectSequence(val) and len(val):
|
|
setattr(self, key, [ v(_memo=memo_dict) for v in val ])
|
|
# clone port references. no need to use a multidict here
|
|
# since we will be creating new references for all ports.
|
|
self._port_refs = {}
|
|
for key,val in ancestor._port_refs.iteritems():
|
|
self._port_refs[key] = val.clone(self, memo_dict)
|
|
# apply attribute assignments from keyword args, if any
|
|
for key,val in kwargs.iteritems():
|
|
setattr(self, key, val)
|
|
|
|
# "Clone" the current instance by creating another instance of
|
|
# this instance's class, but that inherits its parameter values
|
|
# and port mappings from the current instance. If we're in a
|
|
# "deep copy" recursive clone, check the _memo dict to see if
|
|
# we've already cloned this instance.
|
|
def __call__(self, **kwargs):
|
|
memo_dict = kwargs.get('_memo')
|
|
if memo_dict is None:
|
|
# no memo_dict: must be top-level clone operation.
|
|
# this is only allowed at the root of a hierarchy
|
|
if self._parent:
|
|
raise RuntimeError, "attempt to clone object %s " \
|
|
"not at the root of a tree (parent = %s)" \
|
|
% (self, self._parent)
|
|
# create a new dict and use that.
|
|
memo_dict = {}
|
|
kwargs['_memo'] = memo_dict
|
|
elif memo_dict.has_key(self):
|
|
# clone already done & memoized
|
|
return memo_dict[self]
|
|
return self.__class__(_ancestor = self, **kwargs)
|
|
|
|
def _get_port_ref(self, attr):
|
|
# Return reference that can be assigned to another port
|
|
# via __setattr__. There is only ever one reference
|
|
# object per port, but we create them lazily here.
|
|
ref = self._port_refs.get(attr)
|
|
if not ref:
|
|
ref = self._ports[attr].makeRef(self)
|
|
self._port_refs[attr] = ref
|
|
return ref
|
|
|
|
def __getattr__(self, attr):
|
|
if self._ports.has_key(attr):
|
|
return self._get_port_ref(attr)
|
|
|
|
if self._values.has_key(attr):
|
|
return self._values[attr]
|
|
|
|
raise AttributeError, "object '%s' has no attribute '%s'" \
|
|
% (self.__class__.__name__, attr)
|
|
|
|
# Set attribute (called on foo.attr = value when foo is an
|
|
# instance of class cls).
|
|
def __setattr__(self, attr, value):
|
|
# normal processing for private attributes
|
|
if attr.startswith('_'):
|
|
object.__setattr__(self, attr, value)
|
|
return
|
|
|
|
if self._ports.has_key(attr):
|
|
# set up port connection
|
|
self._get_port_ref(attr).connect(value)
|
|
return
|
|
|
|
if isSimObjectOrSequence(value) and self._instantiated:
|
|
raise RuntimeError, \
|
|
"cannot set SimObject parameter '%s' after\n" \
|
|
" instance been cloned %s" % (attr, `self`)
|
|
|
|
# must be SimObject param
|
|
param = self._params.get(attr)
|
|
if param:
|
|
try:
|
|
value = param.convert(value)
|
|
except Exception, e:
|
|
msg = "%s\nError setting param %s.%s to %s\n" % \
|
|
(e, self.__class__.__name__, attr, value)
|
|
e.args = (msg, )
|
|
raise
|
|
self._set_child(attr, value)
|
|
return
|
|
|
|
if isSimObjectOrSequence(value):
|
|
self._set_child(attr, value)
|
|
return
|
|
|
|
# no valid assignment... raise exception
|
|
raise AttributeError, "Class %s has no parameter %s" \
|
|
% (self.__class__.__name__, attr)
|
|
|
|
|
|
# this hack allows tacking a '[0]' onto parameters that may or may
|
|
# not be vectors, and always getting the first element (e.g. cpus)
|
|
def __getitem__(self, key):
|
|
if key == 0:
|
|
return self
|
|
raise TypeError, "Non-zero index '%s' to SimObject" % key
|
|
|
|
# clear out children with given name, even if it's a vector
|
|
def clear_child(self, name):
|
|
if not self._children.has_key(name):
|
|
return
|
|
child = self._children[name]
|
|
if isinstance(child, SimObjVector):
|
|
for i in xrange(len(child)):
|
|
del self._children["s%d" % (name, i)]
|
|
del self._children[name]
|
|
|
|
def add_child(self, name, value):
|
|
self._children[name] = value
|
|
|
|
def _maybe_set_parent(self, parent, name):
|
|
if not self._parent:
|
|
self._parent = parent
|
|
self._name = name
|
|
parent.add_child(name, self)
|
|
|
|
def _set_child(self, attr, value):
|
|
# if RHS is a SimObject, it's an implicit child assignment
|
|
# clear out old child with this name, if any
|
|
self.clear_child(attr)
|
|
|
|
if isSimObject(value):
|
|
value._maybe_set_parent(self, attr)
|
|
elif isSimObjectSequence(value):
|
|
value = SimObjVector(value)
|
|
if len(value) == 1:
|
|
value[0]._maybe_set_parent(self, attr)
|
|
else:
|
|
width = int(math.ceil(math.log(len(value))/math.log(10)))
|
|
for i,v in enumerate(value):
|
|
v._maybe_set_parent(self, "%s%0*d" % (attr, width, i))
|
|
|
|
self._values[attr] = value
|
|
|
|
def path(self):
|
|
if not self._parent:
|
|
return 'root'
|
|
ppath = self._parent.path()
|
|
if ppath == 'root':
|
|
return self._name
|
|
return ppath + "." + self._name
|
|
|
|
def __str__(self):
|
|
return self.path()
|
|
|
|
def ini_str(self):
|
|
return self.path()
|
|
|
|
def find_any(self, ptype):
|
|
if isinstance(self, ptype):
|
|
return self, True
|
|
|
|
found_obj = None
|
|
for child in self._children.itervalues():
|
|
if isinstance(child, ptype):
|
|
if found_obj != None and child != found_obj:
|
|
raise AttributeError, \
|
|
'parent.any matched more than one: %s %s' % \
|
|
(found_obj.path, child.path)
|
|
found_obj = child
|
|
# search param space
|
|
for pname,pdesc in self._params.iteritems():
|
|
if issubclass(pdesc.ptype, ptype):
|
|
match_obj = self._values[pname]
|
|
if found_obj != None and found_obj != match_obj:
|
|
raise AttributeError, \
|
|
'parent.any matched more than one: %s and %s' % (found_obj.path, match_obj.path)
|
|
found_obj = match_obj
|
|
return found_obj, found_obj != None
|
|
|
|
def unproxy(self, base):
|
|
return self
|
|
|
|
def unproxy_all(self):
|
|
for param in self._params.iterkeys():
|
|
value = self._values.get(param)
|
|
if value != None and isproxy(value):
|
|
try:
|
|
value = value.unproxy(self)
|
|
except:
|
|
print "Error in unproxying param '%s' of %s" % \
|
|
(param, self.path())
|
|
raise
|
|
setattr(self, param, value)
|
|
|
|
# Unproxy ports in sorted order so that 'append' operations on
|
|
# vector ports are done in a deterministic fashion.
|
|
port_names = self._ports.keys()
|
|
port_names.sort()
|
|
for port_name in port_names:
|
|
port = self._port_refs.get(port_name)
|
|
if port != None:
|
|
port.unproxy(self)
|
|
|
|
# Unproxy children in sorted order for determinism also.
|
|
child_names = self._children.keys()
|
|
child_names.sort()
|
|
for child in child_names:
|
|
self._children[child].unproxy_all()
|
|
|
|
def print_ini(self, ini_file):
|
|
print >>ini_file, '[' + self.path() + ']' # .ini section header
|
|
|
|
instanceDict[self.path()] = self
|
|
|
|
if hasattr(self, 'type'):
|
|
print >>ini_file, 'type=%s' % self.type
|
|
|
|
child_names = self._children.keys()
|
|
child_names.sort()
|
|
if len(child_names):
|
|
print >>ini_file, 'children=%s' % ' '.join(child_names)
|
|
|
|
param_names = self._params.keys()
|
|
param_names.sort()
|
|
for param in param_names:
|
|
value = self._values.get(param)
|
|
if value != None:
|
|
print >>ini_file, '%s=%s' % (param,
|
|
self._values[param].ini_str())
|
|
|
|
port_names = self._ports.keys()
|
|
port_names.sort()
|
|
for port_name in port_names:
|
|
port = self._port_refs.get(port_name, None)
|
|
if port != None:
|
|
print >>ini_file, '%s=%s' % (port_name, port.ini_str())
|
|
|
|
print >>ini_file # blank line between objects
|
|
|
|
for child in child_names:
|
|
self._children[child].print_ini(ini_file)
|
|
|
|
def getCCParams(self):
|
|
if self._ccParams:
|
|
return self._ccParams
|
|
|
|
cc_params_struct = getattr(m5.objects.params, '%sParams' % self.type)
|
|
cc_params = cc_params_struct()
|
|
cc_params.pyobj = self
|
|
cc_params.name = str(self)
|
|
|
|
param_names = self._params.keys()
|
|
param_names.sort()
|
|
for param in param_names:
|
|
value = self._values.get(param)
|
|
if value is None:
|
|
fatal("%s.%s without default or user set value",
|
|
self.path(), param)
|
|
|
|
value = value.getValue()
|
|
if isinstance(self._params[param], VectorParamDesc):
|
|
assert isinstance(value, list)
|
|
vec = getattr(cc_params, param)
|
|
assert not len(vec)
|
|
for v in value:
|
|
vec.append(v)
|
|
else:
|
|
setattr(cc_params, param, value)
|
|
|
|
port_names = self._ports.keys()
|
|
port_names.sort()
|
|
for port_name in port_names:
|
|
port = self._port_refs.get(port_name, None)
|
|
if port != None:
|
|
setattr(cc_params, port_name, port)
|
|
self._ccParams = cc_params
|
|
return self._ccParams
|
|
|
|
# Get C++ object corresponding to this object, calling C++ if
|
|
# necessary to construct it. Does *not* recursively create
|
|
# children.
|
|
def getCCObject(self):
|
|
if not self._ccObject:
|
|
# Cycles in the configuration heirarchy are not supported. This
|
|
# will catch the resulting recursion and stop.
|
|
self._ccObject = -1
|
|
params = self.getCCParams()
|
|
self._ccObject = params.create()
|
|
elif self._ccObject == -1:
|
|
raise RuntimeError, "%s: Cycle found in configuration heirarchy." \
|
|
% self.path()
|
|
return self._ccObject
|
|
|
|
# Call C++ to create C++ object corresponding to this object and
|
|
# (recursively) all its children
|
|
def createCCObject(self):
|
|
self.getCCParams()
|
|
self.getCCObject() # force creation
|
|
for child in self._children.itervalues():
|
|
child.createCCObject()
|
|
|
|
def getValue(self):
|
|
return self.getCCObject()
|
|
|
|
# Create C++ port connections corresponding to the connections in
|
|
# _port_refs (& recursively for all children)
|
|
def connectPorts(self):
|
|
for portRef in self._port_refs.itervalues():
|
|
portRef.ccConnect()
|
|
for child in self._children.itervalues():
|
|
child.connectPorts()
|
|
|
|
def startDrain(self, drain_event, recursive):
|
|
count = 0
|
|
if isinstance(self, SimObject):
|
|
count += self._ccObject.drain(drain_event)
|
|
if recursive:
|
|
for child in self._children.itervalues():
|
|
count += child.startDrain(drain_event, True)
|
|
return count
|
|
|
|
def resume(self):
|
|
if isinstance(self, SimObject):
|
|
self._ccObject.resume()
|
|
for child in self._children.itervalues():
|
|
child.resume()
|
|
|
|
def getMemoryMode(self):
|
|
if not isinstance(self, m5.objects.System):
|
|
return None
|
|
|
|
return self._ccObject.getMemoryMode()
|
|
|
|
def changeTiming(self, mode):
|
|
if isinstance(self, m5.objects.System):
|
|
# i don't know if there's a better way to do this - calling
|
|
# setMemoryMode directly from self._ccObject results in calling
|
|
# SimObject::setMemoryMode, not the System::setMemoryMode
|
|
self._ccObject.setMemoryMode(mode)
|
|
for child in self._children.itervalues():
|
|
child.changeTiming(mode)
|
|
|
|
def takeOverFrom(self, old_cpu):
|
|
self._ccObject.takeOverFrom(old_cpu._ccObject)
|
|
|
|
# generate output file for 'dot' to display as a pretty graph.
|
|
# this code is currently broken.
|
|
def outputDot(self, dot):
|
|
label = "{%s|" % self.path
|
|
if isSimObject(self.realtype):
|
|
label += '%s|' % self.type
|
|
|
|
if self.children:
|
|
# instantiate children in same order they were added for
|
|
# backward compatibility (else we can end up with cpu1
|
|
# before cpu0).
|
|
for c in self.children:
|
|
dot.add_edge(pydot.Edge(self.path,c.path, style="bold"))
|
|
|
|
simobjs = []
|
|
for param in self.params:
|
|
try:
|
|
if param.value is None:
|
|
raise AttributeError, 'Parameter with no value'
|
|
|
|
value = param.value
|
|
string = param.string(value)
|
|
except Exception, e:
|
|
msg = 'exception in %s:%s\n%s' % (self.name, param.name, e)
|
|
e.args = (msg, )
|
|
raise
|
|
|
|
if isSimObject(param.ptype) and string != "Null":
|
|
simobjs.append(string)
|
|
else:
|
|
label += '%s = %s\\n' % (param.name, string)
|
|
|
|
for so in simobjs:
|
|
label += "|<%s> %s" % (so, so)
|
|
dot.add_edge(pydot.Edge("%s:%s" % (self.path, so), so,
|
|
tailport="w"))
|
|
label += '}'
|
|
dot.add_node(pydot.Node(self.path,shape="Mrecord",label=label))
|
|
|
|
# recursively dump out children
|
|
for c in self.children:
|
|
c.outputDot(dot)
|
|
|
|
# Function to provide to C++ so it can look up instances based on paths
|
|
def resolveSimObject(name):
|
|
obj = instanceDict[name]
|
|
return obj.getCCObject()
|
|
|
|
def isSimObject(value):
|
|
return isinstance(value, SimObject)
|
|
|
|
def isSimObjectClass(value):
|
|
return issubclass(value, SimObject)
|
|
|
|
def isSimObjectSequence(value):
|
|
if not isinstance(value, (list, tuple)) or len(value) == 0:
|
|
return False
|
|
|
|
for val in value:
|
|
if not isNullPointer(val) and not isSimObject(val):
|
|
return False
|
|
|
|
return True
|
|
|
|
def isSimObjectOrSequence(value):
|
|
return isSimObject(value) or isSimObjectSequence(value)
|
|
|
|
baseClasses = allClasses.copy()
|
|
baseInstances = instanceDict.copy()
|
|
|
|
def clear():
|
|
global allClasses, instanceDict
|
|
|
|
allClasses = baseClasses.copy()
|
|
instanceDict = baseInstances.copy()
|
|
|
|
# __all__ defines the list of symbols that get exported when
|
|
# 'from config import *' is invoked. Try to keep this reasonably
|
|
# short to avoid polluting other namespaces.
|
|
__all__ = [ 'SimObject' ]
|