from datetime import datetime import jfr_playoff.template as p_temp from jfr_playoff.data import PlayoffData class PlayoffGenerator(object): def __init__(self, settings): self.data = PlayoffData(settings) self.page = settings.get('page') self.canvas = {} if settings.has_section('canvas'): self.canvas = settings.get('canvas') def generate_content(self): return p_temp.PAGE % ( p_temp.PAGE_HEAD % ( p_temp.PAGE_HEAD_REFRESH % ( self.page['refresh']) if self.page['refresh'] > 0 else '', self.page['title']), p_temp.PAGE_BODY % ( self.page['logoh'], self.get_match_grid( self.data.get_dimensions(), self.data.generate_phases(), self.data.fill_match_info()), self.get_leaderboard_table(self.data.fill_leaderboard()), p_temp.PAGE_BODY_FOOTER.decode('utf8') % ( datetime.now().strftime('%Y-%m-%d o %H:%M')))) def get_match_table(self, match): rows = '' for team in match.teams: rows += p_temp.MATCH_TEAM_ROW % ( ' '.join([ 'winner' if team.name == match.winner else '', 'loser' if team.name == match.loser else '' ]).strip(), match.link, team.name, ' / '.join([ self.data.get_shortname(name) for name in team.name.split('
')]), match.link, team.score) html = p_temp.MATCH_TABLE.decode('utf8') % ( int(self.page['width'] * 0.75), int(self.page['width'] * 0.25), rows) if match.running > 0: html += p_temp.MATCH_RUNNING % (match.link, match.running) return html def get_phase_header(self, phase, position): if phase.running: grid_header = p_temp.MATCH_GRID_PHASE_RUNNING else: grid_header = p_temp.MATCH_GRID_PHASE return grid_header % ( phase.link, self.page['width'], position, phase.title) def get_match_box(self, match, position): if match is not None: return p_temp.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']) 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 = int(row_no * match_height + 0.5 * (match_height - self.page['height'])) 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 p_temp.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_table(self, leaderboard): if len([t for t in leaderboard if t is not None]) == 0: return '' position = 1 rows = '' for team in leaderboard: rows += p_temp.LEADERBOARD_ROW % ( position, self.get_flag(team), team or '') position += 1 html = p_temp.LEADERBOARD.decode('utf8') % (rows) return html def get_flag(self, team): flag = self.data.get_team_image(team) return '' if flag is None else p_temp.LEADERBOARD_ROW_FLAG % (flag)