class PostTiming < ActiveRecord::Base belongs_to :topic belongs_to :user validates_presence_of :post_number validates_presence_of :msecs def self.pretend_read(topic_id, actual_read_post_number, pretend_read_post_number) # This is done in SQL cause the logic is quite tricky and we want to do this in one db hit # exec_sql("INSERT INTO post_timings(topic_id, user_id, post_number, msecs) SELECT :topic_id, user_id, :pretend_read_post_number, 1 FROM post_timings pt WHERE topic_id = :topic_id AND post_number = :actual_read_post_number AND NOT EXISTS ( SELECT 1 FROM post_timings pt1 WHERE pt1.topic_id = pt.topic_id AND pt1.post_number = :pretend_read_post_number AND pt1.user_id = pt.user_id ) ", pretend_read_post_number: pretend_read_post_number, topic_id: topic_id, actual_read_post_number: actual_read_post_number ) TopicUser.ensure_consistency!(topic_id) end def self.record_new_timing(args) begin exec_sql("INSERT INTO post_timings (topic_id, user_id, post_number, msecs) SELECT :topic_id, :user_id, :post_number, :msecs WHERE NOT EXISTS(SELECT 1 FROM post_timings WHERE topic_id = :topic_id AND user_id = :user_id AND post_number = :post_number)", args) rescue PG::UniqueViolation # concurrency is hard, we are not running serialized so this can possibly # still happen, if it happens we just don't care, its an invalid record anyway return end Post.where(['topic_id = :topic_id and post_number = :post_number', args]).update_all 'reads = reads + 1' UserStat.where(user_id: args[:user_id]).update_all 'posts_read_count = posts_read_count + 1' end # Increases a timer if a row exists, otherwise create it def self.record_timing(args) rows = exec_sql_row_count("UPDATE post_timings SET msecs = msecs + :msecs WHERE topic_id = :topic_id AND user_id = :user_id AND post_number = :post_number", args) record_new_timing(args) if rows == 0 end def self.destroy_for(user_id, topic_ids) PostTiming.transaction do PostTiming.delete_all(['user_id = ? and topic_id in (?)', user_id, topic_ids]) TopicUser.delete_all(['user_id = ? and topic_id in (?)', user_id, topic_ids]) end end MAX_READ_TIME_PER_BATCH = 60*1000.0 def self.process_timings(current_user, topic_id, topic_time, timings) current_user.user_stat.update_time_read! max_time_per_post = ((Time.now - current_user.created_at) * 1000.0) max_time_per_post = MAX_READ_TIME_PER_BATCH if max_time_per_post > MAX_READ_TIME_PER_BATCH highest_seen = 1 join_table = [] i = timings.length while i > 0 i -= 1 timings[i][1] = max_time_per_post if timings[i][1] > max_time_per_post timings.delete_at(i) if timings[i][0] < 1 end timings.each_with_index do |(post_number, time), index| join_table << "SELECT #{topic_id.to_i} topic_id, #{post_number.to_i} post_number, #{current_user.id.to_i} user_id, #{time.to_i} msecs, #{index} idx" highest_seen = post_number.to_i > highest_seen ? post_number.to_i : highest_seen end if join_table.length > 0 sql = < 0 total_changed = Notification.mark_posts_read(current_user, topic_id, timings.map{|t| t[0]}) end topic_time = max_time_per_post if topic_time > max_time_per_post TopicUser.update_last_read(current_user, topic_id, highest_seen, topic_time) if total_changed > 0 current_user.reload current_user.publish_notifications_state end end end # == Schema Information # # Table name: post_timings # # topic_id :integer not null # post_number :integer not null # user_id :integer not null # msecs :integer not null # # Indexes # # index_post_timings_on_user_id (user_id) # post_timings_summary (topic_id,post_number) # post_timings_unique (topic_id,post_number,user_id) UNIQUE #