from datetime import datetime from jfr_playoff.dto import coalesce from jfr_playoff.template import PlayoffTemplate from jfr_playoff.data import PlayoffData from jfr_playoff.logger import PlayoffLogger class PlayoffGenerator(object): def __init__(self, settings): self.data = PlayoffData(settings) self.page = settings.get('page') PlayoffLogger.get('generator').info( 'page settings: %s', self.page) self.canvas = {} if settings.has_section('canvas'): self.canvas = settings.get('canvas') PlayoffLogger.get('generator').info( 'canvas settings: %s', self.canvas) self.leaderboard_classes = {} if settings.has_section('position_styles'): self.leaderboard_classes = settings.get('position_styles') PlayoffLogger.get('generator').info( 'leaderboard classes settings: %s', self.leaderboard_classes) self.p_temp = PlayoffTemplate( settings.get('i18n') if settings.has_section('i18n') else {}) def generate_content(self): match_grid = self.get_match_grid( self.data.get_dimensions(), self.data.generate_phases(), self.data.fill_match_info()) leaderboard_table = self.get_leaderboard_table() return self.p_temp.get( 'PAGE', self.p_temp.get( 'PAGE_HEAD', self.p_temp.get( 'PAGE_HEAD_REFRESH', self.page['refresh']) \ if self.page['refresh'] > 0 else '', self.page['title']), self.p_temp.get( 'PAGE_BODY', self.page['logoh'], match_grid, self.get_swiss_links(), leaderboard_table, self.get_leaderboard_caption_table() if leaderboard_table else '', self.p_temp.get( 'PAGE_BODY_FOOTER', datetime.now().strftime('%Y-%m-%d o %H:%M:%S')))) def __get_team_label(self, team_name, template='MATCH_TEAM_LABEL'): if not self.page.get('predict_teams', None): # override template if team predictions are not enabled template = 'MATCH_TEAM_LABEL' return self.p_temp.get(template, team_name) def __shorten_labels(self, labels, limit, separator, ellipsis): if limit > 0: current_length = 0 shortened = [] for l in range(0, len(labels)): if current_length + len(labels[l]) > limit: # current label won't fit within limit, shorten it and stop shortened.append(labels[l][0:limit-current_length] + ellipsis) break else: # current label fits, add it to output shortened.append(labels[l]) current_length += len(labels[l]) if l < len(labels) - 1: # if it's not the last label, separator will be added # if it was the last label, next condition won't run and ellipsis won't be added current_length += len(separator) if current_length > limit: # if separator puts us over the limit, add ellipsis and stop shortened.append(ellipsis) break labels = shortened return labels def get_match_table(self, match): rows = '' for team in match.teams: # the easy part: team score cell score_html = self.p_temp.get('MATCH_SCORE', team.score) # the hard part begins here. team_label = [] # label is what's shown in the table cell label_separator = ' / ' team_name = [] # name is what's shown in the tooltip name_separator = '
' name_prefix = '  ' # prefix (indent) for team names in the tooltip if (team.known_teams == 0) and not self.page.get('predict_teams', False): # we've got no teams eligible for the match and the prediction option is disabled team_label = '' team_name = '' else: # predicted teams are not in team.name, they're in tem.possible_name so corresponding spots in team.name are empty is_label_predicted = [name is None for name in team.name] # fetch labels (shortnames) for teams in both lists labels = [self.data.get_shortname(name) if name else None for name in team.name] predicted_labels = [self.data.get_shortname(name) if name else None for name in team.possible_name] for l in range(0, len(labels)): if labels[l] is None: if self.page.get('predict_teams', False) and (len(predicted_labels) > l): # fill team labels with either predictions... labels[l] = predicted_labels[l] else: # ...or empty placeholders labels[l] = '??' # count how many teams are eligible (how many non-predicted teams are there) known_teams = len(is_label_predicted) - sum(is_label_predicted) # sort labels to move eligible teams in front of predicted teams # TODO: should this be optional? labels = [label for i, label in enumerate(labels) if not is_label_predicted[i]] \ + [label for i, label in enumerate(labels) if is_label_predicted[i]] if len([label for label in labels if label is not None]): # we have at least one known/predicted team for l in range(0, len(labels)): # fill any remaining empty labels (i.e. these which had empty predictions available) with placeholders labels[l] = coalesce(labels[l], '??') # shorten concatenated label to specified combined length labels = self.__shorten_labels(labels, self.page.get('label_length_limit', 0), label_separator, '(...)') for l in range(0, len(labels)): # concatenate labels, assigning appropriate classes to predicted teams team_label.append(self.__get_team_label( labels[l], 'MATCH_PREDICTED_TEAM_LABEL' if l >= known_teams else 'MATCH_TEAM_LABEL')) # team names for tooltip for name in team.name: if name: # every non-empty name gets some indentation team_name.append(name_prefix + name) if self.page.get('predict_teams', False): # remember where the list of eligible teams ends known_teams = len(team_name) for name in team.possible_name: # append predicted team names, with indentation as well if name: team_name.append(name_prefix + name) if len(team_name) != known_teams: # we've added some predicted team names, so we add a header team_name.insert(known_teams, self.p_temp.get('MATCH_POSSIBLE_TEAM_LIST_HEADER')) if (len(team_label) > 1) and (match.running == 0): # and we add a header for matches that haven't started yet and have multiple options for teams team_name.insert(0, self.p_temp.get('MATCH_TEAM_LIST_HEADER')) # glue it all together team_label = label_separator.join(team_label) team_name = name_separator.join(team_name) team_html = self.p_temp.get( 'MATCH_TEAM_LINK', match.link, team_name, team_label) \ if match.link is not None \ else self.p_temp.get( 'MATCH_TEAM_NON_LINK', team_name, team_label) rows += self.p_temp.get( 'MATCH_TEAM_ROW', ' '.join([ 'winner' if (match.winner is not None) and (match.winner in team.name) else '', 'loser' if (match.loser is not None) and (match.loser in team.name) else '' ]).strip(), team_html, self.p_temp.get( 'MATCH_LINK', match.link, score_html) \ if match.link is not None else score_html) html = self.p_temp.get( 'MATCH_TABLE', int(self.page['width'] * 0.7), int(self.page['width'] * 0.2), rows) if match.running > 0: running_html = self.p_temp.get('MATCH_RUNNING', match.running) html += self.p_temp.get('MATCH_LINK', match.link, running_html) if match.link is not None else running_html PlayoffLogger.get('generator').info( 'match table for #%d generated: %d bytes', match.id, len(html)) return html def get_phase_header(self, phase, position): grid_header = self.p_temp.get( 'MATCH_GRID_PHASE_RUNNING' if phase.running \ else 'MATCH_GRID_PHASE', phase.title) if phase.link is not None: return self.p_temp.get( 'MATCH_GRID_PHASE_LINK', phase.link, self.page['width'], position, grid_header) else: return self.p_temp.get( 'MATCH_GRID_PHASE_NON_LINK', self.page['width'], position, grid_header) def get_match_box(self, match, position): if match is not None: return self.p_temp.get( 'MATCH_BOX', position[0], position[1], match.id, ' '.join([ str(m) for m in match.winner_matches ]) if match.winner_matches is not None else '', ' '.join([ str(m) for m in match.loser_matches ]) if match.loser_matches is not None else '', self.get_match_table(match)) return '' def get_match_grid(self, dimensions, grid, matches): canvas_size = ( dimensions[0] * ( self.page['width'] + self.page['margin'] ) - self.page['margin'], dimensions[1] * ( self.page['height'] + self.page['margin'] ) - self.page['margin']) PlayoffLogger.get('generator').info( 'canvas size: %s', canvas_size) grid_boxes = '' col_no = 0 for phase in grid: grid_x = col_no * (self.page['width'] + self.page['margin']) grid_boxes += self.get_phase_header(phase, grid_x) match_height = canvas_size[1] / len(phase.matches) row_no = 0 for match in phase.matches: grid_y = self.page['margin'] / 2 if dimensions[1] == 1 else \ int(row_no * match_height + 0.5 * (match_height - self.page['height'])) PlayoffLogger.get('generator').info( 'grid box (%d, %d) position: (%d, %d)', col_no, row_no, grid_x, grid_y) grid_boxes += self.get_match_box( matches[match] if match is not None else None, (grid_x, grid_y)) row_no += 1 col_no += 1 return self.p_temp.get( 'MATCH_GRID', canvas_size[0], canvas_size[1], canvas_size[0], canvas_size[1], ' '.join(['data-%s="%s"' % ( setting.replace('_', '-'), str(value) ) for setting, value in self.canvas.iteritems()]), grid_boxes ) def get_leaderboard_row_class(self, position): classes = [] for style in self.leaderboard_classes: if position in style['positions']: classes.append(style['class']) return ' '.join(classes) def get_leaderboard_caption_table(self): rows = '' for style in self.leaderboard_classes: if 'caption' in style: rows += self.p_temp.get( 'LEADERBOARD_CAPTION_TABLE_ROW', style['class'], style['caption']) return self.p_temp.get('LEADERBOARD_CAPTION_TABLE', rows) if rows else '' def get_leaderboard_table(self): leaderboard = self.data.fill_leaderboard() if len([t for t in leaderboard if t is not None]) == 0: return '' position = 1 rows = '' for team in leaderboard: rows += self.p_temp.get( 'LEADERBOARD_ROW', self.get_leaderboard_row_class(position), position, self.get_flag(team), team or '') position += 1 html = self.p_temp.get('LEADERBOARD', rows) PlayoffLogger.get('generator').info( 'leaderboard HTML generated: %d bytes', len(html)) return html def get_swiss_links(self): info = [] for event in self.data.get_swiss_info(): event_label = self.p_temp.get('SWISS_DEFAULT_LABEL', event['position']) if event.get('label', None): event_label = event['label'] info.append((self.p_temp.get('SWISS_LINK', event['link'], event_label) \ if event['finished'] \ else self.p_temp.get( 'SWISS_RUNNING_LINK', event['link'], event_label))) html = '\n'.join(info) PlayoffLogger.get('generator').info( 'swiss HTML generated: %d bytes', len(html)) return html def get_flag(self, team): flag = self.data.get_team_image(team) return '' if flag is None else self.p_temp.get('LEADERBOARD_ROW_FLAG', flag)