mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-11-01 01:07:54 +00:00
194 lines
6.1 KiB
Python
194 lines
6.1 KiB
Python
import _hotshot
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import os.path
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import parser
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import symbol
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from _hotshot import \
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WHAT_ENTER, \
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WHAT_EXIT, \
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WHAT_LINENO, \
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WHAT_DEFINE_FILE, \
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WHAT_DEFINE_FUNC, \
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WHAT_ADD_INFO
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__all__ = ["LogReader", "ENTER", "EXIT", "LINE"]
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ENTER = WHAT_ENTER
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EXIT = WHAT_EXIT
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LINE = WHAT_LINENO
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class LogReader:
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def __init__(self, logfn):
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# fileno -> filename
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self._filemap = {}
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# (fileno, lineno) -> filename, funcname
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self._funcmap = {}
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self._reader = _hotshot.logreader(logfn)
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self._nextitem = self._reader.next
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self._info = self._reader.info
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if 'current-directory' in self._info:
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self.cwd = self._info['current-directory']
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else:
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self.cwd = None
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# This mirrors the call stack of the profiled code as the log
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# is read back in. It contains tuples of the form:
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#
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# (file name, line number of function def, function name)
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#
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self._stack = []
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self._append = self._stack.append
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self._pop = self._stack.pop
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def close(self):
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self._reader.close()
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def fileno(self):
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"""Return the file descriptor of the log reader's log file."""
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return self._reader.fileno()
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def addinfo(self, key, value):
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"""This method is called for each additional ADD_INFO record.
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This can be overridden by applications that want to receive
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these events. The default implementation does not need to be
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called by alternate implementations.
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The initial set of ADD_INFO records do not pass through this
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mechanism; this is only needed to receive notification when
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new values are added. Subclasses can inspect self._info after
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calling LogReader.__init__().
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"""
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pass
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def get_filename(self, fileno):
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try:
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return self._filemap[fileno]
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except KeyError:
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raise ValueError, "unknown fileno"
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def get_filenames(self):
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return self._filemap.values()
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def get_fileno(self, filename):
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filename = os.path.normcase(os.path.normpath(filename))
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for fileno, name in self._filemap.items():
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if name == filename:
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return fileno
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raise ValueError, "unknown filename"
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def get_funcname(self, fileno, lineno):
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try:
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return self._funcmap[(fileno, lineno)]
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except KeyError:
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raise ValueError, "unknown function location"
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# Iteration support:
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# This adds an optional (& ignored) parameter to next() so that the
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# same bound method can be used as the __getitem__() method -- this
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# avoids using an additional method call which kills the performance.
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def next(self, index=0):
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while 1:
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# This call may raise StopIteration:
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what, tdelta, fileno, lineno = self._nextitem()
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# handle the most common cases first
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if what == WHAT_ENTER:
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filename, funcname = self._decode_location(fileno, lineno)
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t = (filename, lineno, funcname)
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self._append(t)
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return what, t, tdelta
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if what == WHAT_EXIT:
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try:
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return what, self._pop(), tdelta
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except IndexError:
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raise StopIteration
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if what == WHAT_LINENO:
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filename, firstlineno, funcname = self._stack[-1]
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return what, (filename, lineno, funcname), tdelta
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if what == WHAT_DEFINE_FILE:
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filename = os.path.normcase(os.path.normpath(tdelta))
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self._filemap[fileno] = filename
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elif what == WHAT_DEFINE_FUNC:
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filename = self._filemap[fileno]
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self._funcmap[(fileno, lineno)] = (filename, tdelta)
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elif what == WHAT_ADD_INFO:
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# value already loaded into self.info; call the
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# overridable addinfo() handler so higher-level code
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# can pick up the new value
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if tdelta == 'current-directory':
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self.cwd = lineno
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self.addinfo(tdelta, lineno)
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else:
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raise ValueError, "unknown event type"
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def __iter__(self):
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return self
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#
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# helpers
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#
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def _decode_location(self, fileno, lineno):
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try:
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return self._funcmap[(fileno, lineno)]
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except KeyError:
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#
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# This should only be needed when the log file does not
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# contain all the DEFINE_FUNC records needed to allow the
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# function name to be retrieved from the log file.
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#
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if self._loadfile(fileno):
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filename = funcname = None
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try:
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filename, funcname = self._funcmap[(fileno, lineno)]
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except KeyError:
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filename = self._filemap.get(fileno)
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funcname = None
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self._funcmap[(fileno, lineno)] = (filename, funcname)
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return filename, funcname
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def _loadfile(self, fileno):
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try:
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filename = self._filemap[fileno]
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except KeyError:
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print "Could not identify fileId", fileno
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return 1
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if filename is None:
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return 1
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absname = os.path.normcase(os.path.join(self.cwd, filename))
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try:
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fp = open(absname)
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except IOError:
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return
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st = parser.suite(fp.read())
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fp.close()
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# Scan the tree looking for def and lambda nodes, filling in
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# self._funcmap with all the available information.
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funcdef = symbol.funcdef
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lambdef = symbol.lambdef
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stack = [st.totuple(1)]
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while stack:
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tree = stack.pop()
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try:
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sym = tree[0]
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except (IndexError, TypeError):
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continue
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if sym == funcdef:
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self._funcmap[(fileno, tree[2][2])] = filename, tree[2][1]
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elif sym == lambdef:
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self._funcmap[(fileno, tree[1][2])] = filename, "<lambda>"
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stack.extend(list(tree[1:]))
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