зеркало из https://github.com/mozilla/moz-skia.git
357 строки
13 KiB
Python
357 строки
13 KiB
Python
'''
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Created on May 19, 2011
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@author: bungeman
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'''
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import os
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import re
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import math
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# bench representation algorithm constant names
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ALGORITHM_AVERAGE = 'avg'
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ALGORITHM_MEDIAN = 'med'
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ALGORITHM_MINIMUM = 'min'
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ALGORITHM_25TH_PERCENTILE = '25th'
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# Regular expressions used throughout.
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PER_SETTING_RE = '([^\s=]+)(?:=(\S+))?'
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SETTINGS_RE = 'skia bench:((?:\s+' + PER_SETTING_RE + ')*)'
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BENCH_RE = 'running bench (?:\[\d+ \d+\] )?\s*(\S+)'
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TIME_RE = '(?:(\w*)msecs = )?\s*((?:\d+\.\d+)(?:,\s*\d+\.\d+)*)'
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# non-per-tile benches have configs that don't end with ']' or '>'
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CONFIG_RE = '(\S+[^\]>]):\s+((?:' + TIME_RE + '\s+)+)'
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# per-tile bench lines are in the following format. Note that there are
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# non-averaged bench numbers in separate lines, which we ignore now due to
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# their inaccuracy.
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TILE_RE = (' tile_(\S+): tile \[\d+,\d+\] out of \[\d+,\d+\] <averaged>:'
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' ((?:' + TIME_RE + '\s+)+)')
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# for extracting tile layout
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TILE_LAYOUT_RE = ' out of \[(\d+),(\d+)\] <averaged>: '
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PER_SETTING_RE_COMPILED = re.compile(PER_SETTING_RE)
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SETTINGS_RE_COMPILED = re.compile(SETTINGS_RE)
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BENCH_RE_COMPILED = re.compile(BENCH_RE)
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TIME_RE_COMPILED = re.compile(TIME_RE)
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CONFIG_RE_COMPILED = re.compile(CONFIG_RE)
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TILE_RE_COMPILED = re.compile(TILE_RE)
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TILE_LAYOUT_RE_COMPILED = re.compile(TILE_LAYOUT_RE)
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class BenchDataPoint:
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"""A single data point produced by bench.
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"""
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def __init__(self, bench, config, time_type, time, settings,
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tile_layout='', per_tile_values=[], per_iter_time=[]):
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# string name of the benchmark to measure
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self.bench = bench
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# string name of the configurations to run
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self.config = config
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# type of the timer in string: '' (walltime), 'c' (cpu) or 'g' (gpu)
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self.time_type = time_type
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# float number of the bench time value
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self.time = time
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# dictionary of the run settings
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self.settings = settings
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# how tiles cover the whole picture: '5x3' means 5 columns and 3 rows
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self.tile_layout = tile_layout
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# list of float for per_tile bench values, if applicable
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self.per_tile_values = per_tile_values
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# list of float for per-iteration bench time, if applicable
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self.per_iter_time = per_iter_time
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def __repr__(self):
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return "BenchDataPoint(%s, %s, %s, %s, %s)" % (
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str(self.bench),
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str(self.config),
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str(self.time_type),
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str(self.time),
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str(self.settings),
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)
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class _ExtremeType(object):
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"""Instances of this class compare greater or less than other objects."""
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def __init__(self, cmpr, rep):
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object.__init__(self)
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self._cmpr = cmpr
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self._rep = rep
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def __cmp__(self, other):
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if isinstance(other, self.__class__) and other._cmpr == self._cmpr:
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return 0
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return self._cmpr
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def __repr__(self):
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return self._rep
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Max = _ExtremeType(1, "Max")
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Min = _ExtremeType(-1, "Min")
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class _ListAlgorithm(object):
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"""Algorithm for selecting the representation value from a given list.
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representation is one of the ALGORITHM_XXX representation types."""
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def __init__(self, data, representation=None):
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if not representation:
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representation = ALGORITHM_AVERAGE # default algorithm
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self._data = data
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self._len = len(data)
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if representation == ALGORITHM_AVERAGE:
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self._rep = sum(self._data) / self._len
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else:
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self._data.sort()
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if representation == ALGORITHM_MINIMUM:
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self._rep = self._data[0]
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else:
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# for percentiles, we use the value below which x% of values are
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# found, which allows for better detection of quantum behaviors.
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if representation == ALGORITHM_MEDIAN:
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x = int(round(0.5 * self._len + 0.5))
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elif representation == ALGORITHM_25TH_PERCENTILE:
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x = int(round(0.25 * self._len + 0.5))
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else:
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raise Exception("invalid representation algorithm %s!" %
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representation)
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self._rep = self._data[x - 1]
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def compute(self):
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return self._rep
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def _ParseAndStoreTimes(config_re_compiled, is_per_tile, line, bench,
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value_dic, layout_dic):
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"""Parses given bench time line with regex and adds data to value_dic.
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config_re_compiled: precompiled regular expression for parsing the config
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line.
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is_per_tile: boolean indicating whether this is a per-tile bench.
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If so, we add tile layout into layout_dic as well.
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line: input string line to parse.
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bench: name of bench for the time values.
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value_dic: dictionary to store bench values. See bench_dic in parse() below.
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layout_dic: dictionary to store tile layouts. See parse() for descriptions.
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"""
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for config in config_re_compiled.finditer(line):
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current_config = config.group(1)
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tile_layout = ''
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if is_per_tile: # per-tile bench, add name prefix
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current_config = 'tile_' + current_config
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layouts = TILE_LAYOUT_RE_COMPILED.search(line)
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if layouts and len(layouts.groups()) == 2:
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tile_layout = '%sx%s' % layouts.groups()
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times = config.group(2)
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for new_time in TIME_RE_COMPILED.finditer(times):
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current_time_type = new_time.group(1)
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iters = [float(i) for i in
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new_time.group(2).strip().split(',')]
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value_dic.setdefault(bench, {}).setdefault(
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current_config, {}).setdefault(current_time_type, []).append(
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iters)
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layout_dic.setdefault(bench, {}).setdefault(
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current_config, {}).setdefault(current_time_type, tile_layout)
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def parse_skp_bench_data(directory, revision, rep, default_settings=None):
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"""Parses all the skp bench data in the given directory.
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Args:
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directory: string of path to input data directory.
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revision: git hash revision that matches the data to process.
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rep: bench representation algorithm, see bench_util.py.
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default_settings: dictionary of other run settings. See writer.option() in
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bench/benchmain.cpp.
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Returns:
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A list of BenchDataPoint objects.
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"""
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revision_data_points = []
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file_list = os.listdir(directory)
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file_list.sort()
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for bench_file in file_list:
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scalar_type = None
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# Scalar type, if any, is in the bench filename after 'scalar_'.
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if (bench_file.startswith('bench_' + revision + '_data_')):
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if bench_file.find('scalar_') > 0:
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components = bench_file.split('_')
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scalar_type = components[components.index('scalar') + 1]
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else: # Skips non skp bench files.
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continue
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with open('/'.join([directory, bench_file]), 'r') as file_handle:
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settings = dict(default_settings or {})
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settings['scalar'] = scalar_type
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revision_data_points.extend(parse(settings, file_handle, rep))
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return revision_data_points
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# TODO(bensong): switch to reading JSON output when available. This way we don't
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# need the RE complexities.
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def parse(settings, lines, representation=None):
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"""Parses bench output into a useful data structure.
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({str:str}, __iter__ -> str) -> [BenchDataPoint]
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representation is one of the ALGORITHM_XXX types."""
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benches = []
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current_bench = None
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# [bench][config][time_type] -> [[per-iter values]] where per-tile config
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# has per-iter value list for each tile [[<tile1_iter1>,<tile1_iter2>,...],
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# [<tile2_iter1>,<tile2_iter2>,...],...], while non-per-tile config only
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# contains one list of iterations [[iter1, iter2, ...]].
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bench_dic = {}
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# [bench][config][time_type] -> tile_layout
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layout_dic = {}
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for line in lines:
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# see if this line is a settings line
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settingsMatch = SETTINGS_RE_COMPILED.search(line)
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if (settingsMatch):
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settings = dict(settings)
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for settingMatch in PER_SETTING_RE_COMPILED.finditer(settingsMatch.group(1)):
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if (settingMatch.group(2)):
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settings[settingMatch.group(1)] = settingMatch.group(2)
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else:
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settings[settingMatch.group(1)] = True
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# see if this line starts a new bench
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new_bench = BENCH_RE_COMPILED.search(line)
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if new_bench:
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current_bench = new_bench.group(1)
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# add configs on this line to the bench_dic
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if current_bench:
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if line.startswith(' tile_') :
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_ParseAndStoreTimes(TILE_RE_COMPILED, True, line, current_bench,
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bench_dic, layout_dic)
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else:
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_ParseAndStoreTimes(CONFIG_RE_COMPILED, False, line,
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current_bench, bench_dic, layout_dic)
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# append benches to list
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for bench in bench_dic:
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for config in bench_dic[bench]:
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for time_type in bench_dic[bench][config]:
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tile_layout = ''
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per_tile_values = [] # empty for non-per-tile configs
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per_iter_time = [] # empty for per-tile configs
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bench_summary = None # a single final bench value
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if len(bench_dic[bench][config][time_type]) > 1:
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# per-tile config; compute representation for each tile
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per_tile_values = [
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_ListAlgorithm(iters, representation).compute()
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for iters in bench_dic[bench][config][time_type]]
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# use sum of each tile representation for total bench value
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bench_summary = sum(per_tile_values)
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# extract tile layout
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tile_layout = layout_dic[bench][config][time_type]
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else:
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# get the list of per-iteration values
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per_iter_time = bench_dic[bench][config][time_type][0]
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bench_summary = _ListAlgorithm(
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per_iter_time, representation).compute()
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benches.append(BenchDataPoint(
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bench,
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config,
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time_type,
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bench_summary,
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settings,
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tile_layout,
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per_tile_values,
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per_iter_time))
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return benches
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class LinearRegression:
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"""Linear regression data based on a set of data points.
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([(Number,Number)])
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There must be at least two points for this to make sense."""
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def __init__(self, points):
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n = len(points)
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max_x = Min
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min_x = Max
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Sx = 0.0
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Sy = 0.0
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Sxx = 0.0
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Sxy = 0.0
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Syy = 0.0
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for point in points:
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x = point[0]
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y = point[1]
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max_x = max(max_x, x)
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min_x = min(min_x, x)
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Sx += x
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Sy += y
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Sxx += x*x
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Sxy += x*y
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Syy += y*y
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denom = n*Sxx - Sx*Sx
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if (denom != 0.0):
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B = (n*Sxy - Sx*Sy) / denom
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else:
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B = 0.0
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a = (1.0/n)*(Sy - B*Sx)
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se2 = 0
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sB2 = 0
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sa2 = 0
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if (n >= 3 and denom != 0.0):
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se2 = (1.0/(n*(n-2)) * (n*Syy - Sy*Sy - B*B*denom))
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sB2 = (n*se2) / denom
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sa2 = sB2 * (1.0/n) * Sxx
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self.slope = B
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self.intercept = a
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self.serror = math.sqrt(max(0, se2))
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self.serror_slope = math.sqrt(max(0, sB2))
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self.serror_intercept = math.sqrt(max(0, sa2))
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self.max_x = max_x
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self.min_x = min_x
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def __repr__(self):
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return "LinearRegression(%s, %s, %s, %s, %s)" % (
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str(self.slope),
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str(self.intercept),
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str(self.serror),
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str(self.serror_slope),
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str(self.serror_intercept),
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)
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def find_min_slope(self):
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"""Finds the minimal slope given one standard deviation."""
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slope = self.slope
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intercept = self.intercept
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error = self.serror
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regr_start = self.min_x
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regr_end = self.max_x
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regr_width = regr_end - regr_start
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if slope < 0:
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lower_left_y = slope*regr_start + intercept - error
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upper_right_y = slope*regr_end + intercept + error
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return min(0, (upper_right_y - lower_left_y) / regr_width)
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elif slope > 0:
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upper_left_y = slope*regr_start + intercept + error
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lower_right_y = slope*regr_end + intercept - error
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return max(0, (lower_right_y - upper_left_y) / regr_width)
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return 0
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def CreateRevisionLink(revision_number):
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"""Returns HTML displaying the given revision number and linking to
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that revision's change page at code.google.com, e.g.
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http://code.google.com/p/skia/source/detail?r=2056
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"""
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return '<a href="http://code.google.com/p/skia/source/detail?r=%s">%s</a>'%(
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revision_number, revision_number)
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def main():
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foo = [[0.0, 0.0], [0.0, 1.0], [0.0, 2.0], [0.0, 3.0]]
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LinearRegression(foo)
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if __name__ == "__main__":
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main()
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