void scaling_t::analyze() { if ( sim -> is_canceled() ) return; init_deltas(); analyze_stats(); analyze_lag(); normalize(); for ( size_t i = 0; i < sim -> player_list.size(); ++i ) { player_t* p = sim -> player_list[ i ]; if ( p -> quiet ) continue; // Sort scaling results for ( stat_e j = STAT_NONE; j < STAT_MAX; j++ ) { if ( p -> scales_with[ j ] ) { double s = p -> scaling.get_stat( j ); if ( s ) p -> scaling_stats.push_back( j ); } } // more hack to deal with TMI weirdness bool use_normalized = p -> scaling_normalized.get_stat( p -> normalize_by() ) > 0 || scale_over == "tmi" || scale_over == "theck_meloree_index"; range::sort( p -> scaling_stats, compare_scale_factors( p, use_normalized ) ); } }
void scaling_t::analyze() { if ( sim -> is_canceled() ) return; init_deltas(); analyze_stats(); analyze_lag(); normalize(); for ( size_t i = 0; i < sim -> player_list.size(); ++i ) { player_t* p = sim -> player_list[ i ]; if ( p -> quiet ) continue; for ( scale_metric_e sm = SCALE_METRIC_NONE; sm < SCALE_METRIC_MAX; sm++ ) { // Sort scaling results for ( stat_e j = STAT_NONE; j < STAT_MAX; j++ ) { if ( p -> scales_with[ j ] ) { double s = p -> scaling[ sm ].get_stat( j ); if ( s ) p -> scaling_stats[ sm ].push_back( j ); } } // more hack to deal with TMI weirdness, this just determines sorting order, not what gets displayed on the chart bool use_normalized = p -> scaling_normalized[ sm ].get_stat( p -> normalize_by() ) > 0 || sm == SCALE_METRIC_TMI || sm == SCALE_METRIC_ETMI; range::sort( p -> scaling_stats[ sm ], compare_scale_factors( p, sm, use_normalized ) ); } } }