move the conversion stuff that was in configs/kernel/Config.py into

the m5 package as convert.py
add a smartdict class which stores strings and can intelligently
interpret those string variables as several other types.
make the env dict use the smartdict class

python/m5/config.py:
    move a bunch of conversion functions into convert.py
    turn the env dict into a smartdict
    adapt the _CheckedInt stuff to deal with derived types
python/m5/objects/BaseCPU.mpy:
    env is now a smartdict and can properly convert to bool

--HG--
extra : convert_revision : 8abcd35a5ab14b82f280aea59020953869e33365
This commit is contained in:
Nathan Binkert 2005-03-11 18:47:11 -05:00
parent e6902a907e
commit c393a51f4a
4 changed files with 276 additions and 9 deletions

View file

@ -28,6 +28,8 @@ from __future__ import generators
import os, re, sys, types, inspect
from mpy_importer import AddToPath, LoadMpyFile
from smartdict import SmartDict
from convert import *
noDot = False
try:
@ -35,7 +37,7 @@ try:
except:
noDot = True
env = {}
env = SmartDict()
env.update(os.environ)
def panic(string):
@ -976,18 +978,17 @@ VectorParam = _VectorParamProxy(None)
# Integer parameter type.
class _CheckedInt(object):
def _convert(cls, value):
t = type(value)
if t == bool:
if isinstance(value, bool):
return int(value)
if t != int and t != long and t != float and t != str:
raise TypeError, 'Integer parameter of invalid type %s' % t
if not isinstance(value, (int, long, float, str)):
raise TypeError, 'Integer param of invalid type %s' % type(value)
if t == str or t == float:
value = long(value)
if isinstance(value, (str, float)):
value = long(float(value))
if not cls._min <= value <= cls._max:
raise TypeError, 'Integer parameter out of bounds %d < %d < %d' % \
raise TypeError, 'Integer param out of bounds %d < %d < %d' % \
(cls._min, value, cls._max)
return value

181
python/m5/convert.py Normal file
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@ -0,0 +1,181 @@
# metric prefixes
exa = 1.0e18
peta = 1.0e15
tera = 1.0e12
giga = 1.0e9
mega = 1.0e6
kilo = 1.0e3
milli = 1.0e-3
micro = 1.0e-6
nano = 1.0e-9
pico = 1.0e-12
femto = 1.0e-15
atto = 1.0e-18
# power of 2 prefixes
kibi = 1024
mebi = kibi * 1024
gibi = mebi * 1024
tebi = gibi * 1024
pebi = tebi * 1024
exbi = pebi * 1024
# memory size configuration stuff
def to_integer(value):
if not isinstance(value, str):
result = int(value)
elif value.endswith('Ei'):
result = int(value[:-2]) * exbi
elif value.endswith('Pi'):
result = int(value[:-2]) * pebi
elif value.endswith('Ti'):
result = int(value[:-2]) * tebi
elif value.endswith('Gi'):
result = int(value[:-2]) * gibi
elif value.endswith('Mi'):
result = int(value[:-2]) * mebi
elif value.endswith('ki'):
result = int(value[:-2]) * kibi
elif value.endswith('E'):
result = int(value[:-1]) * exa
elif value.endswith('P'):
result = int(value[:-1]) * peta
elif value.endswith('T'):
result = int(value[:-1]) * tera
elif value.endswith('G'):
result = int(value[:-1]) * giga
elif value.endswith('M'):
result = int(value[:-1]) * mega
elif value.endswith('k'):
result = int(value[:-1]) * kilo
elif value.endswith('m'):
result = int(value[:-1]) * milli
elif value.endswith('u'):
result = int(value[:-1]) * micro
elif value.endswith('n'):
result = int(value[:-1]) * nano
elif value.endswith('p'):
result = int(value[:-1]) * pico
elif value.endswith('f'):
result = int(value[:-1]) * femto
else:
result = int(value)
return result
def to_bool(val):
t = type(val)
if t == bool:
return val
if t == None:
return False
if t == int or t == long:
return bool(val)
if t == str:
val = val.lower()
if val == "true" or val == "t" or val == "yes" or val == "y":
return True
elif val == "false" or val == "f" or val == "no" or val == "n":
return False
return to_integer(val) != 0
def to_frequency(value):
if not isinstance(value, str):
result = float(value)
elif value.endswith('THz'):
result = float(value[:-3]) * tera
elif value.endswith('GHz'):
result = float(value[:-3]) * giga
elif value.endswith('MHz'):
result = float(value[:-3]) * mega
elif value.endswith('kHz'):
result = float(value[:-3]) * kilo
elif value.endswith('Hz'):
result = float(value[:-2])
else:
result = float(value)
return result
def to_latency(value):
if not isinstance(value, str):
result = float(value)
elif value.endswith('c'):
result = float(value[:-1])
elif value.endswith('ps'):
result = float(value[:-2]) * pico
elif value.endswith('ns'):
result = float(value[:-2]) * nano
elif value.endswith('us'):
result = float(value[:-2]) * micro
elif value.endswith('ms'):
result = float(value[:-2]) * milli
elif value.endswith('s'):
result = float(value[:-1])
else:
result = float(value)
return result;
def to_network_bandwidth(value):
if not isinstance(value, str):
result = float(value)
elif value.endswith('Tbps'):
result = float(value[:-3]) * tera
elif value.endswith('Gbps'):
result = float(value[:-3]) * giga
elif value.endswith('Mbps'):
result = float(value[:-3]) * mega
elif value.endswith('kbps'):
result = float(value[:-3]) * kilo
elif value.endswith('bps'):
result = float(value[:-2])
else:
result = float(value)
return result
def to_memory_bandwidth(value):
if not isinstance(value, str):
result = int(value)
elif value.endswith('PB/s'):
result = int(value[:-4]) * pebi
elif value.endswith('TB/s'):
result = int(value[:-4]) * tebi
elif value.endswith('GB/s'):
result = int(value[:-4]) * gibi
elif value.endswith('MB/s'):
result = int(value[:-4]) * mebi
elif value.endswith('kB/s'):
result = int(value[:-4]) * kibi
elif value.endswith('B/s'):
result = int(value[:-3])
else:
result = int(value)
return result
def to_memory_size(value):
if not isinstance(value, str):
result = int(value)
elif value.endswith('PB'):
result = int(value[:-2]) * pebi
elif value.endswith('TB'):
result = int(value[:-2]) * tebi
elif value.endswith('GB'):
result = int(value[:-2]) * gibi
elif value.endswith('MB'):
result = int(value[:-2]) * mebi
elif value.endswith('kB'):
result = int(value[:-2]) * kibi
elif value.endswith('B'):
result = int(value[:-1])
else:
result = int(value)
return result

View file

@ -4,7 +4,7 @@ simobj BaseCPU(SimObject):
icache = Param.BaseMem(NULL, "L1 instruction cache object")
dcache = Param.BaseMem(NULL, "L1 data cache object")
if Bool._convert(env.get('FULL_SYSTEM', 'False')):
if env.get('FULL_SYSTEM', 'False'):
dtb = Param.AlphaDTB("Data TLB")
itb = Param.AlphaITB("Instruction TLB")
mem = Param.FunctionalMemory("memory")

85
python/m5/smartdict.py Normal file
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@ -0,0 +1,85 @@
from convert import *
class SmartDict(dict):
class Proxy(str):
def __int__(self):
return int(to_integer(str(self)))
def __long__(self):
return long(to_integer(str(self)))
def __float__(self):
return float(to_integer(str(self)))
def __nonzero__(self):
return to_bool(str(self))
def convert(self, other):
t = type(other)
if t == bool:
return bool(self)
if t == int:
return int(self)
if t == long:
return long(self)
if t == float:
return float(self)
return str(self)
def __lt__(self, other):
return self.convert(other) < other
def __le__(self, other):
return self.convert(other) <= other
def __eq__(self, other):
return self.convert(other) == other
def __ne__(self, other):
return self.convert(other) != other
def __gt__(self, other):
return self.convert(other) > other
def __ge__(self, other):
return self.convert(other) >= other
def __add__(self, other):
return self.convert(other) + other
def __sub__(self, other):
return self.convert(other) - other
def __mul__(self, other):
return self.convert(other) * other
def __div__(self, other):
return self.convert(other) / other
def __truediv__(self, other):
return self.convert(other) / other
def __radd__(self, other):
return other + self.convert(other)
def __rsub__(self, other):
return other - self.convert(other)
def __rmul__(self, other):
return other * self.convert(other)
def __rdiv__(self, other):
return other / self.convert(other)
def __rtruediv__(self, other):
return other / self.convert(other)
def __getitem__(self, key):
return self.Proxy(dict.__getitem__(self, key))
def __setitem__(self, key, item):
dict.__setitem__(self, key, str(item))
def values(self):
return [ self.Proxy(v) for v in dict.values(self) ]
def itervalues(self):
for value in dict.itervalues(self):
yield self.Proxy(value)
def items(self):
return [ (k, self.Proxy(v)) for k,v in dict.items(self) ]
def iteritems(self):
for key,value in dict.iteritems(self):
yield key, self.Proxy(value)
def get(self, key, default=''):
return self.Proxy(dict.get(self, key, str(default)))
def setdefault(self, key, default=''):
return self.Proxy(dict.setdefault(self, key, str(default)))