##// END OF EJS Templates
mysql indexed keys cannot be larger thatn 256 chars, but 250 is enough for this purpose
mysql indexed keys cannot be larger thatn 256 chars, but 250 is enough for this purpose

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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()