目录
Timer
用法
效果
TimerFps
用法
效果
以下工具类代码来自开源项目pyslam。
import cv2
class Colors(object):
'''
Colors class:reset all colors with colors.reset; two
sub classes fg for foreground
and bg for background; use as colors.subclass.colorname.
i.e. colors.fg.red or colors.bg.greenalso, the generic bold, disable,
underline, reverse, strike through,
and invisible work with the main class i.e. colors.bold
'''
reset='\033[0m'
bold='\033[01m'
disable='\033[02m'
underline='\033[04m'
reverse='\033[07m'
strikethrough='\033[09m'
invisible='\033[08m'
class fg:
black='\033[30m'
red='\033[31m'
green='\033[32m'
orange='\033[33m'
blue='\033[34m'
purple='\033[35m'
cyan='\033[36m'
lightgrey='\033[37m'
darkgrey='\033[90m'
lightred='\033[91m'
lightgreen='\033[92m'
yellow='\033[93m'
lightblue='\033[94m'
pink='\033[95m'
lightcyan='\033[96m'
class bg:
black='\033[40m'
red='\033[41m'
green='\033[42m'
orange='\033[43m'
blue='\033[44m'
purple='\033[45m'
cyan='\033[46m'
lightgrey='\033[47m'
class Printer(object):
@staticmethod
def red(*args, **kwargs):
print(Colors.fg.red, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def green(*args, **kwargs):
print(Colors.fg.green, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def blue(*args, **kwargs):
print(Colors.fg.blue, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def cyan(*args, **kwargs):
print(Colors.fg.cyan, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def orange(*args, **kwargs):
print(Colors.fg.orange, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def purple(*args, **kwargs):
print(Colors.fg.purple, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def yellow(*args, **kwargs):
print(Colors.fg.yellow, *args, **kwargs)
print(Colors.reset, end="")
@staticmethod
def error(*args, **kwargs):
print(Colors.fg.red, *args, **kwargs, file=sys.stderr)
print(Colors.reset, end="")
#timer_print = print
timer_print = Printer.cyan
class Timer:
def __init__(self, name = '', is_verbose = False):
self._name = name
self._is_verbose = is_verbose
self._is_paused = False
self._start_time = None
self._accumulated = 0
self._elapsed = 0
self.start()
def start(self):
self._accumulated = 0
self._start_time = cv2.getTickCount()
def pause(self):
now_time = cv2.getTickCount()
self._accumulated += (now_time - self._start_time)/cv2.getTickFrequency()
self._is_paused = True
def resume(self):
if self._is_paused: # considered only if paused
self._start_time = cv2.getTickCount()
self._is_paused = False
def elapsed(self):
if self._is_paused:
self._elapsed = self._accumulated
else:
now = cv2.getTickCount()
self._elapsed = self._accumulated + (now - self._start_time)/cv2.getTickFrequency()
if self._is_verbose is True:
name = self._name
if self._is_paused:
name += ' [paused]'
message = 'Timer::' + name + ' - elapsed: ' + str(self._elapsed)
timer_print(message)
return self._elapsed
import Timer
timer = Timer(is_verbose=True)
timer.start()
# 此处是你的代码
timer.elapsed()
在上面的基础上,再加上下面代码段:
import os
import numpy as np
import cv2
import math
class MovingAverage:
def __init__(self, average_width = 10, compute_sigma = False):
self._average_width = average_width
self._idx_ring = 0
self._average = 0
self._sigma2 = 0
self._is_init = False
self._is_compute_sigma = compute_sigma
self._one_over_average_width_min_one = 1./(average_width-1)
self._ring_buffer = np.zeros(average_width)
def init(self, initVal=None):
if initVal is None:
initVal = 0.
self._ring_buffer = np.full(self._average_width, initVal, dtype=np.float32)
self._average = initVal;
self._sigma2 = 0;
self._is_init = True;
def getAverage(self, new_val=None):
if not self._is_init:
self.init(new_val)
if new_val is None:
return self._average
averageOld = self._average
oldVal = self._ring_buffer[self._idx_ring]
self._average += (new_val - oldVal)/self._average_width
if self._is_compute_sigma:
self._sigma2 = self._sigma2 + self._one_over_average_width_min_one*(self._average_width*(averageOld*averageOld - self._average*self._average) - oldVal*oldVal + newVal*newVal)
self._ring_buffer[self._idx_ring] = new_val
self._idx_ring = (self._idx_ring + 1) % self._average_width
return self._average
def getSigma(self):
return math.sqrt(max(self._sigma2,0.))
class TimerFps(Timer):
def __init__(self, name='', average_width = 10, is_verbose = True):
super().__init__(name, is_verbose)
self.moving_average = MovingAverage(average_width)
def refresh(self):
elapsed = self.elapsed()
self.moving_average.getAverage(elapsed)
self.start()
if self._is_verbose is True:
dT = self.moving_average.getAverage()
name = self._name
if self._is_paused:
name += ' [paused]'
message = 'Timer::' + name + ' - fps: ' + str(1./dT) + ', T: ' + str(dT)
timer_print(message)
import TimerFps
timer = TimerFps(name='')
timer.start()
# 这里是你的代码
timer.refresh()