mirror of
https://github.com/ultravideo/uvg266.git
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432 lines
12 KiB
Python
432 lines
12 KiB
Python
"""
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/*****************************************************************************
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* This file is part of uvg266 VVC encoder.
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*
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* Copyright (c) 2021, Tampere University, ITU/ISO/IEC, project contributors
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without modification,
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* are permitted provided that the following conditions are met:
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*
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* * Redistributions of source code must retain the above copyright notice, this
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* list of conditions and the following disclaimer.
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*
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* * Redistributions in binary form must reproduce the above copyright notice, this
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* list of conditions and the following disclaimer in the documentation and/or
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* other materials provided with the distribution.
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*
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* * Neither the name of the Tampere University or ITU/ISO/IEC nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
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* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
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* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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****************************************************************************/
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"""
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import numpy as np
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import matplotlib.pyplot as plt
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import re, weakref
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class LogJob:
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def __init__(self, worker_id, enqueue, start, stop, dequeue, description, is_thread_job=True):
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self._worker_id = worker_id
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self._enqueue = enqueue
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self._start = start
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self._stop = stop
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self._dequeue = dequeue
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self._description = description
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self._is_thread_job = is_thread_job
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self._depends = []
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self._rdepends = []
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def add_dependency_on(self, o):
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self._depends.append(weakref.proxy(o))
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o._rdepends.append(weakref.proxy(self))
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def remove_offset(self, offset):
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if self._enqueue is not None:
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self._enqueue -= offset
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self._start -= offset
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self._stop -= offset
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if self._dequeue is not None:
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self._dequeue -= offset
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def get_min_offset(self):
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return min([x for x in [self._enqueue, self._start, self._stop, self._dequeue] if x is not None])
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def _get_properties(self):
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return dict([x.split('=',1) for x in self._description.split(',')])
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def _position_from_str(self, s):
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if re.match('^[0-9]+$', s):
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return int(s)
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else:
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v = [float(x) for x in s.split('-', 1)]
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return (v[0] + v[1]) / 2
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def _height_from_str(self, s):
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if self._is_thread_job:
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diff = 0.2
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else:
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diff = 0.4
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if re.match('^[0-9]+$', s):
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return 1.0 - diff
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else:
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v = [float(x) for x in s.split('-', 1)]
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return (max(v) - min(v) + 1) - diff
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def height(self):
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desc = self._get_properties()
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if 'row' in desc:
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return self._height_from_str(desc['row'])
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elif 'position_y' in desc:
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return self._height_from_str(desc['position_y'])
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else:
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if self._is_thread_job:
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return 0.8
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else:
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return 0.6
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def position_y(self):
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desc = self._get_properties()
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if 'row' in desc:
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return self._position_from_str(desc['row'])
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elif 'position_y' in desc:
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return self._position_from_str(desc['position_y'])
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else:
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return -1
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class LogFlush:
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def __init__(self, when):
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self._when = when
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def remove_offset(self, offset):
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self._when -= offset
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def get_min_offset(self):
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return self._when
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class LogThread:
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def __init__(self, worker_id, start, stop):
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self._worker_id = worker_id
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self._start = start
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self._stop = stop
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def remove_offset(self, offset):
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self._start -= offset
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self._stop -= offset
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def get_min_offset(self):
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return min([self._start, self._stop])
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def plot(self, ax, i):
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ax.barh(i, self._stop - self._start, left=self._start, height=0.9, align='center',label="test", color='yellow')
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class IntervalThreadCounter:
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def __init__(self):
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self.interval_starts = []
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self.interval_stops = []
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def add_interval(self, start, stop):
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self.interval_starts.append(start)
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self.interval_stops.append(stop)
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self.interval_starts.sort()
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self.interval_stops.sort()
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def get_values_xd(self):
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#Double the first and the last items
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xds = sorted([(x,'+') for x in self.interval_starts] + [(x,'-') for x in self.interval_stops])
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return xds
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def get_values_x(self):
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xs = []
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for x in self.get_values_xd():
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xs.append(x[0])
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xs.append(x[0])
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return xs
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def get_values_y(self):
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xds = self.get_values_xd()
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ys = []
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counter = 0
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for xd in xds:
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ys.append(counter)
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if xd[1] == '+':
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counter += 1
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elif xd[1] == '-':
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counter -= 1
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else:
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assert False
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ys.append(counter)
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return ys
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def clamp(self, v, minval, maxval):
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if v < minval:
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return minval
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if v > maxval:
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return maxval
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return v
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def get_values_uniform_xy(self, kernel_size, steps):
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kernel_size=float(kernel_size)
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xchs = self.get_values_x()
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ychs = self.get_values_y()
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minval = xchs[0] - kernel_size
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maxval = xchs[-1] + kernel_size
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pos = minval
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xvalues = []
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yvalues = []
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while pos < maxval:
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value = 0
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for i in range(1,len(xchs)-1):
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if xchs[i] < pos - kernel_size:
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continue
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v1 = self.clamp(xchs[i-1], pos - kernel_size/2., pos+kernel_size/2.)
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v2 = self.clamp(xchs[i], pos - kernel_size/2., pos+kernel_size/2.)
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diff=v2-v1
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value += diff*ychs[i]/kernel_size
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if xchs[i] > pos + kernel_size:
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break
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xvalues.append(pos)
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yvalues.append(value)
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pos += kernel_size/steps
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return xvalues, yvalues
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class LogParser:
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def _parse_time(self, base, sign, value):
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if sign == '+':
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return base + float(value)
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else:
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return float(value)
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def __init__(self, filename):
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re_thread = re.compile(r'^\t([0-9]+)\t-\t([0-9\.]+)\t(\+?)([0-9\.]+)\t-\tthread$')
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re_job = re.compile(r'^([^\t]+)\t([0-9]+)\t([0-9\.]+)\t(\+?)([0-9\.]+)\t(\+?)([0-9\.]+)\t(\+?)([0-9\.]+)\t(.*)$')
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re_dep = re.compile(r'^(.+)->(.+)$')
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re_flush = re.compile(r'^\t\t-\t-\t([0-9\.]+)\t-\tFLUSH$')
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re_other_perf = re.compile(r'^\t([0-9]*)\t-\t([0-9\.]+)\t(\+?)([0-9\.]*)\t-\t(.*)$')
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objects_cache = {}
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deps_cache = []
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objects = []
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threads = {}
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for line in open(filename,'r').readlines():
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m = re_thread.match(line)
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if m:
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g = m.groups()
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thread_id = int(g[0])
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start = self._parse_time(0, '', g[1])
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stop = self._parse_time(start, g[2], g[3])
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threads[thread_id] = LogThread(thread_id, start, stop)
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continue
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m = re_flush.match(line)
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if m:
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g = m.groups()
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when = self._parse_time(0, '', g[0])
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objects.append(LogFlush(when))
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for g in deps_cache:
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objects_cache[g[1]].add_dependency_on(objects_cache[g[0]])
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#clear object cache
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objects_cache = {}
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deps_cache = []
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continue
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m = re_job.match(line)
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if m:
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g = m.groups()
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worker_id = int(g[1])
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enqueue = self._parse_time(0, '', g[2])
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start = self._parse_time(enqueue, g[3], g[4])
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stop = self._parse_time(start, g[5], g[6])
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dequeue = self._parse_time(stop, g[7], g[8])
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description = g[9]
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value = LogJob(worker_id, enqueue, start, stop, dequeue, description)
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objects.append(value)
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objects_cache[g[0]] = value
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continue
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m = re_dep.match(line)
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if m:
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g = m.groups()
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deps_cache.append((g[0],g[1]))
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continue
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m = re_other_perf.match(line)
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if m:
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g = m.groups()
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if g[0] == '':
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worker_id = None
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else:
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worker_id = int(g[0])
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start = self._parse_time(0, '', g[1])
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stop = self._parse_time(start, g[2], g[3])
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objects.append(LogJob(worker_id, None, start, stop, None, g[4], False))
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continue
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raise ValueError("Unknown line:", line)
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assert len(threads) + len(objects) > 0
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self._threads = threads
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self._objects = objects
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#Remove offsets
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offset = min([x.get_min_offset() for x in self._threads.values()] + [x.get_min_offset() for x in self._objects])
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for x in self._threads.values() + self._objects:
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x.remove_offset(offset)
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def plot_threads(self):
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fig = plt.figure()
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ax=fig.gca()
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yticks = {}
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for k in sorted(self._threads.keys()):
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v = self._threads[k]
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v.plot(ax, -k)
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yticks[-k] = 'Thread {0}'.format(k)
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for o in self._objects:
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if isinstance(o, LogJob):
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ax.barh(-o._worker_id, o._stop - o._start, left=o._start, height=0.8, align='center',label="test", color='green')
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if isinstance(o, LogFlush):
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ax.axvline(o._when)
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for o in self._objects:
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if isinstance(o, LogJob):
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for o2 in o._depends:
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ax.plot([o2._stop, o._start], [-o2._worker_id, -o._worker_id], linewidth=2, color='r')
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plt.yticks( yticks.keys(), yticks.values() )
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fig.show()
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plt.show()
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def get_color(self, i, is_thread_job=True):
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if i is None:
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return 'w'
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if is_thread_job:
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color_keys = ['#ff0000', '#00ff00', '#0000ff', '#ffff00', '#ff00ff', '#00ffff']
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else:
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color_keys = ['#ffaaaa', '#aaffaa', '#aaaaff', '#ffffaa', '#ffaaff', '#aaffff']
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return color_keys[i%len(color_keys)]
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def plot_picture_wise_wpp(self):
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fig = plt.figure()
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ax=fig.gca()
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yticks = {}
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#first draw usage
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itc = IntervalThreadCounter()
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for o in self._objects:
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if isinstance(o, LogJob) and o._is_thread_job:
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itc.add_interval(o._start, o._stop)
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#exact plot
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ax.plot(itc.get_values_x(), [y+1.5 for y in itc.get_values_y()])
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vx,vy = itc.get_values_uniform_xy(0.01,10)
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ax.plot(vx, [y+1.5 for y in vy], 'r')
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for y in set(itc.get_values_y()):
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yticks[y+1.5] = '{0}'.format(y)
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#first draw threads
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for o in self._objects:
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if isinstance(o, LogJob) and o._is_thread_job:
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y = o.position_y()
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height = o.height()
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ax.barh(-y, o._stop - o._start, left=o._start, height=height, align='center', color=self.get_color(o._worker_id))
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if y % 1 <= 0.0001:
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yticks[int(-y)]= int(y)
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#then jobs
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for o in self._objects:
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if isinstance(o, LogJob) and not o._is_thread_job:
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y = o.position_y()
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height = o.height()
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ax.barh(-y, o._stop - o._start, left=o._start, height=height, align='center', color=self.get_color(o._worker_id, False))
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if y % 1 <= 0.0001:
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yticks[int(-y)]= int(y)
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for o in self._objects:
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if isinstance(o, LogJob):
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for o2 in o._depends:
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ax.plot([o2._stop, o._start], [-int(o2.position_y()), -int(o.position_y())] , linewidth=1, color='k')
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for y in yticks.keys():
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if y<1.5:
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ax.axhline(y+0.5, color='k')
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if y - 1 not in yticks.keys():
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ax.axhline(y-0.5, color='k')
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else:
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ax.axhline(y, color='k', linestyle='dotted')
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if y == 1:
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yticks[y] = "None"
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plt.yticks( yticks.keys(), yticks.values() )
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for o in self._objects:
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if isinstance(o, LogFlush):
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ax.axvline(o._when)
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ax.set_xlabel("Time [s]")
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ax.set_ylabel("LCU y coordinate")
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fig.show()
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plt.show()
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def plot_animation(self):
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pass
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if __name__ == '__main__':
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import sys
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if len(sys.argv) > 1:
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l = LogParser(sys.argv[1])
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else:
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l = LogParser('threadqueue.log')
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l.plot_picture_wise_wpp()
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#l.plot_threads()
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