package fzf import ( "fmt" "math/rand" "sort" "testing" ) func assert(t *testing.T, cond bool, msg ...string) { if !cond { t.Error(msg) } } func randItem() *Item { str := fmt.Sprintf("%d", rand.Uint32()) offsets := make([]Offset, rand.Int()%3) for idx := range offsets { sidx := int32(rand.Uint32() % 20) eidx := sidx + int32(rand.Uint32()%20) offsets[idx] = Offset{sidx, eidx} } return &Item{ text: []rune(str), index: rand.Uint32(), offsets: offsets} } func TestEmptyMerger(t *testing.T) { assert(t, EmptyMerger.Length() == 0, "Not empty") assert(t, EmptyMerger.count == 0, "Invalid count") assert(t, len(EmptyMerger.lists) == 0, "Invalid lists") assert(t, len(EmptyMerger.merged) == 0, "Invalid merged list") } func buildLists(partiallySorted bool) ([][]*Item, []*Item) { numLists := 4 lists := make([][]*Item, numLists) cnt := 0 for i := 0; i < numLists; i++ { numItems := rand.Int() % 20 cnt += numItems lists[i] = make([]*Item, numItems) for j := 0; j < numItems; j++ { item := randItem() lists[i][j] = item } if partiallySorted { sort.Sort(ByRelevance(lists[i])) } } items := []*Item{} for _, list := range lists { items = append(items, list...) } return lists, items } func TestMergerUnsorted(t *testing.T) { lists, items := buildLists(false) cnt := len(items) // Not sorted: same order mg := NewMerger(lists, false, false) assert(t, cnt == mg.Length(), "Invalid Length") for i := 0; i < cnt; i++ { assert(t, items[i] == mg.Get(i), "Invalid Get") } } func TestMergerSorted(t *testing.T) { lists, items := buildLists(true) cnt := len(items) // Sorted sorted order mg := NewMerger(lists, true, false) assert(t, cnt == mg.Length(), "Invalid Length") sort.Sort(ByRelevance(items)) for i := 0; i < cnt; i++ { if items[i] != mg.Get(i) { t.Error("Not sorted", items[i], mg.Get(i)) } } // Inverse order mg2 := NewMerger(lists, true, false) for i := cnt - 1; i >= 0; i-- { if items[i] != mg2.Get(i) { t.Error("Not sorted", items[i], mg2.Get(i)) } } }