import sys import time import numpy as np class ProgressBar(object): """progress bar """ def __init__(self, num=None, width=30, verbose=1, start=True, file=sys.stdout): self._num = num if isinstance(num, int) and num <= 0: raise TypeError('num should be None or integer (> 0)') max_width = self._get_max_width() self._width = width if width <= max_width else max_width self._total_width = 0 self._verbose = verbose self.file = file self._values = {} self._values_order = [] if start: self._start = time.time() self._last_update = 0 self._dynamic_display = ( (hasattr(self.file, 'isatty') and self.file.isatty()) or 'ipykernel' in sys.modules or 'posix' in sys.modules or 'PYCHARM_HOSTED' in os.environ) def _get_max_width(self): if sys.version_info > (3, 3): from shutil import get_terminal_size else: from backports.shutil_get_terminal_size import get_terminal_size terminal_width, _ = get_terminal_size() max_width = min(int(terminal_width * 0.6), terminal_width - 50) return max_width def start(self): self.file.flush() self._start = time.time() def update(self, current_num, values=None): now = time.time() if current_num: time_per_unit = (now - self._start) / current_num else: time_per_unit = 0 if time_per_unit >= 1 or time_per_unit == 0: fps = ' - %.0fs/%s' % (time_per_unit, 'step') elif time_per_unit >= 1e-3: fps = ' - %.0fms/%s' % (time_per_unit * 1e3, 'step') else: fps = ' - %.0fus/%s' % (time_per_unit * 1e6, 'step') info = '' if self._verbose == 1: prev_total_width = self._total_width if self._dynamic_display: sys.stdout.write('\b' * prev_total_width) sys.stdout.write('\r') else: sys.stdout.write('\n') if self._num is not None: numdigits = int(np.log10(self._num)) + 1 bar_chars = ('step %' + str(numdigits) + 'd/%d [') % ( current_num, self._num) prog = float(current_num) / self._num prog_width = int(self._width * prog) if prog_width > 0: bar_chars += ('=' * (prog_width - 1)) if current_num < self._num: bar_chars += '>' else: bar_chars += '=' bar_chars += ('.' * (self._width - prog_width)) bar_chars += ']' else: bar_chars = 'step %3d' % current_num self._total_width = len(bar_chars) sys.stdout.write(bar_chars) for k, val in values: info += ' - %s:' % k val = val if isinstance(val, list) else [val] for i, v in enumerate(val): if isinstance(v, (float, np.float32, np.float64)): if abs(v) > 1e-3: info += ' %.4f' % v else: info += ' %.4e' % v else: info += ' %s' % v if self._num is not None and current_num < self._num: eta = time_per_unit * (self._num - current_num) if eta > 3600: eta_format = '%d:%02d:%02d' % (eta // 3600, (eta % 3600) // 60, eta % 60) elif eta > 60: eta_format = '%d:%02d' % (eta // 60, eta % 60) else: eta_format = '%ds' % eta info += ' - ETA: %s' % eta_format info += fps self._total_width += len(info) if prev_total_width > self._total_width: info += (' ' * (prev_total_width - self._total_width)) # newline for another epoch if self._num is not None and current_num >= self._num: info += '\n' if self._num is None: info += '\n' sys.stdout.write(info) sys.stdout.flush() self._last_update = now elif self._verbose == 2: if self._num: numdigits = int(np.log10(self._num)) + 1 count = ('step %' + str(numdigits) + 'd/%d') % (current_num, self._num) else: count = 'step %3d' % current_num info = count + info for k, val in values: info += ' - %s:' % k val = val if isinstance(val, list) else [val] for v in val: if isinstance(v, (float, np.float32, np.float64)): if abs(v) > 1e-3: info += ' %.4f' % v else: info += ' %.4e' % v elif isinstance(v, np.ndarray) and \ v.size == 1 and \ isinstance(v.dtype, (np.float32, np.float64)): if abs(v[0]) > 1e-3: info += ' %.4f' % v[0] else: info += ' %.4e' % v[0] else: info += ' %s' % v info += fps info += '\n' sys.stdout.write(info) sys.stdout.flush()