package main import ( "math/rand" "sort" "github.com/mroth/weightedrand" ) // combinations takes input in the form of a map of item lists, and returns a // list of all combinations of each item for each key. E.g.: // // {"foo": [1, 2, 3], "bar": [4, 5, 6]} // // Will return the following maps: // // {"foo": 1, "bar": 4} // {"foo": 1, "bar": 5} // {"foo": 1, "bar": 6} // {"foo": 2, "bar": 4} // {"foo": 2, "bar": 5} // {"foo": 2, "bar": 6} // {"foo": 3, "bar": 4} // {"foo": 3, "bar": 5} // {"foo": 3, "bar": 6} func combinations(items map[string][]interface{}) []map[string]interface{} { keys := []string{} for key := range items { keys = append(keys, key) } sort.Strings(keys) return combiner(map[string]interface{}{}, keys, items) } // combiner is a utility function for combinations. func combiner(head map[string]interface{}, pending []string, items map[string][]interface{}) []map[string]interface{} { if len(pending) == 0 { return []map[string]interface{}{head} } key, pending := pending[0], pending[1:] result := []map[string]interface{}{} for _, value := range items[key] { path := map[string]interface{}{} for k, v := range head { path[k] = v } path[key] = value result = append(result, combiner(path, pending, items)...) } return result } // uniformChoice chooses a single random item from the argument list, uniformly weighted. type uniformChoice []interface{} func (uc uniformChoice) Choose(r *rand.Rand) interface{} { return uc[r.Intn(len(uc))] } // probSetChoice picks a set of strings based on each string's probability (0-1). type probSetChoice map[string]float64 func (pc probSetChoice) Choose(r *rand.Rand) []string { choices := []string{} for item, prob := range pc { if r.Float64() <= prob { choices = append(choices, item) } } return choices } // uniformSetChoice picks a set of strings with uniform probability, picking at least one. type uniformSetChoice []string func (usc uniformSetChoice) Choose(r *rand.Rand) []string { choices := []string{} indexes := r.Perm(len(usc)) if len(indexes) > 1 { indexes = indexes[:1+r.Intn(len(indexes)-1)] } for _, i := range indexes { choices = append(choices, usc[i]) } return choices } type weightedChoice map[string]uint func (wc weightedChoice) Choose(r *rand.Rand) string { choices := make([]weightedrand.Choice, 0, len(wc)) for k, v := range wc { choices = append(choices, weightedrand.NewChoice(k, v)) } chooser, err := weightedrand.NewChooser(choices...) if err != nil { panic(err) } return chooser.PickSource(r).(string) }