package main import ( "fmt" "github.com/animenotifier/arn" "github.com/fatih/color" ) var ratings = map[string][]arn.AnimeListItemRating{} var finalRating = map[string]*arn.AnimeRating{} var popularity = map[string]*arn.AnimePopularity{} // Note this is using the airing-anime as a template with modfications // made to it. func main() { color.Yellow("Updating anime ratings") color.Cyan(arn.Node.Address().String()) defer color.Green("Finished.") defer arn.Node.Close() fmt.Println("Processing anime lists") for animeList := range arn.StreamAnimeLists() { extractRatings(animeList) extractPopularity(animeList) } // Calculate rating for animeID := range finalRating { overall := []float64{} story := []float64{} visuals := []float64{} soundtrack := []float64{} for _, rating := range ratings[animeID] { if rating.Overall != 0 { overall = append(overall, rating.Overall) } if rating.Story != 0 { story = append(story, rating.Story) } if rating.Visuals != 0 { visuals = append(visuals, rating.Visuals) } if rating.Soundtrack != 0 { soundtrack = append(soundtrack, rating.Soundtrack) } } // Save number of people who rated on this finalRating[animeID].Count.Overall = len(overall) finalRating[animeID].Count.Story = len(story) finalRating[animeID].Count.Visuals = len(visuals) finalRating[animeID].Count.Soundtrack = len(soundtrack) // Dampen the rating if number of users is too low if len(overall) < arn.RatingCountThreshold { overall = append(overall, arn.AverageRating) } if len(story) < arn.RatingCountThreshold { story = append(story, arn.AverageRating) } if len(visuals) < arn.RatingCountThreshold { visuals = append(visuals, arn.AverageRating) } if len(soundtrack) < arn.RatingCountThreshold { soundtrack = append(soundtrack, arn.AverageRating) } // Average rating finalRating[animeID].Overall = average(overall) finalRating[animeID].Story = average(story) finalRating[animeID].Visuals = average(visuals) finalRating[animeID].Soundtrack = average(soundtrack) } // Save rating fmt.Println("Saving rating") for animeID := range finalRating { anime, err := arn.GetAnime(animeID) arn.PanicOnError(err) anime.Rating = finalRating[animeID] anime.Save() } // Save popularity fmt.Println("Saving popularity") for animeID := range popularity { anime, err := arn.GetAnime(animeID) arn.PanicOnError(err) anime.Popularity = popularity[animeID] anime.Save() } } func average(floatSlice []float64) float64 { if len(floatSlice) == 0 { return 0 } var sum float64 for _, value := range floatSlice { sum += value } return sum / float64(len(floatSlice)) } func extractRatings(animeList *arn.AnimeList) { for _, item := range animeList.Items { if item.Rating.IsNotRated() { continue } _, found := ratings[item.AnimeID] if !found { ratings[item.AnimeID] = []arn.AnimeListItemRating{} finalRating[item.AnimeID] = &arn.AnimeRating{} } ratings[item.AnimeID] = append(ratings[item.AnimeID], item.Rating) } } func extractPopularity(animeList *arn.AnimeList) { for _, item := range animeList.Items { _, found := popularity[item.AnimeID] if !found { popularity[item.AnimeID] = &arn.AnimePopularity{} } counter := popularity[item.AnimeID] switch item.Status { case arn.AnimeListStatusWatching: counter.Watching++ case arn.AnimeListStatusCompleted: counter.Completed++ case arn.AnimeListStatusPlanned: counter.Planned++ case arn.AnimeListStatusHold: counter.Hold++ case arn.AnimeListStatusDropped: counter.Dropped++ } } }