78138b083742af657ebc714490ee5045fe62d060
1 # Copyright (c) 2012 ARM Limited
4 # The license below extends only to copyright in the software and shall
5 # not be construed as granting a license to any other intellectual
6 # property including but not limited to intellectual property relating
7 # to a hardware implementation of the functionality of the software
8 # licensed hereunder. You may use the software subject to the license
9 # terms below provided that you ensure that this notice is replicated
10 # unmodified and in its entirety in all distributions of the software,
11 # modified or unmodified, in source code or in binary form.
13 # Copyright (c) 2004-2006 The Regents of The University of Michigan
14 # Copyright (c) 2010 Advanced Micro Devices, Inc.
15 # All rights reserved.
17 # Redistribution and use in source and binary forms, with or without
18 # modification, are permitted provided that the following conditions are
19 # met: redistributions of source code must retain the above copyright
20 # notice, this list of conditions and the following disclaimer;
21 # redistributions in binary form must reproduce the above copyright
22 # notice, this list of conditions and the following disclaimer in the
23 # documentation and/or other materials provided with the distribution;
24 # neither the name of the copyright holders nor the names of its
25 # contributors may be used to endorse or promote products derived from
26 # this software without specific prior written permission.
28 # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
29 # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
30 # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
31 # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
32 # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
33 # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
34 # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
35 # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
36 # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
37 # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
38 # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
40 # Authors: Steve Reinhardt
45 from types
import FunctionType
, MethodType
, ModuleType
55 # Have to import params up top since Param is referenced on initial
56 # load (when SimObject class references Param to create a class
57 # variable, the 'name' param)...
58 from m5
.params
import *
59 # There are a few things we need that aren't in params.__all__ since
60 # normal users don't need them
61 from m5
.params
import ParamDesc
, VectorParamDesc
, \
62 isNullPointer
, SimObjectVector
, Port
64 from m5
.proxy
import *
65 from m5
.proxy
import isproxy
67 #####################################################################
69 # M5 Python Configuration Utility
71 # The basic idea is to write simple Python programs that build Python
72 # objects corresponding to M5 SimObjects for the desired simulation
73 # configuration. For now, the Python emits a .ini file that can be
74 # parsed by M5. In the future, some tighter integration between M5
75 # and the Python interpreter may allow bypassing the .ini file.
77 # Each SimObject class in M5 is represented by a Python class with the
78 # same name. The Python inheritance tree mirrors the M5 C++ tree
79 # (e.g., SimpleCPU derives from BaseCPU in both cases, and all
80 # SimObjects inherit from a single SimObject base class). To specify
81 # an instance of an M5 SimObject in a configuration, the user simply
82 # instantiates the corresponding Python object. The parameters for
83 # that SimObject are given by assigning to attributes of the Python
84 # object, either using keyword assignment in the constructor or in
85 # separate assignment statements. For example:
87 # cache = BaseCache(size='64KB')
88 # cache.hit_latency = 3
91 # The magic lies in the mapping of the Python attributes for SimObject
92 # classes to the actual SimObject parameter specifications. This
93 # allows parameter validity checking in the Python code. Continuing
94 # the example above, the statements "cache.blurfl=3" or
95 # "cache.assoc='hello'" would both result in runtime errors in Python,
96 # since the BaseCache object has no 'blurfl' parameter and the 'assoc'
97 # parameter requires an integer, respectively. This magic is done
98 # primarily by overriding the special __setattr__ method that controls
99 # assignment to object attributes.
101 # Once a set of Python objects have been instantiated in a hierarchy,
102 # calling 'instantiate(obj)' (where obj is the root of the hierarchy)
103 # will generate a .ini file.
105 #####################################################################
107 # list of all SimObject classes
110 # dict to look up SimObjects based on path
113 def public_value(key
, value
):
114 return key
.startswith('_') or \
115 isinstance(value
, (FunctionType
, MethodType
, ModuleType
,
118 # The metaclass for SimObject. This class controls how new classes
119 # that derive from SimObject are instantiated, and provides inherited
120 # class behavior (just like a class controls how instances of that
121 # class are instantiated, and provides inherited instance behavior).
122 class MetaSimObject(type):
123 # Attributes that can be set only at initialization time
124 init_keywords
= { 'abstract' : bool,
128 # Attributes that can be set any time
129 keywords
= { 'check' : FunctionType
}
131 # __new__ is called before __init__, and is where the statements
132 # in the body of the class definition get loaded into the class's
133 # __dict__. We intercept this to filter out parameter & port assignments
134 # and only allow "private" attributes to be passed to the base
135 # __new__ (starting with underscore).
136 def __new__(mcls
, name
, bases
, dict):
137 assert name
not in allClasses
, "SimObject %s already present" % name
139 # Copy "private" attributes, functions, and classes to the
140 # official dict. Everything else goes in _init_dict to be
141 # filtered in __init__.
144 for key
,val
in dict.items():
145 if public_value(key
, val
):
148 # must be a param/port setting
149 value_dict
[key
] = val
150 if 'abstract' not in value_dict
:
151 value_dict
['abstract'] = False
152 cls_dict
['_value_dict'] = value_dict
153 cls
= super(MetaSimObject
, mcls
).__new
__(mcls
, name
, bases
, cls_dict
)
154 if 'type' in value_dict
:
155 allClasses
[name
] = cls
158 # subclass initialization
159 def __init__(cls
, name
, bases
, dict):
160 # calls type.__init__()... I think that's a no-op, but leave
161 # it here just in case it's not.
162 super(MetaSimObject
, cls
).__init
__(name
, bases
, dict)
164 # initialize required attributes
166 # class-only attributes
167 cls
._params
= multidict() # param descriptions
168 cls
._ports
= multidict() # port descriptions
170 # class or instance attributes
171 cls
._values
= multidict() # param values
172 cls
._children
= multidict() # SimObject children
173 cls
._port
_refs
= multidict() # port ref objects
174 cls
._instantiated
= False # really instantiated, cloned, or subclassed
176 # We don't support multiple inheritance. If you want to, you
177 # must fix multidict to deal with it properly.
179 raise TypeError, "SimObjects do not support multiple inheritance"
183 # Set up general inheritance via multidicts. A subclass will
184 # inherit all its settings from the base class. The only time
185 # the following is not true is when we define the SimObject
186 # class itself (in which case the multidicts have no parent).
187 if isinstance(base
, MetaSimObject
):
189 cls
._params
.parent
= base
._params
190 cls
._ports
.parent
= base
._ports
191 cls
._values
.parent
= base
._values
192 cls
._children
.parent
= base
._children
193 cls
._port
_refs
.parent
= base
._port
_refs
194 # mark base as having been subclassed
195 base
._instantiated
= True
199 # default keyword values
200 if 'type' in cls
._value
_dict
:
201 if 'cxx_class' not in cls
._value
_dict
:
202 cls
._value
_dict
['cxx_class'] = cls
._value
_dict
['type']
204 cls
._value
_dict
['cxx_type'] = '%s *' % cls
._value
_dict
['cxx_class']
206 # Export methods are automatically inherited via C++, so we
207 # don't want the method declarations to get inherited on the
208 # python side (and thus end up getting repeated in the wrapped
209 # versions of derived classes). The code below basicallly
210 # suppresses inheritance by substituting in the base (null)
211 # versions of these methods unless a different version is
212 # explicitly supplied.
213 for method_name
in ('export_methods', 'export_method_cxx_predecls',
214 'export_method_swig_predecls'):
215 if method_name
not in cls
.__dict
__:
216 base_method
= getattr(MetaSimObject
, method_name
)
217 m
= MethodType(base_method
, cls
, MetaSimObject
)
218 setattr(cls
, method_name
, m
)
220 # Now process the _value_dict items. They could be defining
221 # new (or overriding existing) parameters or ports, setting
222 # class keywords (e.g., 'abstract'), or setting parameter
223 # values or port bindings. The first 3 can only be set when
224 # the class is defined, so we handle them here. The others
225 # can be set later too, so just emulate that by calling
227 for key
,val
in cls
._value
_dict
.items():
229 if isinstance(val
, ParamDesc
):
230 cls
._new
_param
(key
, val
)
233 elif isinstance(val
, Port
):
234 cls
._new
_port
(key
, val
)
236 # init-time-only keywords
237 elif cls
.init_keywords
.has_key(key
):
238 cls
._set
_keyword
(key
, val
, cls
.init_keywords
[key
])
240 # default: use normal path (ends up in __setattr__)
242 setattr(cls
, key
, val
)
244 def _set_keyword(cls
, keyword
, val
, kwtype
):
245 if not isinstance(val
, kwtype
):
246 raise TypeError, 'keyword %s has bad type %s (expecting %s)' % \
247 (keyword
, type(val
), kwtype
)
248 if isinstance(val
, FunctionType
):
249 val
= classmethod(val
)
250 type.__setattr
__(cls
, keyword
, val
)
252 def _new_param(cls
, name
, pdesc
):
253 # each param desc should be uniquely assigned to one variable
254 assert(not hasattr(pdesc
, 'name'))
256 cls
._params
[name
] = pdesc
257 if hasattr(pdesc
, 'default'):
258 cls
._set
_param
(name
, pdesc
.default
, pdesc
)
260 def _set_param(cls
, name
, value
, param
):
261 assert(param
.name
== name
)
263 value
= param
.convert(value
)
265 msg
= "%s\nError setting param %s.%s to %s\n" % \
266 (e
, cls
.__name
__, name
, value
)
269 cls
._values
[name
] = value
270 # if param value is a SimObject, make it a child too, so that
271 # it gets cloned properly when the class is instantiated
272 if isSimObjectOrVector(value
) and not value
.has_parent():
273 cls
._add
_cls
_child
(name
, value
)
275 def _add_cls_child(cls
, name
, child
):
276 # It's a little funky to have a class as a parent, but these
277 # objects should never be instantiated (only cloned, which
278 # clears the parent pointer), and this makes it clear that the
279 # object is not an orphan and can provide better error
281 child
.set_parent(cls
, name
)
282 cls
._children
[name
] = child
284 def _new_port(cls
, name
, port
):
285 # each port should be uniquely assigned to one variable
286 assert(not hasattr(port
, 'name'))
288 cls
._ports
[name
] = port
290 # same as _get_port_ref, effectively, but for classes
291 def _cls_get_port_ref(cls
, attr
):
292 # Return reference that can be assigned to another port
293 # via __setattr__. There is only ever one reference
294 # object per port, but we create them lazily here.
295 ref
= cls
._port
_refs
.get(attr
)
297 ref
= cls
._ports
[attr
].makeRef(cls
)
298 cls
._port
_refs
[attr
] = ref
301 # Set attribute (called on foo.attr = value when foo is an
302 # instance of class cls).
303 def __setattr__(cls
, attr
, value
):
304 # normal processing for private attributes
305 if public_value(attr
, value
):
306 type.__setattr
__(cls
, attr
, value
)
309 if cls
.keywords
.has_key(attr
):
310 cls
._set
_keyword
(attr
, value
, cls
.keywords
[attr
])
313 if cls
._ports
.has_key(attr
):
314 cls
._cls
_get
_port
_ref
(attr
).connect(value
)
317 if isSimObjectOrSequence(value
) and cls
._instantiated
:
318 raise RuntimeError, \
319 "cannot set SimObject parameter '%s' after\n" \
320 " class %s has been instantiated or subclassed" \
321 % (attr
, cls
.__name
__)
324 param
= cls
._params
.get(attr
)
326 cls
._set
_param
(attr
, value
, param
)
329 if isSimObjectOrSequence(value
):
330 # If RHS is a SimObject, it's an implicit child assignment.
331 cls
._add
_cls
_child
(attr
, coerceSimObjectOrVector(value
))
334 # no valid assignment... raise exception
335 raise AttributeError, \
336 "Class %s has no parameter \'%s\'" % (cls
.__name
__, attr
)
338 def __getattr__(cls
, attr
):
339 if attr
== 'cxx_class_path':
340 return cls
.cxx_class
.split('::')
342 if attr
== 'cxx_class_name':
343 return cls
.cxx_class_path
[-1]
345 if attr
== 'cxx_namespaces':
346 return cls
.cxx_class_path
[:-1]
348 if cls
._values
.has_key(attr
):
349 return cls
._values
[attr
]
351 if cls
._children
.has_key(attr
):
352 return cls
._children
[attr
]
354 raise AttributeError, \
355 "object '%s' has no attribute '%s'" % (cls
.__name
__, attr
)
360 # See ParamValue.cxx_predecls for description.
361 def cxx_predecls(cls
, code
):
362 code('#include "params/$cls.hh"')
364 # See ParamValue.swig_predecls for description.
365 def swig_predecls(cls
, code
):
366 code('%import "python/m5/internal/param_$cls.i"')
368 # Hook for exporting additional C++ methods to Python via SWIG.
369 # Default is none, override using @classmethod in class definition.
370 def export_methods(cls
, code
):
373 # Generate the code needed as a prerequisite for the C++ methods
374 # exported via export_methods() to be compiled in the _wrap.cc
375 # file. Typically generates one or more #include statements. If
376 # any methods are exported, typically at least the C++ header
377 # declaring the relevant SimObject class must be included.
378 def export_method_cxx_predecls(cls
, code
):
381 # Generate the code needed as a prerequisite for the C++ methods
382 # exported via export_methods() to be processed by SWIG.
383 # Typically generates one or more %include or %import statements.
384 # If any methods are exported, typically at least the C++ header
385 # declaring the relevant SimObject class must be included.
386 def export_method_swig_predecls(cls
, code
):
389 # Generate the declaration for this object for wrapping with SWIG.
390 # Generates code that goes into a SWIG .i file. Called from
392 def swig_decl(cls
, code
):
393 class_path
= cls
.cxx_class
.split('::')
394 classname
= class_path
[-1]
395 namespaces
= class_path
[:-1]
397 # The 'local' attribute restricts us to the params declared in
398 # the object itself, not including inherited params (which
399 # will also be inherited from the base class's param struct
401 params
= cls
._params
.local
.values()
402 ports
= cls
._ports
.local
404 code('%module(package="m5.internal") param_$cls')
407 code('#include "params/$cls.hh"')
409 param
.cxx_predecls(code
)
410 cls
.export_method_cxx_predecls(code
)
415 param
.swig_predecls(code
)
416 cls
.export_method_swig_predecls(code
)
420 code('%import "python/m5/internal/param_${{cls._base}}.i"')
423 for ns
in namespaces
:
424 code('namespace $ns {')
427 code('// avoid name conflicts')
428 sep_string
= '_COLONS_'
429 flat_name
= sep_string
.join(class_path
)
430 code('%rename($flat_name) $classname;')
433 code('// stop swig from creating/wrapping default ctor/dtor')
434 code('%nodefault $classname;')
435 code('class $classname')
437 code(' : public ${{cls._base.cxx_class}}')
440 cls
.export_methods(code
)
443 for ns
in reversed(namespaces
):
444 code('} // namespace $ns')
447 code('%include "params/$cls.hh"')
450 # Generate the C++ declaration (.hh file) for this SimObject's
451 # param struct. Called from src/SConscript.
452 def cxx_param_decl(cls
, code
):
453 # The 'local' attribute restricts us to the params declared in
454 # the object itself, not including inherited params (which
455 # will also be inherited from the base class's param struct
457 params
= cls
._params
.local
.values()
458 ports
= cls
._ports
.local
460 ptypes
= [p
.ptype
for p
in params
]
462 print cls
, p
, p
.ptype_str
466 class_path
= cls
._value
_dict
['cxx_class'].split('::')
469 #ifndef __PARAMS__${cls}__
470 #define __PARAMS__${cls}__
474 # A forward class declaration is sufficient since we are just
475 # declaring a pointer.
476 for ns
in class_path
[:-1]:
477 code('namespace $ns {')
478 code('class $0;', class_path
[-1])
479 for ns
in reversed(class_path
[:-1]):
480 code('} // namespace $ns')
483 # The base SimObject has a couple of params that get
484 # automatically set from Python without being declared through
485 # the normal Param mechanism; we slip them in here (needed
486 # predecls now, actual declarations below)
498 param
.cxx_predecls(code
)
499 for port
in ports
.itervalues():
500 port
.cxx_predecls(code
)
504 code('#include "params/${{cls._base.type}}.hh"')
508 if issubclass(ptype
, Enum
):
509 code('#include "enums/${{ptype.__name__}}.hh"')
512 # now generate the actual param struct
513 code("struct ${cls}Params")
515 code(" : public ${{cls._base.type}}Params")
517 if not hasattr(cls
, 'abstract') or not cls
.abstract
:
518 if 'type' in cls
.__dict
__:
519 code(" ${{cls.cxx_type}} create();")
526 extern EventQueue mainEventQueue;
527 eventq = &mainEventQueue;
529 virtual ~SimObjectParams() {}
537 for port
in ports
.itervalues():
544 code('#endif // __PARAMS__${cls}__')
549 # The SimObject class is the root of the special hierarchy. Most of
550 # the code in this class deals with the configuration hierarchy itself
551 # (parent/child node relationships).
552 class SimObject(object):
553 # Specify metaclass. Any class inheriting from SimObject will
554 # get this metaclass.
555 __metaclass__
= MetaSimObject
560 def export_method_cxx_predecls(cls
, code
):
564 #include "sim/serialize.hh"
565 #include "sim/sim_object.hh"
569 def export_method_swig_predecls(cls
, code
):
571 %include <std_string.i>
575 def export_methods(cls
, code
):
584 void loadState(Checkpoint *cp);
591 unsigned int drain(Event *drain_event);
594 void takeOverFrom(BaseCPU *cpu);
597 # Initialize new instance. For objects with SimObject-valued
598 # children, we need to recursively clone the classes represented
599 # by those param values as well in a consistent "deep copy"-style
600 # fashion. That is, we want to make sure that each instance is
601 # cloned only once, and that if there are multiple references to
602 # the same original object, we end up with the corresponding
603 # cloned references all pointing to the same cloned instance.
604 def __init__(self
, **kwargs
):
605 ancestor
= kwargs
.get('_ancestor')
606 memo_dict
= kwargs
.get('_memo')
607 if memo_dict
is None:
608 # prepare to memoize any recursively instantiated objects
611 # memoize me now to avoid problems with recursive calls
612 memo_dict
[ancestor
] = self
615 ancestor
= self
.__class
__
616 ancestor
._instantiated
= True
618 # initialize required attributes
621 self
._ccObject
= None # pointer to C++ object
622 self
._ccParams
= None
623 self
._instantiated
= False # really "cloned"
625 # Clone children specified at class level. No need for a
626 # multidict here since we will be cloning everything.
627 # Do children before parameter values so that children that
628 # are also param values get cloned properly.
630 for key
,val
in ancestor
._children
.iteritems():
631 self
.add_child(key
, val(_memo
=memo_dict
))
633 # Inherit parameter values from class using multidict so
634 # individual value settings can be overridden but we still
635 # inherit late changes to non-overridden class values.
636 self
._values
= multidict(ancestor
._values
)
637 # clone SimObject-valued parameters
638 for key
,val
in ancestor
._values
.iteritems():
639 val
= tryAsSimObjectOrVector(val
)
641 self
._values
[key
] = val(_memo
=memo_dict
)
643 # clone port references. no need to use a multidict here
644 # since we will be creating new references for all ports.
646 for key
,val
in ancestor
._port
_refs
.iteritems():
647 self
._port
_refs
[key
] = val
.clone(self
, memo_dict
)
648 # apply attribute assignments from keyword args, if any
649 for key
,val
in kwargs
.iteritems():
650 setattr(self
, key
, val
)
652 # "Clone" the current instance by creating another instance of
653 # this instance's class, but that inherits its parameter values
654 # and port mappings from the current instance. If we're in a
655 # "deep copy" recursive clone, check the _memo dict to see if
656 # we've already cloned this instance.
657 def __call__(self
, **kwargs
):
658 memo_dict
= kwargs
.get('_memo')
659 if memo_dict
is None:
660 # no memo_dict: must be top-level clone operation.
661 # this is only allowed at the root of a hierarchy
663 raise RuntimeError, "attempt to clone object %s " \
664 "not at the root of a tree (parent = %s)" \
665 % (self
, self
._parent
)
666 # create a new dict and use that.
668 kwargs
['_memo'] = memo_dict
669 elif memo_dict
.has_key(self
):
670 # clone already done & memoized
671 return memo_dict
[self
]
672 return self
.__class
__(_ancestor
= self
, **kwargs
)
674 def _get_port_ref(self
, attr
):
675 # Return reference that can be assigned to another port
676 # via __setattr__. There is only ever one reference
677 # object per port, but we create them lazily here.
678 ref
= self
._port
_refs
.get(attr
)
680 ref
= self
._ports
[attr
].makeRef(self
)
681 self
._port
_refs
[attr
] = ref
684 def __getattr__(self
, attr
):
685 if self
._ports
.has_key(attr
):
686 return self
._get
_port
_ref
(attr
)
688 if self
._values
.has_key(attr
):
689 return self
._values
[attr
]
691 if self
._children
.has_key(attr
):
692 return self
._children
[attr
]
694 # If the attribute exists on the C++ object, transparently
695 # forward the reference there. This is typically used for
696 # SWIG-wrapped methods such as init(), regStats(),
697 # regFormulas(), resetStats(), startup(), drain(), and
699 if self
._ccObject
and hasattr(self
._ccObject
, attr
):
700 return getattr(self
._ccObject
, attr
)
702 raise AttributeError, "object '%s' has no attribute '%s'" \
703 % (self
.__class
__.__name
__, attr
)
705 # Set attribute (called on foo.attr = value when foo is an
706 # instance of class cls).
707 def __setattr__(self
, attr
, value
):
708 # normal processing for private attributes
709 if attr
.startswith('_'):
710 object.__setattr
__(self
, attr
, value
)
713 if self
._ports
.has_key(attr
):
714 # set up port connection
715 self
._get
_port
_ref
(attr
).connect(value
)
718 if isSimObjectOrSequence(value
) and self
._instantiated
:
719 raise RuntimeError, \
720 "cannot set SimObject parameter '%s' after\n" \
721 " instance been cloned %s" % (attr
, `self`
)
723 param
= self
._params
.get(attr
)
726 value
= param
.convert(value
)
728 msg
= "%s\nError setting param %s.%s to %s\n" % \
729 (e
, self
.__class
__.__name
__, attr
, value
)
732 self
._values
[attr
] = value
733 # implicitly parent unparented objects assigned as params
734 if isSimObjectOrVector(value
) and not value
.has_parent():
735 self
.add_child(attr
, value
)
738 # if RHS is a SimObject, it's an implicit child assignment
739 if isSimObjectOrSequence(value
):
740 self
.add_child(attr
, value
)
743 # no valid assignment... raise exception
744 raise AttributeError, "Class %s has no parameter %s" \
745 % (self
.__class
__.__name
__, attr
)
748 # this hack allows tacking a '[0]' onto parameters that may or may
749 # not be vectors, and always getting the first element (e.g. cpus)
750 def __getitem__(self
, key
):
753 raise TypeError, "Non-zero index '%s' to SimObject" % key
755 # Also implemented by SimObjectVector
756 def clear_parent(self
, old_parent
):
757 assert self
._parent
is old_parent
760 # Also implemented by SimObjectVector
761 def set_parent(self
, parent
, name
):
762 self
._parent
= parent
765 # Also implemented by SimObjectVector
769 # Also implemented by SimObjectVector
770 def has_parent(self
):
771 return self
._parent
is not None
773 # clear out child with given name. This code is not likely to be exercised.
774 # See comment in add_child.
775 def clear_child(self
, name
):
776 child
= self
._children
[name
]
777 child
.clear_parent(self
)
778 del self
._children
[name
]
780 # Add a new child to this object.
781 def add_child(self
, name
, child
):
782 child
= coerceSimObjectOrVector(child
)
783 if child
.has_parent():
784 print "warning: add_child('%s'): child '%s' already has parent" % \
785 (name
, child
.get_name())
786 if self
._children
.has_key(name
):
787 # This code path had an undiscovered bug that would make it fail
788 # at runtime. It had been here for a long time and was only
789 # exposed by a buggy script. Changes here will probably not be
790 # exercised without specialized testing.
791 self
.clear_child(name
)
792 child
.set_parent(self
, name
)
793 self
._children
[name
] = child
795 # Take SimObject-valued parameters that haven't been explicitly
796 # assigned as children and make them children of the object that
797 # they were assigned to as a parameter value. This guarantees
798 # that when we instantiate all the parameter objects we're still
799 # inside the configuration hierarchy.
800 def adoptOrphanParams(self
):
801 for key
,val
in self
._values
.iteritems():
802 if not isSimObjectVector(val
) and isSimObjectSequence(val
):
803 # need to convert raw SimObject sequences to
804 # SimObjectVector class so we can call has_parent()
805 val
= SimObjectVector(val
)
806 self
._values
[key
] = val
807 if isSimObjectOrVector(val
) and not val
.has_parent():
808 print "warning: %s adopting orphan SimObject param '%s'" \
810 self
.add_child(key
, val
)
814 return '<orphan %s>' % self
.__class
__
815 ppath
= self
._parent
.path()
818 return ppath
+ "." + self
._name
826 def find_any(self
, ptype
):
827 if isinstance(self
, ptype
):
831 for child
in self
._children
.itervalues():
832 if isinstance(child
, ptype
):
833 if found_obj
!= None and child
!= found_obj
:
834 raise AttributeError, \
835 'parent.any matched more than one: %s %s' % \
836 (found_obj
.path
, child
.path
)
839 for pname
,pdesc
in self
._params
.iteritems():
840 if issubclass(pdesc
.ptype
, ptype
):
841 match_obj
= self
._values
[pname
]
842 if found_obj
!= None and found_obj
!= match_obj
:
843 raise AttributeError, \
844 'parent.any matched more than one: %s and %s' % (found_obj
.path
, match_obj
.path
)
845 found_obj
= match_obj
846 return found_obj
, found_obj
!= None
848 def find_all(self
, ptype
):
851 for child
in self
._children
.itervalues():
852 if isinstance(child
, ptype
) and not isproxy(child
) and \
853 not isNullPointer(child
):
856 for pname
,pdesc
in self
._params
.iteritems():
857 if issubclass(pdesc
.ptype
, ptype
):
858 match_obj
= self
._values
[pname
]
859 if not isproxy(match_obj
) and not isNullPointer(match_obj
):
860 all
[match_obj
] = True
861 return all
.keys(), True
863 def unproxy(self
, base
):
866 def unproxyParams(self
):
867 for param
in self
._params
.iterkeys():
868 value
= self
._values
.get(param
)
869 if value
!= None and isproxy(value
):
871 value
= value
.unproxy(self
)
873 print "Error in unproxying param '%s' of %s" % \
876 setattr(self
, param
, value
)
878 # Unproxy ports in sorted order so that 'append' operations on
879 # vector ports are done in a deterministic fashion.
880 port_names
= self
._ports
.keys()
882 for port_name
in port_names
:
883 port
= self
._port
_refs
.get(port_name
)
887 def print_ini(self
, ini_file
):
888 print >>ini_file
, '[' + self
.path() + ']' # .ini section header
890 instanceDict
[self
.path()] = self
892 if hasattr(self
, 'type'):
893 print >>ini_file
, 'type=%s' % self
.type
895 if len(self
._children
.keys()):
896 print >>ini_file
, 'children=%s' % \
897 ' '.join(self
._children
[n
].get_name() \
898 for n
in sorted(self
._children
.keys()))
900 for param
in sorted(self
._params
.keys()):
901 value
= self
._values
.get(param
)
903 print >>ini_file
, '%s=%s' % (param
,
904 self
._values
[param
].ini_str())
906 for port_name
in sorted(self
._ports
.keys()):
907 port
= self
._port
_refs
.get(port_name
, None)
909 print >>ini_file
, '%s=%s' % (port_name
, port
.ini_str())
911 print >>ini_file
# blank line between objects
913 # generate a tree of dictionaries expressing all the parameters in the
914 # instantiated system for use by scripts that want to do power, thermal
915 # visualization, and other similar tasks
916 def get_config_as_dict(self
):
918 if hasattr(self
, 'type'):
920 if hasattr(self
, 'cxx_class'):
921 d
.cxx_class
= self
.cxx_class
923 for param
in sorted(self
._params
.keys()):
924 value
= self
._values
.get(param
)
926 # Use native type for those supported by JSON and
927 # strings for everything else. skipkeys=True seems
928 # to not work as well as one would hope
929 if type(self
._values
[param
].value
) in \
930 [str, unicode, int, long, float, bool, None]:
931 d
[param
] = self
._values
[param
].value
933 d
[param
] = str(self
._values
[param
])
935 except AttributeError:
938 for n
in sorted(self
._children
.keys()):
939 d
[self
._children
[n
].get_name()] = self
._children
[n
].get_config_as_dict()
941 for port_name
in sorted(self
._ports
.keys()):
942 port
= self
._port
_refs
.get(port_name
, None)
944 # Might want to actually make this reference the object
945 # in the future, although execing the string problem would
946 # get some of the way there
947 d
[port_name
] = port
.ini_str()
951 def getCCParams(self
):
953 return self
._ccParams
955 cc_params_struct
= getattr(m5
.internal
.params
, '%sParams' % self
.type)
956 cc_params
= cc_params_struct()
957 cc_params
.pyobj
= self
958 cc_params
.name
= str(self
)
960 param_names
= self
._params
.keys()
962 for param
in param_names
:
963 value
= self
._values
.get(param
)
965 fatal("%s.%s without default or user set value",
968 value
= value
.getValue()
969 if isinstance(self
._params
[param
], VectorParamDesc
):
970 assert isinstance(value
, list)
971 vec
= getattr(cc_params
, param
)
976 setattr(cc_params
, param
, value
)
978 port_names
= self
._ports
.keys()
980 for port_name
in port_names
:
981 port
= self
._port
_refs
.get(port_name
, None)
983 setattr(cc_params
, 'port_' + port_name
+ '_connection_count',
985 self
._ccParams
= cc_params
986 return self
._ccParams
988 # Get C++ object corresponding to this object, calling C++ if
989 # necessary to construct it. Does *not* recursively create
991 def getCCObject(self
):
992 if not self
._ccObject
:
993 # Make sure this object is in the configuration hierarchy
994 if not self
._parent
and not isRoot(self
):
995 raise RuntimeError, "Attempt to instantiate orphan node"
996 # Cycles in the configuration hierarchy are not supported. This
997 # will catch the resulting recursion and stop.
999 params
= self
.getCCParams()
1000 self
._ccObject
= params
.create()
1001 elif self
._ccObject
== -1:
1002 raise RuntimeError, "%s: Cycle found in configuration hierarchy." \
1004 return self
._ccObject
1006 def descendants(self
):
1008 for child
in self
._children
.itervalues():
1009 for obj
in child
.descendants():
1012 # Call C++ to create C++ object corresponding to this object
1013 def createCCObject(self
):
1015 self
.getCCObject() # force creation
1018 return self
.getCCObject()
1020 # Create C++ port connections corresponding to the connections in
1022 def connectPorts(self
):
1023 for portRef
in self
._port
_refs
.itervalues():
1026 def getMemoryMode(self
):
1027 if not isinstance(self
, m5
.objects
.System
):
1030 return self
._ccObject
.getMemoryMode()
1032 def changeTiming(self
, mode
):
1033 if isinstance(self
, m5
.objects
.System
):
1034 # i don't know if there's a better way to do this - calling
1035 # setMemoryMode directly from self._ccObject results in calling
1036 # SimObject::setMemoryMode, not the System::setMemoryMode
1037 self
._ccObject
.setMemoryMode(mode
)
1039 def takeOverFrom(self
, old_cpu
):
1040 self
._ccObject
.takeOverFrom(old_cpu
._ccObject
)
1042 # generate output file for 'dot' to display as a pretty graph.
1043 # this code is currently broken.
1044 def outputDot(self
, dot
):
1045 label
= "{%s|" % self
.path
1046 if isSimObject(self
.realtype
):
1047 label
+= '%s|' % self
.type
1050 # instantiate children in same order they were added for
1051 # backward compatibility (else we can end up with cpu1
1053 for c
in self
.children
:
1054 dot
.add_edge(pydot
.Edge(self
.path
,c
.path
, style
="bold"))
1057 for param
in self
.params
:
1059 if param
.value
is None:
1060 raise AttributeError, 'Parameter with no value'
1063 string
= param
.string(value
)
1064 except Exception, e
:
1065 msg
= 'exception in %s:%s\n%s' % (self
.name
, param
.name
, e
)
1069 if isSimObject(param
.ptype
) and string
!= "Null":
1070 simobjs
.append(string
)
1072 label
+= '%s = %s\\n' % (param
.name
, string
)
1075 label
+= "|<%s> %s" % (so
, so
)
1076 dot
.add_edge(pydot
.Edge("%s:%s" % (self
.path
, so
), so
,
1079 dot
.add_node(pydot
.Node(self
.path
,shape
="Mrecord",label
=label
))
1081 # recursively dump out children
1082 for c
in self
.children
:
1085 # Function to provide to C++ so it can look up instances based on paths
1086 def resolveSimObject(name
):
1087 obj
= instanceDict
[name
]
1088 return obj
.getCCObject()
1090 def isSimObject(value
):
1091 return isinstance(value
, SimObject
)
1093 def isSimObjectClass(value
):
1094 return issubclass(value
, SimObject
)
1096 def isSimObjectVector(value
):
1097 return isinstance(value
, SimObjectVector
)
1099 def isSimObjectSequence(value
):
1100 if not isinstance(value
, (list, tuple)) or len(value
) == 0:
1104 if not isNullPointer(val
) and not isSimObject(val
):
1109 def isSimObjectOrSequence(value
):
1110 return isSimObject(value
) or isSimObjectSequence(value
)
1113 from m5
.objects
import Root
1114 return obj
and obj
is Root
.getInstance()
1116 def isSimObjectOrVector(value
):
1117 return isSimObject(value
) or isSimObjectVector(value
)
1119 def tryAsSimObjectOrVector(value
):
1120 if isSimObjectOrVector(value
):
1122 if isSimObjectSequence(value
):
1123 return SimObjectVector(value
)
1126 def coerceSimObjectOrVector(value
):
1127 value
= tryAsSimObjectOrVector(value
)
1129 raise TypeError, "SimObject or SimObjectVector expected"
1132 baseClasses
= allClasses
.copy()
1133 baseInstances
= instanceDict
.copy()
1136 global allClasses
, instanceDict
1138 allClasses
= baseClasses
.copy()
1139 instanceDict
= baseInstances
.copy()
1141 # __all__ defines the list of symbols that get exported when
1142 # 'from config import *' is invoked. Try to keep this reasonably
1143 # short to avoid polluting other namespaces.
1144 __all__
= [ 'SimObject' ]