Relocating file to Lib/lib-old.

This commit is contained in:
Fred Drake 1998-04-04 01:05:17 +00:00
parent a351f89a94
commit bdc61b1c7b
3 changed files with 0 additions and 274 deletions

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# A subroutine for extracting a function name from a code object
# (with cache)
import sys
from stat import *
import string
import os
import linecache
# XXX The functions getcodename() and getfuncname() are now obsolete
# XXX as code and function objects now have a name attribute --
# XXX co.co_name and f.func_name.
# XXX getlineno() is now also obsolete because of the new attribute
# XXX of code objects, co.co_firstlineno.
# Extract the function or class name from a code object.
# This is a bit of a hack, since a code object doesn't contain
# the name directly. So what do we do:
# - get the filename (which *is* in the code object)
# - look in the code string to find the first SET_LINENO instruction
# (this must be the first instruction)
# - get the line from the file
# - if the line starts with 'class' or 'def' (after possible whitespace),
# extract the following identifier
#
# This breaks apart when the function was read from <stdin>
# or constructed by exec(), when the file is not accessible,
# and also when the file has been modified or when a line is
# continued with a backslash before the function or class name.
#
# Because this is a pretty expensive hack, a cache is kept.
SET_LINENO = 127 # The opcode (see "opcode.h" in the Python source)
identchars = string.letters + string.digits + '_' # Identifier characters
_namecache = {} # The cache
def getcodename(co):
try:
return co.co_name
except AttributeError:
pass
key = `co` # arbitrary but uniquely identifying string
if _namecache.has_key(key): return _namecache[key]
filename = co.co_filename
code = co.co_code
name = ''
if ord(code[0]) == SET_LINENO:
lineno = ord(code[1]) | ord(code[2]) << 8
line = linecache.getline(filename, lineno)
words = string.split(line)
if len(words) >= 2 and words[0] in ('def', 'class'):
name = words[1]
for i in range(len(name)):
if name[i] not in identchars:
name = name[:i]
break
_namecache[key] = name
return name
# Use the above routine to find a function's name.
def getfuncname(func):
try:
return func.func_name
except AttributeError:
pass
return getcodename(func.func_code)
# A part of the above code to extract just the line number from a code object.
def getlineno(co):
try:
return co.co_firstlineno
except AttributeError:
pass
code = co.co_code
if ord(code[0]) == SET_LINENO:
return ord(code[1]) | ord(code[2]) << 8
else:
return -1

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import struct, fcntl, FCNTL
def writelock(f):
_lock(f, FCNTL.F_WRLCK)
def readlock(f):
_lock(f, FCNTL.F_RDLCK)
def unlock(f):
_lock(f, FCNTL.F_UNLCK)
def _lock(f, op):
dummy = fcntl.fcntl(f.fileno(), FCNTL.F_SETLKW,
struct.pack('2h8l', op,
0, 0, 0, 0, 0, 0, 0, 0, 0))

178
Lib/tb.py
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# Print tracebacks, with a dump of local variables.
# Also an interactive stack trace browser.
# Note -- this module is obsolete -- use pdb.pm() instead.
import sys
import os
from stat import *
import string
import linecache
def br(): browser(sys.last_traceback)
def tb(): printtb(sys.last_traceback)
def browser(tb):
if not tb:
print 'No traceback.'
return
tblist = []
while tb:
tblist.append(tb)
tb = tb.tb_next
ptr = len(tblist)-1
tb = tblist[ptr]
while 1:
if tb <> tblist[ptr]:
tb = tblist[ptr]
print `ptr` + ':',
printtbheader(tb)
try:
line = raw_input('TB: ')
except KeyboardInterrupt:
print '\n[Interrupted]'
break
except EOFError:
print '\n[EOF]'
break
cmd = string.strip(line)
if cmd:
if cmd == 'quit':
break
elif cmd == 'list':
browserlist(tb)
elif cmd == 'up':
if ptr-1 >= 0: ptr = ptr-1
else: print 'Bottom of stack.'
elif cmd == 'down':
if ptr+1 < len(tblist): ptr = ptr+1
else: print 'Top of stack.'
elif cmd == 'locals':
printsymbols(tb.tb_frame.f_locals)
elif cmd == 'globals':
printsymbols(tb.tb_frame.f_globals)
elif cmd in ('?', 'help'):
browserhelp()
else:
browserexec(tb, cmd)
def browserlist(tb):
filename = tb.tb_frame.f_code.co_filename
lineno = tb.tb_lineno
last = lineno
first = max(1, last-10)
for i in range(first, last+1):
if i == lineno: prefix = '***' + string.rjust(`i`, 4) + ':'
else: prefix = string.rjust(`i`, 7) + ':'
line = linecache.getline(filename, i)
if line[-1:] == '\n': line = line[:-1]
print prefix + line
def browserexec(tb, cmd):
locals = tb.tb_frame.f_locals
globals = tb.tb_frame.f_globals
try:
exec cmd+'\n' in globals, locals
except:
t, v = sys.exc_info()[:2]
print '*** Exception:',
if type(t) == type(''):
print t,
else:
print t.__name__,
if v <> None:
print ':', v,
print
print 'Type help to get help.'
def browserhelp():
print
print ' This is the traceback browser. Commands are:'
print ' up : move one level up in the call stack'
print ' down : move one level down in the call stack'
print ' locals : print all local variables at this level'
print ' globals : print all global variables at this level'
print ' list : list source code around the failure'
print ' help : print help (what you are reading now)'
print ' quit : back to command interpreter'
print ' Typing any other 1-line statement will execute it'
print ' using the current level\'s symbol tables'
print
def printtb(tb):
while tb:
print1tb(tb)
tb = tb.tb_next
def print1tb(tb):
printtbheader(tb)
if tb.tb_frame.f_locals is not tb.tb_frame.f_globals:
printsymbols(tb.tb_frame.f_locals)
def printtbheader(tb):
filename = tb.tb_frame.f_code.co_filename
lineno = tb.tb_lineno
info = '"' + filename + '"(' + `lineno` + ')'
line = linecache.getline(filename, lineno)
if line:
info = info + ': ' + string.strip(line)
print info
def printsymbols(d):
keys = d.keys()
keys.sort()
for name in keys:
print ' ' + string.ljust(name, 12) + ':',
printobject(d[name], 4)
print
def printobject(v, maxlevel):
if v == None:
print 'None',
elif type(v) in (type(0), type(0.0)):
print v,
elif type(v) == type(''):
if len(v) > 20:
print `v[:17] + '...'`,
else:
print `v`,
elif type(v) == type(()):
print '(',
printlist(v, maxlevel)
print ')',
elif type(v) == type([]):
print '[',
printlist(v, maxlevel)
print ']',
elif type(v) == type({}):
print '{',
printdict(v, maxlevel)
print '}',
else:
print v,
def printlist(v, maxlevel):
n = len(v)
if n == 0: return
if maxlevel <= 0:
print '...',
return
for i in range(min(6, n)):
printobject(v[i], maxlevel-1)
if i+1 < n: print ',',
if n > 6: print '...',
def printdict(v, maxlevel):
keys = v.keys()
n = len(keys)
if n == 0: return
if maxlevel <= 0:
print '...',
return
keys.sort()
for i in range(min(6, n)):
key = keys[i]
print `key` + ':',
printobject(v[key], maxlevel-1)
if i+1 < n: print ',',
if n > 6: print '...',