PR rtl-optimization/79386
[official-gcc.git] / contrib / compare_two_ftime_report_sets
blob384dfde1d25c3831ec653bb41b063e80d511f59d
1 #!/usr/bin/python
3 # Script to statistically compare two sets of log files with -ftime-report
4 # output embedded within them.
6 # Contributed by Lawrence Crowl <crowl@google.com>
8 # Copyright (C) 2012 Free Software Foundation, Inc.
10 # This file is part of GCC.
12 # GCC is free software; you can redistribute it and/or modify
13 # it under the terms of the GNU General Public License as published by
14 # the Free Software Foundation; either version 3, or (at your option)
15 # any later version.
17 # GCC is distributed in the hope that it will be useful,
18 # but WITHOUT ANY WARRANTY; without even the implied warranty of
19 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 # GNU General Public License for more details.
22 # You should have received a copy of the GNU General Public License
23 # along with GCC; see the file COPYING. If not, write to
24 # the Free Software Foundation, 51 Franklin Street, Fifth Floor,
25 # Boston, MA 02110-1301, USA.
28 """ Compare two sets of compile-time performance numbers.
30 The intent of this script is to compare compile-time performance of two
31 different versions of the compiler. Each version of the compiler must be
32 run at least three times with the -ftime-report option. Each log file
33 represents a data point, or trial. The set of trials for each compiler
34 version constitutes a sample. The ouput of the script is a description
35 of the statistically significant difference between the two version of
36 the compiler.
38 The parameters to the script are:
40 Two file patterns that each match a set of log files. You will probably
41 need to quote the patterns before passing them to the script.
43 Each pattern corresponds to a version of the compiler.
45 A regular expression that finds interesting lines in the log files.
46 If you want to match the beginning of the line, you will need to add
47 the ^ operator. The filtering uses Python regular expression syntax.
49 The default is "TOTAL".
51 All of the interesting lines in a single log file are summed to produce
52 a single trial (data point).
54 A desired statistical confidence within the range 60% to 99.9%. Due to
55 the implementation, this confidence will be rounded down to one of 60%,
56 70%, 80%, 90%, 95%, 98%, 99%, 99.5%, 99.8%, and 99.9%.
58 The default is 95.
60 If the computed confidence is lower than desired, the script will
61 estimate the number of trials needed to meet the desired confidence.
62 This estimate is not very good, as the variance tends to change as
63 you increase the number of trials.
65 The most common use of the script is total compile-time comparison between
66 logfiles stored in different directories.
68 compare_two_ftime_report_sets "Log1/*perf" "Log2/*perf"
70 One can also look at parsing time, but expecting a lower confidence.
72 compare_two_ftime_report_sets "Log1/*perf" "Log2/*perf" "^phase parsing" 75
74 """
77 import os
78 import sys
79 import fnmatch
80 import glob
81 import re
82 import math
85 ####################################################################### Utility
88 def divide(dividend, divisor):
89 """ Return the quotient, avoiding division by zero.
90 """
91 if divisor == 0:
92 return sys.float_info.max
93 else:
94 return dividend / divisor
97 ################################################################# File and Line
100 # Should you repurpose this script, this code might help.
102 #def find_files(topdir, filepat):
103 # """ Find a set of file names, under a given directory,
104 # matching a Unix shell file pattern.
105 # Returns an iterator over the file names.
106 # """
107 # for path, dirlist, filelist in os.walk(topdir):
108 # for name in fnmatch.filter(filelist, filepat):
109 # yield os.path.join(path, name)
112 def match_files(fileglob):
113 """ Find a set of file names matching a Unix shell glob pattern.
114 Returns an iterator over the file names.
116 return glob.iglob(os.path.expanduser(fileglob))
119 def lines_in_file(filename):
120 """ Return an iterator over lines in the named file. """
121 filedesc = open(filename, "r")
122 for line in filedesc:
123 yield line
124 filedesc.close()
127 def lines_containing_pattern(pattern, lines):
128 """ Find lines by a Python regular-expression.
129 Returns an iterator over lines containing the expression.
131 parser = re.compile(pattern)
132 for line in lines:
133 if parser.search(line):
134 yield line
137 ############################################################# Number Formatting
140 def strip_redundant_digits(numrep):
141 if numrep.find(".") == -1:
142 return numrep
143 return numrep.rstrip("0").rstrip(".")
146 def text_number(number):
147 return strip_redundant_digits("%g" % number)
150 def round_significant(digits, number):
151 if number == 0:
152 return 0
153 magnitude = abs(number)
154 significance = math.floor(math.log10(magnitude))
155 least_position = int(significance - digits + 1)
156 return round(number, -least_position)
159 def text_significant(digits, number):
160 return text_number(round_significant(digits, number))
163 def text_percent(number):
164 return text_significant(3, number*100) + "%"
167 ################################################################ T-Distribution
170 # This section of code provides functions for using Student's t-distribution.
173 # The functions are implemented using table lookup
174 # to facilitate implementation of inverse functions.
177 # The table is comprised of row 0 listing the alpha values,
178 # column 0 listing the degree-of-freedom values,
179 # and the other entries listing the corresponding t-distribution values.
181 t_dist_table = [
182 [ 0, 0.200, 0.150, 0.100, 0.050, 0.025, 0.010, 0.005, .0025, 0.001, .0005],
183 [ 1, 1.376, 1.963, 3.078, 6.314, 12.71, 31.82, 63.66, 127.3, 318.3, 636.6],
184 [ 2, 1.061, 1.386, 1.886, 2.920, 4.303, 6.965, 9.925, 14.09, 22.33, 31.60],
185 [ 3, 0.978, 1.250, 1.638, 2.353, 3.182, 4.541, 5.841, 7.453, 10.21, 12.92],
186 [ 4, 0.941, 1.190, 1.533, 2.132, 2.776, 3.747, 4.604, 5.598, 7.173, 8.610],
187 [ 5, 0.920, 1.156, 1.476, 2.015, 2.571, 3.365, 4.032, 4.773, 5.894, 6.869],
188 [ 6, 0.906, 1.134, 1.440, 1.943, 2.447, 3.143, 3.707, 4.317, 5.208, 5.959],
189 [ 7, 0.896, 1.119, 1.415, 1.895, 2.365, 2.998, 3.499, 4.029, 4.785, 5.408],
190 [ 8, 0.889, 1.108, 1.397, 1.860, 2.306, 2.896, 3.355, 3.833, 4.501, 5.041],
191 [ 9, 0.883, 1.100, 1.383, 1.833, 2.262, 2.821, 3.250, 3.690, 4.297, 4.781],
192 [ 10, 0.879, 1.093, 1.372, 1.812, 2.228, 2.764, 3.169, 3.581, 4.144, 4.587],
193 [ 11, 0.876, 1.088, 1.363, 1.796, 2.201, 2.718, 3.106, 3.497, 4.025, 4.437],
194 [ 12, 0.873, 1.083, 1.356, 1.782, 2.179, 2.681, 3.055, 3.428, 3.930, 4.318],
195 [ 13, 0.870, 1.079, 1.350, 1.771, 2.160, 2.650, 3.012, 3.372, 3.852, 4.221],
196 [ 14, 0.868, 1.076, 1.345, 1.761, 2.145, 2.624, 2.977, 3.326, 3.787, 4.140],
197 [ 15, 0.866, 1.074, 1.341, 1.753, 2.131, 2.602, 2.947, 3.286, 3.733, 4.073],
198 [ 16, 0.865, 1.071, 1.337, 1.746, 2.120, 2.583, 2.921, 3.252, 3.686, 4.015],
199 [ 17, 0.863, 1.069, 1.333, 1.740, 2.110, 2.567, 2.898, 3.222, 3.646, 3.965],
200 [ 18, 0.862, 1.067, 1.330, 1.734, 2.101, 2.552, 2.878, 3.197, 3.610, 3.922],
201 [ 19, 0.861, 1.066, 1.328, 1.729, 2.093, 2.539, 2.861, 3.174, 3.579, 3.883],
202 [ 20, 0.860, 1.064, 1.325, 1.725, 2.086, 2.528, 2.845, 3.153, 3.552, 3.850],
203 [ 21, 0.859, 1.063, 1.323, 1.721, 2.080, 2.518, 2.831, 3.135, 3.527, 3.819],
204 [ 22, 0.858, 1.061, 1.321, 1.717, 2.074, 2.508, 2.819, 3.119, 3.505, 3.792],
205 [ 23, 0.858, 1.060, 1.319, 1.714, 2.069, 2.500, 2.807, 3.104, 3.485, 3.768],
206 [ 24, 0.857, 1.059, 1.318, 1.711, 2.064, 2.492, 2.797, 3.091, 3.467, 3.745],
207 [ 25, 0.856, 1.058, 1.316, 1.708, 2.060, 2.485, 2.787, 3.078, 3.450, 3.725],
208 [ 26, 0.856, 1.058, 1.315, 1.706, 2.056, 2.479, 2.779, 3.067, 3.435, 3.707],
209 [ 27, 0.855, 1.057, 1.314, 1.703, 2.052, 2.473, 2.771, 3.057, 3.421, 3.689],
210 [ 28, 0.855, 1.056, 1.313, 1.701, 2.048, 2.467, 2.763, 3.047, 3.408, 3.674],
211 [ 29, 0.854, 1.055, 1.311, 1.699, 2.045, 2.462, 2.756, 3.038, 3.396, 3.660],
212 [ 30, 0.854, 1.055, 1.310, 1.697, 2.042, 2.457, 2.750, 3.030, 3.385, 3.646],
213 [ 31, 0.853, 1.054, 1.309, 1.696, 2.040, 2.453, 2.744, 3.022, 3.375, 3.633],
214 [ 32, 0.853, 1.054, 1.309, 1.694, 2.037, 2.449, 2.738, 3.015, 3.365, 3.622],
215 [ 33, 0.853, 1.053, 1.308, 1.692, 2.035, 2.445, 2.733, 3.008, 3.356, 3.611],
216 [ 34, 0.852, 1.052, 1.307, 1.691, 2.032, 2.441, 2.728, 3.002, 3.348, 3.601],
217 [ 35, 0.852, 1.052, 1.306, 1.690, 2.030, 2.438, 2.724, 2.996, 3.340, 3.591],
218 [ 36, 0.852, 1.052, 1.306, 1.688, 2.028, 2.434, 2.719, 2.990, 3.333, 3.582],
219 [ 37, 0.851, 1.051, 1.305, 1.687, 2.026, 2.431, 2.715, 2.985, 3.326, 3.574],
220 [ 38, 0.851, 1.051, 1.304, 1.686, 2.024, 2.429, 2.712, 2.980, 3.319, 3.566],
221 [ 39, 0.851, 1.050, 1.304, 1.685, 2.023, 2.426, 2.708, 2.976, 3.313, 3.558],
222 [ 40, 0.851, 1.050, 1.303, 1.684, 2.021, 2.423, 2.704, 2.971, 3.307, 3.551],
223 [ 50, 0.849, 1.047, 1.299, 1.676, 2.009, 2.403, 2.678, 2.937, 3.261, 3.496],
224 [ 60, 0.848, 1.045, 1.296, 1.671, 2.000, 2.390, 2.660, 2.915, 3.232, 3.460],
225 [ 80, 0.846, 1.043, 1.292, 1.664, 1.990, 2.374, 2.639, 2.887, 3.195, 3.416],
226 [100, 0.845, 1.042, 1.290, 1.660, 1.984, 2.364, 2.626, 2.871, 3.174, 3.390],
227 [150, 0.844, 1.040, 1.287, 1.655, 1.976, 2.351, 2.609, 2.849, 3.145, 3.357] ]
230 # The functions use the following parameter name conventions:
231 # alpha - the alpha parameter
232 # degree - the degree-of-freedom parameter
233 # value - the t-distribution value for some alpha and degree
234 # deviations - a confidence interval radius,
235 # expressed as a multiple of the standard deviation of the sample
236 # ax - the alpha parameter index
237 # dx - the degree-of-freedom parameter index
239 # The interface to this section of code is the last three functions,
240 # find_t_dist_value, find_t_dist_alpha, and find_t_dist_degree.
243 def t_dist_alpha_at_index(ax):
244 if ax == 0:
245 return .25 # effectively no confidence
246 else:
247 return t_dist_table[0][ax]
250 def t_dist_degree_at_index(dx):
251 return t_dist_table[dx][0]
254 def t_dist_value_at_index(ax, dx):
255 return t_dist_table[dx][ax]
258 def t_dist_index_of_degree(degree):
259 limit = len(t_dist_table) - 1
260 dx = 0
261 while dx < limit and t_dist_degree_at_index(dx+1) <= degree:
262 dx += 1
263 return dx
266 def t_dist_index_of_alpha(alpha):
267 limit = len(t_dist_table[0]) - 1
268 ax = 0
269 while ax < limit and t_dist_alpha_at_index(ax+1) >= alpha:
270 ax += 1
271 return ax
274 def t_dist_index_of_value(dx, value):
275 limit = len(t_dist_table[dx]) - 1
276 ax = 0
277 while ax < limit and t_dist_value_at_index(ax+1, dx) < value:
278 ax += 1
279 return ax
282 def t_dist_value_within_deviations(dx, ax, deviations):
283 degree = t_dist_degree_at_index(dx)
284 count = degree + 1
285 root = math.sqrt(count)
286 value = t_dist_value_at_index(ax, dx)
287 nominal = value / root
288 comparison = nominal <= deviations
289 return comparison
292 def t_dist_index_of_degree_for_deviations(ax, deviations):
293 limit = len(t_dist_table) - 1
294 dx = 1
295 while dx < limit and not t_dist_value_within_deviations(dx, ax, deviations):
296 dx += 1
297 return dx
300 def find_t_dist_value(alpha, degree):
301 """ Return the t-distribution value.
302 The parameters are alpha and degree of freedom.
304 dx = t_dist_index_of_degree(degree)
305 ax = t_dist_index_of_alpha(alpha)
306 return t_dist_value_at_index(ax, dx)
309 def find_t_dist_alpha(value, degree):
310 """ Return the alpha.
311 The parameters are the t-distribution value for a given degree of freedom.
313 dx = t_dist_index_of_degree(degree)
314 ax = t_dist_index_of_value(dx, value)
315 return t_dist_alpha_at_index(ax)
318 def find_t_dist_degree(alpha, deviations):
319 """ Return the degree-of-freedom.
320 The parameters are the desired alpha and the number of standard deviations
321 away from the mean that the degree should handle.
323 ax = t_dist_index_of_alpha(alpha)
324 dx = t_dist_index_of_degree_for_deviations(ax, deviations)
325 return t_dist_degree_at_index(dx)
328 ############################################################## Core Statistical
331 # This section provides the core statistical classes and functions.
334 class Accumulator:
336 """ An accumulator for statistical information using arithmetic mean. """
338 def __init__(self):
339 self.count = 0
340 self.mean = 0
341 self.sumsqdiff = 0
343 def insert(self, value):
344 self.count += 1
345 diff = value - self.mean
346 self.mean += diff / self.count
347 self.sumsqdiff += (self.count - 1) * diff * diff / self.count
350 def fill_accumulator_from_values(values):
351 accumulator = Accumulator()
352 for value in values:
353 accumulator.insert(value)
354 return accumulator
357 def alpha_from_confidence(confidence):
358 scrubbed = min(99.99, max(confidence, 60))
359 return (100.0 - scrubbed) / 200.0
362 def confidence_from_alpha(alpha):
363 return 100 - 200 * alpha
366 class Sample:
368 """ A description of a sample using an arithmetic mean. """
370 def __init__(self, accumulator, alpha):
371 if accumulator.count < 3:
372 sys.exit("Samples must contain three trials.")
373 self.count = accumulator.count
374 self.mean = accumulator.mean
375 variance = accumulator.sumsqdiff / (self.count - 1)
376 self.deviation = math.sqrt(variance)
377 self.error = self.deviation / math.sqrt(self.count)
378 self.alpha = alpha
379 self.radius = find_t_dist_value(alpha, self.count - 1) * self.error
381 def alpha_for_radius(self, radius):
382 return find_t_dist_alpha(divide(radius, self.error), self.count)
384 def degree_for_radius(self, radius):
385 return find_t_dist_degree(self.alpha, divide(radius, self.deviation))
387 def __str__(self):
388 text = "trial count is " + text_number(self.count)
389 text += ", mean is " + text_number(self.mean)
390 text += " (" + text_number(confidence_from_alpha(self.alpha)) +"%"
391 text += " confidence in " + text_number(self.mean - self.radius)
392 text += " to " + text_number(self.mean + self.radius) + ")"
393 text += ",\nstd.deviation is " + text_number(self.deviation)
394 text += ", std.error is " + text_number(self.error)
395 return text
398 def sample_from_values(values, alpha):
399 accumulator = fill_accumulator_from_values(values)
400 return Sample(accumulator, alpha)
403 class Comparison:
405 """ A comparison of two samples using arithmetic means. """
407 def __init__(self, first, second, alpha):
408 if first.mean > second.mean:
409 self.upper = first
410 self.lower = second
411 self.larger = "first"
412 else:
413 self.upper = second
414 self.lower = first
415 self.larger = "second"
416 self.a_wanted = alpha
417 radius = self.upper.mean - self.lower.mean
418 rising = self.lower.alpha_for_radius(radius)
419 falling = self.upper.alpha_for_radius(radius)
420 self.a_actual = max(rising, falling)
421 rising = self.lower.degree_for_radius(radius)
422 falling = self.upper.degree_for_radius(radius)
423 self.count = max(rising, falling) + 1
425 def __str__(self):
426 message = "The " + self.larger + " sample appears to be "
427 change = divide(self.upper.mean, self.lower.mean) - 1
428 message += text_percent(change) + " larger,\n"
429 confidence = confidence_from_alpha(self.a_actual)
430 if confidence >= 60:
431 message += "with " + text_number(confidence) + "% confidence"
432 message += " of being larger."
433 else:
434 message += "but with no confidence of actually being larger."
435 if self.a_actual > self.a_wanted:
436 confidence = confidence_from_alpha(self.a_wanted)
437 message += "\nTo reach " + text_number(confidence) + "% confidence,"
438 if self.count < 100:
439 message += " you need roughly " + text_number(self.count) + " trials,\n"
440 message += "assuming the standard deviation is stable, which is iffy."
441 else:
442 message += "\nyou need to reduce the larger deviation"
443 message += " or increase the number of trials."
444 return message
447 ############################################################ Single Value Files
450 # This section provides functions to compare two raw data files,
451 # each containing a whole sample consisting of single number per line.
454 # Should you repurpose this script, this code might help.
456 #def values_from_data_file(filename):
457 # for line in lines_in_file(filename):
458 # yield float(line)
461 # Should you repurpose this script, this code might help.
463 #def sample_from_data_file(filename, alpha):
464 # confidence = confidence_from_alpha(alpha)
465 # text = "\nArithmetic sample for data file\n\"" + filename + "\""
466 # text += " with desired confidence " + text_number(confidence) + " is "
467 # print text
468 # values = values_from_data_file(filename)
469 # sample = sample_from_values(values, alpha)
470 # print sample
471 # return sample
474 # Should you repurpose this script, this code might help.
476 #def compare_two_data_files(filename1, filename2, confidence):
477 # alpha = alpha_from_confidence(confidence)
478 # sample1 = sample_from_data_file(filename1, alpha)
479 # sample2 = sample_from_data_file(filename2, alpha)
480 # print
481 # print Comparison(sample1, sample2, alpha)
484 # Should you repurpose this script, this code might help.
486 #def command_two_data_files():
487 # argc = len(sys.argv)
488 # if argc < 2 or 4 < argc:
489 # message = "usage: " + sys.argv[0]
490 # message += " file-name file-name [confidence]"
491 # print message
492 # else:
493 # filename1 = sys.argv[1]
494 # filename2 = sys.argv[2]
495 # if len(sys.argv) >= 4:
496 # confidence = int(sys.argv[3])
497 # else:
498 # confidence = 95
499 # compare_two_data_files(filename1, filename2, confidence)
502 ############################################### -ftime-report TimeVar Log Files
505 # This section provides functions to compare two sets of -ftime-report log
506 # files. Each set is a sample, where each data point is derived from the
507 # sum of values in a single log file.
510 label = r"^ *([^:]*[^: ]) *:"
511 number = r" *([0-9.]*) *"
512 percent = r"\( *[0-9]*\%\)"
513 numpct = number + percent
514 total_format = label + number + number + number + number + " kB\n"
515 total_parser = re.compile(total_format)
516 tmvar_format = label + numpct + " usr" + numpct + " sys"
517 tmvar_format += numpct + " wall" + number + " kB " + percent + " ggc\n"
518 tmvar_parser = re.compile(tmvar_format)
519 replace = r"\2\t\3\t\4\t\5\t\1"
522 def split_time_report(lines, pattern):
523 if pattern == "TOTAL":
524 parser = total_parser
525 else:
526 parser = tmvar_parser
527 for line in lines:
528 modified = parser.sub(replace, line)
529 if modified != line:
530 yield re.split("\t", modified)
533 def extract_cpu_time(tvtuples):
534 for tuple in tvtuples:
535 yield float(tuple[0]) + float(tuple[1])
538 def sum_values(values):
539 sum = 0
540 for value in values:
541 sum += value
542 return sum
545 def extract_time_for_timevar_log(filename, pattern):
546 lines = lines_in_file(filename)
547 tmvars = lines_containing_pattern(pattern, lines)
548 tuples = split_time_report(tmvars, pattern)
549 times = extract_cpu_time(tuples)
550 return sum_values(times)
553 def extract_times_for_timevar_logs(filelist, pattern):
554 for filename in filelist:
555 yield extract_time_for_timevar_log(filename, pattern)
558 def sample_from_timevar_logs(fileglob, pattern, alpha):
559 confidence = confidence_from_alpha(alpha)
560 text = "\nArithmetic sample for timevar log files\n\"" + fileglob + "\""
561 text += "\nand selecting lines containing \"" + pattern + "\""
562 text += " with desired confidence " + text_number(confidence) + " is "
563 print text
564 filelist = match_files(fileglob)
565 values = extract_times_for_timevar_logs(filelist, pattern)
566 sample = sample_from_values(values, alpha)
567 print sample
568 return sample
571 def compare_two_timevar_logs(fileglob1, fileglob2, pattern, confidence):
572 alpha = alpha_from_confidence(confidence)
573 sample1 = sample_from_timevar_logs(fileglob1, pattern, alpha)
574 sample2 = sample_from_timevar_logs(fileglob2, pattern, alpha)
575 print
576 print Comparison(sample1, sample2, alpha)
579 def command_two_timevar_logs():
580 argc = len(sys.argv)
581 if argc < 3 or 5 < argc:
582 message = "usage: " + sys.argv[0]
583 message += " file-pattern file-pattern [line-pattern [confidence]]"
584 print message
585 else:
586 filepat1 = sys.argv[1]
587 filepat2 = sys.argv[2]
588 if len(sys.argv) >= 5:
589 confidence = int(sys.argv[4])
590 else:
591 confidence = 95
592 if len(sys.argv) >= 4:
593 linepat = sys.argv[3]
594 else:
595 linepat = "TOTAL"
596 compare_two_timevar_logs(filepat1, filepat2, linepat, confidence)
599 ########################################################################## Main
602 # This section is the main code, implementing the command.
605 command_two_timevar_logs()