##// END OF EJS Templates
Added VCS into rhodecode core for faster and easier deployments of new versions
Added VCS into rhodecode core for faster and easier deployments of new versions

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r2007:324ac367 beta
r2007:324ac367 beta
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progressbar.py
419 lines | 11.7 KiB | text/x-python | PythonLexer
Added VCS into rhodecode core for faster and easier deployments of new versions
r2007 # encoding: UTF-8
import sys
import datetime
from string import Template
from rhodecode.lib.vcs.utils.filesize import filesizeformat
from rhodecode.lib.vcs.utils.helpers import get_total_seconds
class ProgressBarError(Exception):
pass
class AlreadyFinishedError(ProgressBarError):
pass
class ProgressBar(object):
default_elements = ['percentage', 'bar', 'steps']
def __init__(self, steps=100, stream=None, elements=None):
self.step = 0
self.steps = steps
self.stream = stream or sys.stderr
self.bar_char = '='
self.width = 50
self.separator = ' | '
self.elements = elements or self.default_elements
self.started = None
self.finished = False
self.steps_label = 'Step'
self.time_label = 'Time'
self.eta_label = 'ETA'
self.speed_label = 'Speed'
self.transfer_label = 'Transfer'
def __str__(self):
return self.get_line()
def __iter__(self):
start = self.step
end = self.steps + 1
for x in xrange(start, end):
self.render(x)
yield x
def get_separator(self):
return self.separator
def get_bar_char(self):
return self.bar_char
def get_bar(self):
char = self.get_bar_char()
perc = self.get_percentage()
length = int(self.width * perc / 100)
bar = char * length
bar = bar.ljust(self.width)
return bar
def get_elements(self):
return self.elements
def get_template(self):
separator = self.get_separator()
elements = self.get_elements()
return Template(separator.join((('$%s' % e) for e in elements)))
def get_total_time(self, current_time=None):
if current_time is None:
current_time = datetime.datetime.now()
if not self.started:
return datetime.timedelta()
return current_time - self.started
def get_rendered_total_time(self):
delta = self.get_total_time()
if not delta:
ttime = '-'
else:
ttime = str(delta)
return '%s %s' % (self.time_label, ttime)
def get_eta(self, current_time=None):
if current_time is None:
current_time = datetime.datetime.now()
if self.step == 0:
return datetime.timedelta()
total_seconds = get_total_seconds(self.get_total_time())
eta_seconds = total_seconds * self.steps / self.step - total_seconds
return datetime.timedelta(seconds=int(eta_seconds))
def get_rendered_eta(self):
eta = self.get_eta()
if not eta:
eta = '--:--:--'
else:
eta = str(eta).rjust(8)
return '%s: %s' % (self.eta_label, eta)
def get_percentage(self):
return float(self.step) / self.steps * 100
def get_rendered_percentage(self):
perc = self.get_percentage()
return ('%s%%' % (int(perc))).rjust(5)
def get_rendered_steps(self):
return '%s: %s/%s' % (self.steps_label, self.step, self.steps)
def get_rendered_speed(self, step=None, total_seconds=None):
if step is None:
step = self.step
if total_seconds is None:
total_seconds = get_total_seconds(self.get_total_time())
if step <= 0 or total_seconds <= 0:
speed = '-'
else:
speed = filesizeformat(float(step) / total_seconds)
return '%s: %s/s' % (self.speed_label, speed)
def get_rendered_transfer(self, step=None, steps=None):
if step is None:
step = self.step
if steps is None:
steps = self.steps
if steps <= 0:
return '%s: -' % self.transfer_label
total = filesizeformat(float(steps))
if step <= 0:
transferred = '-'
else:
transferred = filesizeformat(float(step))
return '%s: %s / %s' % (self.transfer_label, transferred, total)
def get_context(self):
return {
'percentage': self.get_rendered_percentage(),
'bar': self.get_bar(),
'steps': self.get_rendered_steps(),
'time': self.get_rendered_total_time(),
'eta': self.get_rendered_eta(),
'speed': self.get_rendered_speed(),
'transfer': self.get_rendered_transfer(),
}
def get_line(self):
template = self.get_template()
context = self.get_context()
return template.safe_substitute(**context)
def write(self, data):
self.stream.write(data)
def render(self, step):
if not self.started:
self.started = datetime.datetime.now()
if self.finished:
raise AlreadyFinishedError
self.step = step
self.write('\r%s' % self)
if step == self.steps:
self.finished = True
if step == self.steps:
self.write('\n')
"""
termcolors.py
Grabbed from Django (http://www.djangoproject.com)
"""
color_names = ('black', 'red', 'green', 'yellow', 'blue', 'magenta', 'cyan', 'white')
foreground = dict([(color_names[x], '3%s' % x) for x in range(8)])
background = dict([(color_names[x], '4%s' % x) for x in range(8)])
RESET = '0'
opt_dict = {'bold': '1', 'underscore': '4', 'blink': '5', 'reverse': '7', 'conceal': '8'}
def colorize(text='', opts=(), **kwargs):
"""
Returns your text, enclosed in ANSI graphics codes.
Depends on the keyword arguments 'fg' and 'bg', and the contents of
the opts tuple/list.
Returns the RESET code if no parameters are given.
Valid colors:
'black', 'red', 'green', 'yellow', 'blue', 'magenta', 'cyan', 'white'
Valid options:
'bold'
'underscore'
'blink'
'reverse'
'conceal'
'noreset' - string will not be auto-terminated with the RESET code
Examples:
colorize('hello', fg='red', bg='blue', opts=('blink',))
colorize()
colorize('goodbye', opts=('underscore',))
print colorize('first line', fg='red', opts=('noreset',))
print 'this should be red too'
print colorize('and so should this')
print 'this should not be red'
"""
code_list = []
if text == '' and len(opts) == 1 and opts[0] == 'reset':
return '\x1b[%sm' % RESET
for k, v in kwargs.iteritems():
if k == 'fg':
code_list.append(foreground[v])
elif k == 'bg':
code_list.append(background[v])
for o in opts:
if o in opt_dict:
code_list.append(opt_dict[o])
if 'noreset' not in opts:
text = text + '\x1b[%sm' % RESET
return ('\x1b[%sm' % ';'.join(code_list)) + text
def make_style(opts=(), **kwargs):
"""
Returns a function with default parameters for colorize()
Example:
bold_red = make_style(opts=('bold',), fg='red')
print bold_red('hello')
KEYWORD = make_style(fg='yellow')
COMMENT = make_style(fg='blue', opts=('bold',))
"""
return lambda text: colorize(text, opts, **kwargs)
NOCOLOR_PALETTE = 'nocolor'
DARK_PALETTE = 'dark'
LIGHT_PALETTE = 'light'
PALETTES = {
NOCOLOR_PALETTE: {
'ERROR': {},
'NOTICE': {},
'SQL_FIELD': {},
'SQL_COLTYPE': {},
'SQL_KEYWORD': {},
'SQL_TABLE': {},
'HTTP_INFO': {},
'HTTP_SUCCESS': {},
'HTTP_REDIRECT': {},
'HTTP_NOT_MODIFIED': {},
'HTTP_BAD_REQUEST': {},
'HTTP_NOT_FOUND': {},
'HTTP_SERVER_ERROR': {},
},
DARK_PALETTE: {
'ERROR': { 'fg': 'red', 'opts': ('bold',) },
'NOTICE': { 'fg': 'red' },
'SQL_FIELD': { 'fg': 'green', 'opts': ('bold',) },
'SQL_COLTYPE': { 'fg': 'green' },
'SQL_KEYWORD': { 'fg': 'yellow' },
'SQL_TABLE': { 'opts': ('bold',) },
'HTTP_INFO': { 'opts': ('bold',) },
'HTTP_SUCCESS': { },
'HTTP_REDIRECT': { 'fg': 'green' },
'HTTP_NOT_MODIFIED': { 'fg': 'cyan' },
'HTTP_BAD_REQUEST': { 'fg': 'red', 'opts': ('bold',) },
'HTTP_NOT_FOUND': { 'fg': 'yellow' },
'HTTP_SERVER_ERROR': { 'fg': 'magenta', 'opts': ('bold',) },
},
LIGHT_PALETTE: {
'ERROR': { 'fg': 'red', 'opts': ('bold',) },
'NOTICE': { 'fg': 'red' },
'SQL_FIELD': { 'fg': 'green', 'opts': ('bold',) },
'SQL_COLTYPE': { 'fg': 'green' },
'SQL_KEYWORD': { 'fg': 'blue' },
'SQL_TABLE': { 'opts': ('bold',) },
'HTTP_INFO': { 'opts': ('bold',) },
'HTTP_SUCCESS': { },
'HTTP_REDIRECT': { 'fg': 'green', 'opts': ('bold',) },
'HTTP_NOT_MODIFIED': { 'fg': 'green' },
'HTTP_BAD_REQUEST': { 'fg': 'red', 'opts': ('bold',) },
'HTTP_NOT_FOUND': { 'fg': 'red' },
'HTTP_SERVER_ERROR': { 'fg': 'magenta', 'opts': ('bold',) },
}
}
DEFAULT_PALETTE = DARK_PALETTE
# ---------------------------- #
# --- End of termcolors.py --- #
# ---------------------------- #
class ColoredProgressBar(ProgressBar):
BAR_COLORS = (
(10, 'red'),
(30, 'magenta'),
(50, 'yellow'),
(99, 'green'),
(100, 'blue'),
)
def get_line(self):
line = super(ColoredProgressBar, self).get_line()
perc = self.get_percentage()
if perc > 100:
color = 'blue'
for max_perc, color in self.BAR_COLORS:
if perc <= max_perc:
break
return colorize(line, fg=color)
class AnimatedProgressBar(ProgressBar):
def get_bar_char(self):
chars = '-/|\\'
if self.step >= self.steps:
return '='
return chars[self.step % len(chars)]
class BarOnlyProgressBar(ProgressBar):
default_elements = ['bar', 'steps']
def get_bar(self):
bar = super(BarOnlyProgressBar, self).get_bar()
perc = self.get_percentage()
perc_text = '%s%%' % int(perc)
text = (' %s%% ' % (perc_text)).center(self.width, '=')
L = text.find(' ')
R = text.rfind(' ')
bar = ' '.join((bar[:L], perc_text, bar[R:]))
return bar
class AnimatedColoredProgressBar(AnimatedProgressBar,
ColoredProgressBar):
pass
class BarOnlyColoredProgressBar(ColoredProgressBar,
BarOnlyProgressBar):
pass
def main():
import time
print "Standard progress bar..."
bar = ProgressBar(30)
for x in xrange(1, 31):
bar.render(x)
time.sleep(0.02)
bar.stream.write('\n')
print
print "Empty bar..."
bar = ProgressBar(50)
bar.render(0)
print
print
print "Colored bar..."
bar = ColoredProgressBar(20)
for x in bar:
time.sleep(0.01)
print
print "Animated char bar..."
bar = AnimatedProgressBar(20)
for x in bar:
time.sleep(0.01)
print
print "Animated + colored char bar..."
bar = AnimatedColoredProgressBar(20)
for x in bar:
time.sleep(0.01)
print
print "Bar only ..."
bar = BarOnlyProgressBar(20)
for x in bar:
time.sleep(0.01)
print
print "Colored, longer bar-only, eta, total time ..."
bar = BarOnlyColoredProgressBar(40)
bar.width = 60
bar.elements += ['time', 'eta']
for x in bar:
time.sleep(0.01)
print
print
print "File transfer bar, breaks after 2 seconds ..."
total_bytes = 1024 * 1024 * 2
bar = ProgressBar(total_bytes)
bar.width = 50
bar.elements.remove('steps')
bar.elements += ['transfer', 'time', 'eta', 'speed']
for x in xrange(0, bar.steps, 1024):
bar.render(x)
time.sleep(0.01)
now = datetime.datetime.now()
if now - bar.started >= datetime.timedelta(seconds=2):
break
print
print
if __name__ == '__main__':
main()