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533 lines
16 KiB
Python
533 lines
16 KiB
Python
#
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# Class for printing reports on profiled python code. rev 1.0 4/1/94
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#
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# Based on prior profile module by Sjoerd Mullender...
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# which was hacked somewhat by: Guido van Rossum
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#
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# see jprofile.doc and jprofile.py for more info.
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# Copyright 1994, by InfoSeek Corporation, all rights reserved.
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# Written by James Roskind
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#
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# Permission to use, copy, modify, and distribute this Python software
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# and its associated documentation for any purpose (subject to the
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# restriction in the following sentence) without fee is hereby granted,
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# provided that the above copyright notice appears in all copies, and
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# that both that copyright notice and this permission notice appear in
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# supporting documentation, and that the name of InfoSeek not be used in
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# advertising or publicity pertaining to distribution of the software
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# without specific, written prior permission. This permission is
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# explicitly restricted to the copying and modification of the software
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# to remain in Python, compiled Python, or other languages (such as C)
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# wherein the modified or derived code is exclusively imported into a
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# Python module.
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#
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# INFOSEEK CORPORATION DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS
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# SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
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# FITNESS. IN NO EVENT SHALL INFOSEEK CORPORATION BE LIABLE FOR ANY
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# SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER
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# RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
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# CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
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# CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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import os
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import time
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import string
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import marshal
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import regex
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#**************************************************************************
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# Class Stats documentation
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#**************************************************************************
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# This class is used for creating reports from data generated by the
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# Profile class. It is a "friend" of that class, and imports data either
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# by direct access to members of Profile class, or by reading in a dictionary
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# that was emitted (via marshal) from the Profile class.
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#
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# The big change from the previous Profiler (in terms of raw functionality)
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# is that an "add()" method has been provided to combine Stats from
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# several distinct profile runs. Both the constructor and the add()
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# method now take arbitrarilly many file names as arguments.
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#
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# All the print methods now take an argument that indicats how many lines
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# to print. If the arg is a floating point number between 0 and 1.0, then
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# it is taken as a decimal percentage of the availabel lines to be printed
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# (e.g., .1 means print 10% of all available lines). If it is an integer,
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# it is taken to mean the number of lines of data that you wish to have
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# printed.
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#
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# The sort_stats() method now processes some additionaly options (i.e., in
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# addition to the old -1, 0, 1, or 2). It takes an arbitrary number of quoted
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# strings to select the sort order. For example sort_stats('time', 'name')
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# sorts on the major key of "internal function time", and on the minor
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# key of 'the name of the function'. Look at the two tables in sort_stats()
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# and get_sort_arg_defs(self) for more examples.
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#
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# All methods now return "self", so you can string together commands like:
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# Stats('foo', 'goo').strip_dirs().sort_stats('calls').\
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# print_stats(5).print_callers(5)
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#
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#**************************************************************************
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import fpformat
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class Stats:
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def __init__(self, *args):
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if not len(args):
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arg = None
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else:
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arg = args[0]
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args = args[1:]
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self.init(arg)
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apply(self.add, args).ignore()
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def init(self, arg):
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self.all_callees = None # calc only if needed
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self.files = []
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self.fcn_list = None
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self.total_tt = 0
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self.total_calls = 0
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self.prim_calls = 0
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self.max_name_len = 0
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self.top_level = {}
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self.stats = {}
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self.sort_arg_dict = {}
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self.load_stats(arg)
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trouble = 1
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try:
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self.get_top_level_stats()
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trouble = 0
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finally:
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if trouble:
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print "Invalid timing data",
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if self.files: print self.files[-1],
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print
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def load_stats(self, arg):
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if not arg: self.stats = {}
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elif type(arg) == type(""):
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f = open(arg, 'r')
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self.stats = marshal.load(f)
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f.close()
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try:
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file_stats = os.stat(arg)
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arg = time.ctime(file_stats[8]) + " " + arg
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except: # in case this is not unix
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pass
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self.files = [ arg ]
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elif hasattr(arg, 'create_stats'):
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arg.create_stats()
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self.stats = arg.stats
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arg.stats = {}
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if not self.stats:
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raise TypeError, "Cannot create or construct a " \
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+ `self.__class__` \
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+ " object from '" + `arg` + "'"
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return
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def get_top_level_stats(self):
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for func in self.stats.keys():
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cc, nc, tt, ct, callers = self.stats[func]
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self.total_calls = self.total_calls + nc
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self.prim_calls = self.prim_calls + cc
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self.total_tt = self.total_tt + tt
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if callers.has_key(("jprofile", 0, "profiler")):
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self.top_level[func] = None
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if len(func_std_string(func)) > self.max_name_len:
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self.max_name_len = len(func_std_string(func))
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def add(self, *arg_list):
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if not arg_list: return self
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if len(arg_list) > 1: apply(self.add, arg_list[1:])
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other = arg_list[0]
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if type(self) != type(other) or \
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self.__class__ != other.__class__:
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other = Stats(other)
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self.files = self.files + other.files
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self.total_calls = self.total_calls + other.total_calls
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self.prim_calls = self.prim_calls + other.prim_calls
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self.total_tt = self.total_tt + other.total_tt
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for func in other.top_level.keys():
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self.top_level[func] = None
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if self.max_name_len < other.max_name_len:
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self.max_name_len = other.max_name_len
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self.fcn_list = None
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for func in other.stats.keys():
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if self.stats.has_key(func):
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old_func_stat = self.stats[func]
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else:
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old_func_stat = (0, 0, 0, 0, {},)
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self.stats[func] = add_func_stats(old_func_stat, \
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other.stats[func])
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return self
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# list the tuple indicies and directions for sorting,
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# along with some printable description
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sort_arg_dict_default = {\
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"calls" : (((1,-1), ), "call count"),\
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"cumulative": (((3,-1), ), "cumulative time"),\
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"file" : (((4, 1), ), "file name"),\
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"line" : (((5, 1), ), "line number"),\
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"module" : (((4, 1), ), "file name"),\
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"name" : (((6, 1), ), "function name"),\
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"nfl" : (((6, 1),(4, 1),(5, 1),), "name/file/line"), \
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"pcalls" : (((0,-1), ), "call count"),\
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"stdname" : (((7, 1), ), "standard name"),\
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"time" : (((2,-1), ), "internal time"),\
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}
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# Expand all abbreviations that are unique
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def get_sort_arg_defs(self):
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if not self.sort_arg_dict:
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self.sort_arg_dict = dict = {}
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std_list = dict.keys()
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bad_list = {}
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for word in self.sort_arg_dict_default.keys():
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fragment = word
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while fragment:
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if not fragment:
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break
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if dict.has_key(fragment):
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bad_list[fragment] = 0
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break
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dict[fragment] = self. \
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sort_arg_dict_default[word]
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fragment = fragment[:-1]
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for word in bad_list.keys():
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del dict[word]
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return self.sort_arg_dict
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def sort_stats(self, *field):
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if not field:
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self.fcn_list = 0
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return self
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if len(field) == 1 and type(field[0]) == type(1):
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# Be compatible with old profiler
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field = [ {-1: "stdname", \
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0:"calls", \
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1:"time", \
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2: "cumulative" } [ field[0] ] ]
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sort_arg_defs = self.get_sort_arg_defs()
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sort_tuple = ()
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self.sort_type = ""
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connector = ""
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for word in field:
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sort_tuple = sort_tuple + sort_arg_defs[word][0]
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self.sort_type = self.sort_type + connector + \
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sort_arg_defs[word][1]
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connector = ", "
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stats_list = []
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for func in self.stats.keys():
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cc, nc, tt, ct, callers = self.stats[func]
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stats_list.append((cc, nc, tt, ct) + func_split(func) \
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+ (func_std_string(func), func,) )
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stats_list.sort(TupleComp(sort_tuple).compare)
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self.fcn_list = fcn_list = []
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for tuple in stats_list:
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fcn_list.append(tuple[-1])
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return self
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def reverse_order(self):
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if self.fcn_list: self.fcn_list.reverse()
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return self
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def strip_dirs(self):
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oldstats = self.stats
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self.stats = newstats = {}
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max_name_len = 0
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for func in oldstats.keys():
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cc, nc, tt, ct, callers = oldstats[func]
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newfunc = func_strip_path(func)
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if len(func_std_string(newfunc)) > max_name_len:
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max_name_len = len(func_std_string(newfunc))
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newcallers = {}
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for func2 in callers.keys():
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newcallers[func_strip_path(func2)] = \
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callers[func2]
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if newstats.has_key(newfunc):
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newstats[newfunc] = add_func_stats( \
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newstats[newfunc],\
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(cc, nc, tt, ct, newcallers))
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else:
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newstats[newfunc] = (cc, nc, tt, ct, newcallers)
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old_top = self.top_level
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self.top_level = new_top = {}
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for func in old_top.keys():
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new_top[func_strip_path(func)] = None
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self.max_name_len = max_name_len
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self.fcn_list = None
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self.all_callees = None
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return self
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def calc_callees(self):
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if self.all_callees: return
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self.all_callees = all_callees = {}
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for func in self.stats.keys():
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if not all_callees.has_key(func):
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all_callees[func] = {}
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cc, nc, tt, ct, callers = self.stats[func]
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for func2 in callers.keys():
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if not all_callees.has_key(func2):
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all_callees[func2] = {}
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all_callees[func2][func] = callers[func2]
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return
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#******************************************************************
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# The following functions support actual printing of reports
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#******************************************************************
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# Optional "amount" is either a line count, or a percentage of lines.
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def eval_print_amount(self, sel, list, msg):
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new_list = list
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if type(sel) == type(""):
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new_list = []
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for func in list:
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if 0<=regex.search(sel, func_std_string(func)):
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new_list.append(func)
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else:
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count = len(list)
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if type(sel) == type(1.0) and 0.0 <= sel < 1.0:
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count = int (count * sel + .5)
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new_list = list[:count]
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elif type(sel) == type(1) and 0 <= sel < count:
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count = sel
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new_list = list[:count]
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if len(list) != len(new_list):
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msg = msg + " List reduced from " + `len(list)` \
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+ " to " + `len(new_list)` + \
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" due to restriction <" + `sel` + ">\n"
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return new_list, msg
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def get_print_list(self, sel_list):
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width = self.max_name_len
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if self.fcn_list:
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list = self.fcn_list[:]
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msg = " Ordered by: " + self.sort_type + '\n'
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else:
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list = self.stats.keys()
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msg = " Random listing order was used\n"
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for selection in sel_list:
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list,msg = self.eval_print_amount(selection, list, msg)
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count = len(list)
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if not list:
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return 0, list
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print msg
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if count < len(self.stats):
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width = 0
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for func in list:
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if len(func_std_string(func)) > width:
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width = len(func_std_string(func))
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return width+2, list
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def print_stats(self, *amount):
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for filename in self.files:
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print filename
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if self.files: print
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indent = " "
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for func in self.top_level.keys():
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print indent, func_get_function_name(func)
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print indent, self.total_calls, "function calls",
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if self.total_calls != self.prim_calls:
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print "(" + `self.prim_calls`, "primitive calls)",
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print "in", fpformat.fix(self.total_tt, 3), "CPU seconds"
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print
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width, list = self.get_print_list(amount)
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if list:
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self.print_title()
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for func in list:
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self.print_line(func)
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print
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print
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return self
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def print_callees(self, *amount):
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width, list = self.get_print_list(amount)
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if list:
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self.calc_callees()
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self.print_call_heading(width, "called...")
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for func in list:
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if self.all_callees.has_key(func):
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self.print_call_line(width, \
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func, self.all_callees[func])
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else:
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self.print_call_line(width, func, {})
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print
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print
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return self
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def print_callers(self, *amount):
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width, list = self.get_print_list(amount)
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if list:
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self.print_call_heading(width, "was called by...")
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for func in list:
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cc, nc, tt, ct, callers = self.stats[func]
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self.print_call_line(width, func, callers)
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print
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print
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return self
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def print_call_heading(self, name_size, column_title):
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print string.ljust("Function ", name_size) + column_title
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def print_call_line(self, name_size, source, call_dict):
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print string.ljust(func_std_string(source), name_size),
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if not call_dict:
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print "--"
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return
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clist = call_dict.keys()
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clist.sort()
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name_size = name_size + 1
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indent = ""
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for func in clist:
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name = func_std_string(func)
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print indent*name_size + name + '(' \
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+ `call_dict[func]`+')', \
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f8(self.stats[func][3])
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indent = " "
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def print_title(self):
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print string.rjust('ncalls', 9),
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print string.rjust('tottime', 8),
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print string.rjust('percall', 8),
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print string.rjust('cumtime', 8),
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print string.rjust('percall', 8),
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print 'filename:lineno(function)'
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def print_line(self, func): # hack : should print percentages
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cc, nc, tt, ct, callers = self.stats[func]
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c = `nc`
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if nc != cc:
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c = c + '/' + `cc`
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print string.rjust(c, 9),
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print f8(tt),
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if nc == 0:
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print ' '*8,
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else:
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print f8(tt/nc),
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print f8(ct),
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if cc == 0:
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print ' '*8,
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else:
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print f8(ct/cc),
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print func_std_string(func)
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def ignore(self):
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pass # has no return value, so use at end of line :-)
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#**************************************************************************
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# class TupleComp Documentation
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#**************************************************************************
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# This class provides a generic function for comparing any two tuples.
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# Each instance records a list of tuple-indicies (from most significant
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# to least significant), and sort direction (ascending or decending) for
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# each tuple-index. The compare functions can then be used as the function
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# argument to the system sort() function when a list of tuples need to be
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# sorted in the instances order.
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#**************************************************************************
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class TupleComp:
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def __init__(self, comp_select_list):
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self.comp_select_list = comp_select_list
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def compare (self, left, right):
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for index, direction in self.comp_select_list:
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l = left[index]
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r = right[index]
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if l < r:
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return -direction
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if l > r:
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return direction
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return 0
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#**************************************************************************
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def func_strip_path(func_name):
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file, line, name = func_name
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return os.path.basename(file), line, name
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def func_get_function_name(func):
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return func[2]
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def func_std_string(func_name): # match what old profile produced
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file, line, name = func_name
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return file + ":" + `line` + "(" + name + ")"
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def func_split(func_name):
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return func_name
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#**************************************************************************
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# The following functions combine statists for pairs functions.
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# The bulk of the processing involves correctly handling "call" lists,
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# such as callers and callees.
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#**************************************************************************
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# Add together all the stats for two profile entries
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def add_func_stats(target, source):
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cc, nc, tt, ct, callers = source
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t_cc, t_nc, t_tt, t_ct, t_callers = target
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return (cc+t_cc, nc+t_nc, tt+t_tt, ct+t_ct, \
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add_callers(t_callers, callers))
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# Combine two caller lists in a single list.
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def add_callers(target, source):
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new_callers = {}
|
|
for func in target.keys():
|
|
new_callers[func] = target[func]
|
|
for func in source.keys():
|
|
if new_callers.has_key(func):
|
|
new_callers[func] = source[func] + new_callers[func]
|
|
else:
|
|
new_callers[func] = source[func]
|
|
return new_callers
|
|
|
|
# Sum the caller statistics to get total number of calls recieved
|
|
def count_calls(callers):
|
|
nc = 0
|
|
for func in callers.keys():
|
|
nc = nc + callers[func]
|
|
return nc
|
|
|
|
#**************************************************************************
|
|
# The following functions support printing of reports
|
|
#**************************************************************************
|
|
|
|
def f8(x):
|
|
return string.rjust(fpformat.fix(x, 3), 8)
|
|
|
|
|