2014-10-16 11:49:37 +02:00
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# Copyright (c) 2014 ARM Limited
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# All rights reserved.
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#
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# The license below extends only to copyright in the software and shall
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# not be construed as granting a license to any other intellectual
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# property including but not limited to intellectual property relating
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# to a hardware implementation of the functionality of the software
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# licensed hereunder. You may use the software subject to the license
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# terms below provided that you ensure that this notice is replicated
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# unmodified and in its entirety in all distributions of the software,
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# modified or unmodified, in source code or in binary form.
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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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# Author: Andrew Bardsley
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# This script allows .ini and .json system config file generated from a
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# previous gem5 run to be read in and instantiated.
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#
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# This may be useful as a way of allowing variant run scripts (say,
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# with more complicated than usual checkpointing/stats dumping/
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# simulation control) to read pre-described systems from config scripts
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# with better system-description capabilities. Splitting scripts
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# between system construction and run control may allow better
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# debugging.
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import argparse
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import ConfigParser
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import inspect
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import json
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import re
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import sys
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import m5
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import m5.ticks as ticks
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sim_object_classes_by_name = {
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cls.__name__: cls for cls in m5.objects.__dict__.itervalues()
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if inspect.isclass(cls) and issubclass(cls, m5.objects.SimObject) }
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# Add some parsing functions to Param classes to handle reading in .ini
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# file elements. This could be moved into src/python/m5/params.py if
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# reading .ini files from Python proves to be useful
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def no_parser(cls, flags, param):
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raise Exception('Can\'t parse string: %s for parameter'
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' class: %s' % (str(param), cls.__name__))
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def simple_parser(suffix='', cast=lambda i: i):
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def body(cls, flags, param):
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return cls(cast(param + suffix))
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return body
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# def tick_parser(cast=m5.objects.Latency): # lambda i: i):
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def tick_parser(cast=lambda i: i):
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def body(cls, flags, param):
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old_param = param
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ret = cls(cast(str(param) + 't'))
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return ret
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return body
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def addr_range_parser(cls, flags, param):
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sys.stdout.flush()
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low, high = param.split(':')
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return m5.objects.AddrRange(long(low), long(high))
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def memory_bandwidth_parser(cls, flags, param):
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# The string will be in tick/byte
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# Convert to byte/tick
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value = 1.0 / float(param)
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# Convert to byte/s
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value = ticks.fromSeconds(value)
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return cls('%fB/s' % value)
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# These parameters have trickier parsing from .ini files than might be
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# expected
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param_parsers = {
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'Bool': simple_parser(),
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'ParamValue': no_parser,
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'NumericParamValue': simple_parser(cast=long),
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'TickParamValue': tick_parser(),
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'Frequency': tick_parser(cast=m5.objects.Latency),
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2015-11-22 11:10:21 +01:00
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'Current': simple_parser(suffix='A'),
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2014-10-16 11:49:37 +02:00
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'Voltage': simple_parser(suffix='V'),
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'Enum': simple_parser(),
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'MemorySize': simple_parser(suffix='B'),
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'MemorySize32': simple_parser(suffix='B'),
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'AddrRange': addr_range_parser,
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'String': simple_parser(),
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'MemoryBandwidth': memory_bandwidth_parser,
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2015-11-22 11:10:21 +01:00
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'Time': simple_parser(),
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'EthernetAddr': simple_parser()
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2014-10-16 11:49:37 +02:00
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}
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for name, parser in param_parsers.iteritems():
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setattr(m5.params.__dict__[name], 'parse_ini', classmethod(parser))
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class PortConnection(object):
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"""This class is similar to m5.params.PortRef but with just enough
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information for ConfigManager"""
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def __init__(self, object_name, port_name, index):
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self.object_name = object_name
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self.port_name = port_name
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self.index = index
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@classmethod
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def from_string(cls, str):
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m = re.match('(.*)\.([^.\[]+)(\[(\d+)\])?', str)
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object_name, port_name, whole_index, index = m.groups()
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if index is not None:
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index = int(index)
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else:
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index = 0
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return PortConnection(object_name, port_name, index)
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def __str__(self):
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return '%s.%s[%d]' % (self.object_name, self.port_name, self.index)
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def __cmp__(self, right):
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return cmp((self.object_name, self.port_name, self.index),
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(right.object_name, right.port_name, right.index))
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def to_list(v):
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"""Convert any non list to a singleton list"""
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if isinstance(v, list):
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return v
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else:
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return [v]
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class ConfigManager(object):
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"""Manager for parsing a Root configuration from a config file"""
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def __init__(self, config):
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self.config = config
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self.objects_by_name = {}
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self.flags = config.get_flags()
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def find_object(self, object_name):
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"""Find and configure (with just non-SimObject parameters)
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a single object"""
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if object_name == 'Null':
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return NULL
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if object_name in self.objects_by_name:
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return self.objects_by_name[object_name]
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object_type = self.config.get_param(object_name, 'type')
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if object_type not in sim_object_classes_by_name:
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raise Exception('No SimObject type %s is available to'
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' build: %s' % (object_type, object_name))
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object_class = sim_object_classes_by_name[object_type]
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parsed_params = {}
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for param_name, param in object_class._params.iteritems():
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if issubclass(param.ptype, m5.params.ParamValue):
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if isinstance(param, m5.params.VectorParamDesc):
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param_values = self.config.get_param_vector(object_name,
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param_name)
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param_value = [ param.ptype.parse_ini(self.flags, value)
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for value in param_values ]
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else:
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param_value = param.ptype.parse_ini(
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self.flags, self.config.get_param(object_name,
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param_name))
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parsed_params[param_name] = param_value
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obj = object_class(**parsed_params)
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self.objects_by_name[object_name] = obj
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return obj
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def fill_in_simobj_parameters(self, object_name, obj):
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"""Fill in all references to other SimObjects in an objects
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parameters. This relies on all referenced objects having been
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created"""
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if object_name == 'Null':
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return NULL
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for param_name, param in obj.__class__._params.iteritems():
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if issubclass(param.ptype, m5.objects.SimObject):
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if isinstance(param, m5.params.VectorParamDesc):
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param_values = self.config.get_param_vector(object_name,
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param_name)
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setattr(obj, param_name, [ self.objects_by_name[name]
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for name in param_values ])
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else:
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param_value = self.config.get_param(object_name,
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param_name)
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if param_value != 'Null':
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setattr(obj, param_name, self.objects_by_name[
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param_value])
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return obj
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def fill_in_children(self, object_name, obj):
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"""Fill in the children of this object. This relies on all the
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referenced objects having been created"""
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children = self.config.get_object_children(object_name)
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for child_name, child_paths in children:
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param = obj.__class__._params.get(child_name, None)
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if isinstance(child_paths, list):
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child_list = [ self.objects_by_name[path]
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for path in child_paths ]
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else:
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child_list = self.objects_by_name[child_paths]
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obj.add_child(child_name, child_list)
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for path in to_list(child_paths):
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self.fill_in_children(path, self.objects_by_name[path])
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return obj
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def parse_port_name(self, port):
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"""Parse the name of a port"""
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m = re.match('(.*)\.([^.\[]+)(\[(\d+)\])?', port)
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peer, peer_port, whole_index, index = m.groups()
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if index is not None:
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index = int(index)
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else:
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index = 0
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return (peer, self.objects_by_name[peer], peer_port, index)
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def gather_port_connections(self, object_name, obj):
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"""Gather all the port-to-port connections from the named object.
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Returns a list of (PortConnection, PortConnection) with unordered
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(wrt. master/slave) connection information"""
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if object_name == 'Null':
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return NULL
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parsed_ports = []
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for port_name, port in obj.__class__._ports.iteritems():
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# Assume that unnamed ports are unconnected
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peers = self.config.get_port_peers(object_name, port_name)
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for index, peer in zip(xrange(0, len(peers)), peers):
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parsed_ports.append((
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PortConnection(object_name, port.name, index),
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PortConnection.from_string(peer)))
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return parsed_ports
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def bind_ports(self, connections):
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"""Bind all ports from the given connection list. Note that the
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connection list *must* list all connections with both (slave,master)
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and (master,slave) orderings"""
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# Markup a dict of how many connections are made to each port.
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# This will be used to check that the next-to-be-made connection
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# has a suitable port index
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port_bind_indices = {}
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for from_port, to_port in connections:
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port_bind_indices[
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(from_port.object_name, from_port.port_name)] = 0
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def port_has_correct_index(port):
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return port_bind_indices[
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(port.object_name, port.port_name)] == port.index
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def increment_port_index(port):
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port_bind_indices[
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(port.object_name, port.port_name)] += 1
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# Step through the sorted connections. Exactly one of
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# each (slave,master) and (master,slave) pairs will be
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# bindable because the connections are sorted.
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# For example: port_bind_indices
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# left right left right
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# a.b[0] -> d.f[1] 0 0 X
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# a.b[1] -> e.g 0 0 BIND!
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# e.g -> a.b[1] 1 X 0
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# d.f[0] -> f.h 0 0 BIND!
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# d.f[1] -> a.b[0] 1 0 BIND!
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connections_to_make = []
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for connection in sorted(connections):
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from_port, to_port = connection
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if (port_has_correct_index(from_port) and
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port_has_correct_index(to_port)):
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connections_to_make.append((from_port, to_port))
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increment_port_index(from_port)
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increment_port_index(to_port)
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# Exactly half of the connections (ie. all of them, one per
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# direction) must now have been made
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if (len(connections_to_make) * 2) != len(connections):
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raise Exception('Port bindings can\'t be ordered')
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# Actually do the binding
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for from_port, to_port in connections_to_make:
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from_object = self.objects_by_name[from_port.object_name]
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to_object = self.objects_by_name[to_port.object_name]
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setattr(from_object, from_port.port_name,
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getattr(to_object, to_port.port_name))
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def find_all_objects(self):
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"""Find and build all SimObjects from the config file and connect
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their ports together as described. Does not instantiate system"""
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# Build SimObjects for all sections of the config file
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# populating not-SimObject-valued parameters
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for object_name in self.config.get_all_object_names():
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self.find_object(object_name)
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# Add children to objects in the hierarchy from root
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self.fill_in_children('root', self.find_object('root'))
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# Now fill in SimObject-valued parameters in the knowledge that
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# this won't be interpreted as becoming the parent of objects
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# which are already in the root hierarchy
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for name, obj in self.objects_by_name.iteritems():
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self.fill_in_simobj_parameters(name, obj)
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# Gather a list of all port-to-port connections
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connections = []
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for name, obj in self.objects_by_name.iteritems():
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connections += self.gather_port_connections(name, obj)
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# Find an acceptable order to bind those port connections and
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# bind them
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self.bind_ports(connections)
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class ConfigFile(object):
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def get_flags(self):
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return set()
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def load(self, config_file):
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"""Load the named config file"""
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pass
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def get_all_object_names(self):
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"""Get a list of all the SimObject paths in the configuration"""
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pass
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def get_param(self, object_name, param_name):
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"""Get a single param or SimObject reference from the configuration
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as a string"""
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pass
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def get_param_vector(self, object_name, param_name):
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"""Get a vector param or vector of SimObject references from the
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configuration as a list of strings"""
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pass
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def get_object_children(self, object_name):
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"""Get a list of (name, paths) for each child of this object.
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paths is either a single string object path or a list of object
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paths"""
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pass
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def get_port_peers(self, object_name, port_name):
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"""Get the list of connected port names (in the string form
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object.port(\[index\])?) of the port object_name.port_name"""
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pass
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class ConfigIniFile(ConfigFile):
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def __init__(self):
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self.parser = ConfigParser.ConfigParser()
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def load(self, config_file):
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self.parser.read(config_file)
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def get_all_object_names(self):
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return self.parser.sections()
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def get_param(self, object_name, param_name):
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return self.parser.get(object_name, param_name)
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def get_param_vector(self, object_name, param_name):
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return self.parser.get(object_name, param_name).split()
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def get_object_children(self, object_name):
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if self.parser.has_option(object_name, 'children'):
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children = self.parser.get(object_name, 'children')
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child_names = children.split()
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else:
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child_names = []
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def make_path(child_name):
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if object_name == 'root':
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return child_name
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else:
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return '%s.%s' % (object_name, child_name)
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return [ (name, make_path(name)) for name in child_names ]
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def get_port_peers(self, object_name, port_name):
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if self.parser.has_option(object_name, port_name):
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peer_string = self.parser.get(object_name, port_name)
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return peer_string.split()
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else:
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return []
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class ConfigJsonFile(ConfigFile):
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def __init__(self):
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pass
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def is_sim_object(self, node):
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return isinstance(node, dict) and 'path' in node
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def find_all_objects(self, node):
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if self.is_sim_object(node):
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self.object_dicts[node['path']] = node
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if isinstance(node, list):
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for elem in node:
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self.find_all_objects(elem)
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elif isinstance(node, dict):
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for elem in node.itervalues():
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self.find_all_objects(elem)
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def load(self, config_file):
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root = json.load(open(config_file, 'r'))
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self.object_dicts = {}
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self.find_all_objects(root)
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def get_all_object_names(self):
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return sorted(self.object_dicts.keys())
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def parse_param_string(self, node):
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if node is None:
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return "Null"
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elif self.is_sim_object(node):
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return node['path']
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else:
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return str(node)
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def get_param(self, object_name, param_name):
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obj = self.object_dicts[object_name]
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return self.parse_param_string(obj[param_name])
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def get_param_vector(self, object_name, param_name):
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obj = self.object_dicts[object_name]
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return [ self.parse_param_string(p) for p in obj[param_name] ]
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def get_object_children(self, object_name):
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"""It is difficult to tell which elements are children in the
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JSON file as there is no explicit 'children' node. Take any
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element which is a full SimObject description or a list of
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SimObject descriptions. This will not work with a mixed list of
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references and descriptions but that's a scenario that isn't
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possible (very likely?) with gem5's binding/naming rules"""
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obj = self.object_dicts[object_name]
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children = []
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for name, node in obj.iteritems():
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if self.is_sim_object(node):
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children.append((name, node['path']))
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elif isinstance(node, list) and node != [] and all([
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self.is_sim_object(e) for e in node ]):
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children.append((name, [ e['path'] for e in node ]))
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return children
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def get_port_peers(self, object_name, port_name):
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"""Get the 'peer' element of any node with 'peer' and 'role'
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elements"""
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obj = self.object_dicts[object_name]
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peers = []
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if port_name in obj and 'peer' in obj[port_name] and \
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'role' in obj[port_name]:
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peers = to_list(obj[port_name]['peer'])
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return peers
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parser = argparse.ArgumentParser()
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parser.add_argument('config_file', metavar='config-file.ini',
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help='.ini configuration file to load and run')
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args = parser.parse_args(sys.argv[1:])
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if args.config_file.endswith('.ini'):
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config = ConfigIniFile()
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config.load(args.config_file)
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else:
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config = ConfigJsonFile()
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config.load(args.config_file)
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ticks.fixGlobalFrequency()
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mgr = ConfigManager(config)
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mgr.find_all_objects()
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m5.instantiate()
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exit_event = m5.simulate()
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print 'Exiting @ tick %i because %s' % (
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m5.curTick(), exit_event.getCause())
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