From: Jan D. Behrens Date: Thu, 23 Aug 2012 20:01:04 +0000 (+0200) Subject: Re-implemented the badges generator, now it uses the cairo API for rendering. X-Git-Url: https://git.rm.cloudns.org/?a=commitdiff_plain;h=8a9e7eb9a2f21fea4a37b2d95ae0a9ed97b590ee;p=xonotic%2Fxonstat.git Re-implemented the badges generator, now it uses the cairo API for rendering. Rendering one image takes about 0.2 sec, including the DB queries for each player. --- diff --git a/xonstat/batch/badges/gen_badges.py b/xonstat/batch/badges/gen_badges.py index 4985562..fdb4744 100644 --- a/xonstat/batch/badges/gen_badges.py +++ b/xonstat/batch/badges/gen_badges.py @@ -1,36 +1,379 @@ +#-*- coding: utf-8 -*- + +import cairo as C +import sqlalchemy as sa +import sqlalchemy.sql.functions as func +from datetime import datetime from mako.template import Template from os import system from pyramid.paster import bootstrap from xonstat.models import * from xonstat.views.player import player_info_data +from xonstat.util import qfont_decode +from colorsys import rgb_to_hls, hls_to_rgb + + +# similar to html_colors() from util.py +_contrast_threshold = 0.5 + +_dec_colors = [ (0.5,0.5,0.5), + (1.0,0.0,0.0), + (0.2,1.0,0.0), + (1.0,1.0,0.0), + (0.2,0.4,1.0), + (0.2,1.0,1.0), + (1.0,0.2,102), + (1.0,1.0,1.0), + (0.6,0.6,0.6), + (0.5,0.5,0.5) + ] + + +# parameters to affect the output, could be changed via URL +params = { + 'width': 560, + 'height': 70, + 'bg': 1, # 0 - black, 1 - dark_wall + 'font': 0, # 0 - xolonium, 1 - dejavu sans + 'gametypes': ['duel','dm','ctf'], # up to three gametypes to show +} + + +# maximal number of query results (for testing, set to 0 to get all) +NUM_PLAYERS = 100 + + +def get_data(player): + """Return player data as dict. + + This function is similar to the function in player.py but more optimized + for this purpose. + """ + + # total games + # wins/losses + # kills/deaths + # duel/dm/tdm/ctf elo + rank + + player_id = player.player_id + + total_stats = {} + + games_played = DBSession.query( + Game.game_type_cd, func.count(), func.sum(PlayerGameStat.alivetime)).\ + filter(Game.game_id == PlayerGameStat.game_id).\ + filter(PlayerGameStat.player_id == player_id).\ + group_by(Game.game_type_cd).\ + order_by(func.count().desc()).\ + all() + + total_stats['games'] = 0 + total_stats['games_breakdown'] = {} # this is a dictionary inside a dictionary .. dictception? + total_stats['games_alivetime'] = {} + for (game_type_cd, games, alivetime) in games_played: + total_stats['games'] += games + total_stats['games_breakdown'][game_type_cd] = games + total_stats['games_alivetime'][game_type_cd] = alivetime + + (total_stats['kills'], total_stats['deaths'], total_stats['suicides'], + total_stats['alivetime'],) = DBSession.query( + func.sum(PlayerGameStat.kills), + func.sum(PlayerGameStat.deaths), + func.sum(PlayerGameStat.suicides), + func.sum(PlayerGameStat.alivetime)).\ + filter(PlayerGameStat.player_id == player_id).\ + one() + + (total_stats['wins'],) = DBSession.query( + func.count("*")).\ + filter(Game.game_id == PlayerGameStat.game_id).\ + filter(PlayerGameStat.player_id == player_id).\ + filter(Game.winner == PlayerGameStat.team or PlayerGameStat.rank == 1).\ + one() + + ranks = DBSession.query("game_type_cd", "rank", "max_rank").\ + from_statement( + "select pr.game_type_cd, pr.rank, overall.max_rank " + "from player_ranks pr, " + "(select game_type_cd, max(rank) max_rank " + "from player_ranks " + "group by game_type_cd) overall " + "where pr.game_type_cd = overall.game_type_cd " + "and player_id = :player_id " + "order by rank").\ + params(player_id=player_id).all() + + ranks_dict = {} + for gtc,rank,max_rank in ranks: + ranks_dict[gtc] = (rank, max_rank) + + elos = DBSession.query(PlayerElo).\ + filter_by(player_id=player_id).\ + order_by(PlayerElo.elo.desc()).\ + all() + + elos_dict = {} + for elo in elos: + if elo.games > 32: + elos_dict[elo.game_type_cd] = elo.elo + + data = { + 'player':player, + 'total_stats':total_stats, + 'ranks':ranks_dict, + 'elos':elos_dict, + } + + #print data + return data + + +def render_image(data): + """Render an image from the given data fields.""" + + width, height = params['width'], params['height'] + output = "output/%s.png" % data['player'].player_id + + font = "Xolonium" + if params['font'] == 1: + font = "DejaVu Sans" + + + ## create background + + surf = C.ImageSurface(C.FORMAT_RGB24, width, height) + ctx = C.Context(surf) + + # draw background (just plain fillcolor) + if params['bg'] == 0: + ctx.rectangle(0, 0, 1, 1); + ctx.set_source_rgba(0.2, 0.2, 0.2, 1.0); + ctx.fill(); + + # draw background image (try to get correct tiling, too) + if params['bg'] > 0: + bg = None + if params['bg'] == 1: + bg = C.ImageSurface.create_from_png("img/dark_wall.png"); + + if bg: + bg_w, bg_h = bg.get_width(), bg.get_height() + bg_xoff = 0 + while bg_xoff < width: + bg_yoff = 0 + while bg_yoff < height: + ctx.set_source_surface(bg, bg_xoff, bg_yoff); + ctx.paint() + bg_yoff += bg_h + bg_xoff += bg_w + + + ## draw player's nickname with fancy colors + + # fontsize is reduced if width gets too large - TODO: needs finetuning + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(18) + xoff, yoff, tw, th = ctx.text_extents(player.stripped_nick)[:4] + if tw > 340: + ctx.set_font_size(16) + xoff, yoff, tw, th = ctx.text_extents(player.stripped_nick)[:4] + if tw > 340: + ctx.set_font_size(14) + + # split up nick into colored segments and draw each of them + qstr = qfont_decode(player.nick).replace('^^', '^') + txt_xoff = 0 + txt_xpos, txt_ypos = 5,18 + for txt in qstr.split('^'): + try: + if txt.startswith('x'): + r = int(txt[1] * 2, 16) / 255.0 + g = int(txt[2] * 2, 16) / 255.0 + b = int(txt[3] * 2, 16) / 255.0 + hue, light, satur = rgb_to_hls(r, g, b) + if light < _contrast_threshold: + light = _contrast_threshold + r, g, b = hls_to_rgb(hue, light, satur) + txt = txt[4:] + else: + r,g,b = _dec_colors[int(txt[0])] + txt = txt[1:] + except: + r,g,b = _dec_colors[7] + + if len(txt) < 1: + # only colorcode and no real text, skip this + continue + + ctx.set_source_rgb(r, g, b) + ctx.move_to(txt_xpos + txt_xoff, txt_ypos) + ctx.show_text(txt) + + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + if tw == 0: + # only whitespaces, use some extra space + tw += 5*len(txt) + + txt_xoff += tw + 1 + + ## print elos and ranks + + elos = data["elos"] + ranks = data["ranks"] + games_x, games_y = 60,35 + games_w = 110 # width of each gametype field + + for gt in params['gametypes']: + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(10) + ctx.set_source_rgb(1.0, 1.0, 1.0) + txt = "[ %s ]" % gt.upper() + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(games_x-xoff-tw/2,games_y-yoff-th/2) + ctx.show_text(txt) + + ctx.set_line_width(1) + ctx.move_to(games_x-games_w/2+5, games_y+8); + ctx.line_to(games_x+games_w/2-5, games_y+8); + ctx.stroke() + ctx.move_to(games_x-games_w/2+5, games_y+32); + ctx.line_to(games_x+games_w/2-5, games_y+32); + ctx.stroke() + + if not elos.has_key(gt) or not ranks.has_key(gt): + ctx.select_font_face(font, C.FONT_SLANT_ITALIC, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(10) + ctx.set_source_rgb(0.7, 0.7, 0.7) + txt = "(no stats yet!)" + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(games_x-xoff-tw/2,games_y+22-yoff-th/2) + ctx.show_text(txt) + else: + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(10) + ctx.set_source_rgb(1.0, 1.0, 1.0) + txt = "Elo: %.0f" % round(elos[gt], 0) + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(games_x-xoff-tw/2,games_y+15-yoff-th/2) + ctx.show_text(txt) + + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(8) + ctx.set_source_rgb(0.7, 0.7, 0.7) + txt = "Rank %d of %d" % ranks[gt] + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(games_x-xoff-tw/2,games_y+25-yoff-th/2) + ctx.show_text(txt) + + games_x += games_w + + + # print win percentage + total_stats = data['total_stats'] + total_games = total_stats['games'] + win_x, win_y = 500,18 + + if total_games > 0 and total_stats['wins'] is not None: + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(9) + ctx.set_source_rgb(0.5, 0.5, 0.5) + txt = "Win Percentage" + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(win_x-xoff-tw/2,win_y-yoff-th/2) + ctx.show_text(txt) + + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_BOLD) + ctx.set_font_size(12) + ctx.set_source_rgb(1.0, 1.0, 1.0) + txt = "%.2f%%" % round(float(total_stats['wins'])/total_games * 100, 2) + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(win_x-xoff-tw/2,win_y+14-yoff-th/2) + ctx.show_text(txt) + + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(8) + ctx.set_source_rgb(0.8, 0.8, 0.8) + txt = "%d wins" % total_stats["wins"] + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(win_x-xoff-tw/2,win_y+28-yoff-th/2) + ctx.show_text(txt) + txt = "%d losses" % (total_games-total_stats['wins']) + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(win_x-xoff-tw/2,win_y+38-yoff-th/2) + ctx.show_text(txt) + + # print kill/death ratio + kill_x, kill_y = 400,18 + if total_stats['kills'] > 0 and total_stats['deaths'] > 0: + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(9) + ctx.set_source_rgb(0.5, 0.5, 0.5) + txt = "Kill Ratio" + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(kill_x-xoff-tw/2,kill_y-yoff-th/2) + ctx.show_text(txt) + + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_BOLD) + ctx.set_font_size(12) + ctx.set_source_rgb(1.0, 1.0, 1.0) + txt = "%.3f" % round(float(total_stats['kills'])/total_stats['deaths'], 3) + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(kill_x-xoff-tw/2,kill_y+14-yoff-th/2) + ctx.show_text(txt) + + ctx.select_font_face(font, C.FONT_SLANT_NORMAL, C.FONT_WEIGHT_NORMAL) + ctx.set_font_size(8) + ctx.set_source_rgb(0.8, 0.8, 0.8) + txt = "%d kills" % total_stats["kills"] + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(kill_x-xoff-tw/2,kill_y+28-yoff-th/2) + ctx.show_text(txt) + txt = "%d deaths" % total_stats['deaths'] + xoff, yoff, tw, th = ctx.text_extents(txt)[:4] + ctx.move_to(kill_x-xoff-tw/2,kill_y+38-yoff-th/2) + ctx.show_text(txt) + + # save to PNG + surf.write_to_png(output) -# converter params -CONVERTER = "/home/ant/xonotic/xonstat/xonstat/batch/badges/wkhtmltoimage-amd64 --crop-x 10 --crop-y 10 --width 560 --height 70 -f png" # environment setup -env = bootstrap('../../../development.ini.home') +env = bootstrap('../../../development.ini') req = env['request'] req.matchdict = {'id':3} -# template setup -t = Template(filename = 'templates/badge.mako') - +print "Requesting player data from db ..." +start = datetime.now() players = DBSession.query(Player).\ filter(Player.player_id == PlayerElo.player_id).\ filter(Player.nick != None).\ filter(Player.player_id > 2).\ - filter(Player.active_ind == True).all() + filter(Player.active_ind == True).\ + limit(NUM_PLAYERS).all() +stop = datetime.now() +print "Query took %.2f seconds" % (stop-start).total_seconds() +print "Creating badges for %d players ..." % len(players) +start = datetime.now() +data_time, render_time = 0,0 for player in players: req.matchdict['id'] = player.player_id - data = player_info_data(req) - rt = t.render(player=data['player'], elos_display=data['elos_display'], - total_stats=data['total_stats'], total_games=data['total_games'], - games_breakdown=data['games_breakdown']) - f = open("output/%s.html" % player.player_id, 'w') - f.write(rt) - f.close() - - cmd = "%s %s %s" % (CONVERTER, "output/%s.html" % player.player_id, - "output/%s.png" % player.player_id) - system(cmd) + + sstart = datetime.now() + #data = player_info_data(req) + data = get_data(player) + sstop = datetime.now() + data_time += (sstop-sstart).total_seconds() + + print "\t#%d (%s)" % (player.player_id, player.stripped_nick) + + sstart = datetime.now() + render_image(data) + sstop = datetime.now() + render_time += (sstop-sstart).total_seconds() + +stop = datetime.now() +print "Creating the badges took %.2f seconds (%.2f s per player)" % ((stop-start).total_seconds(), (stop-start).total_seconds()/float(len(players))) +print "Total time for getting data: %.2f s" % data_time +print "Total time for redering images: %.2f s" % render_time +