/* Copyright 2020 Docker Compose CLI authors Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package progress import ( "context" "fmt" "io" "runtime" "strings" "sync" "time" "github.com/docker/compose-cli/utils" "github.com/buger/goterm" "github.com/morikuni/aec" ) type ttyWriter struct { out io.Writer events map[string]Event eventIDs []string repeated bool numLines int done chan bool mtx *sync.RWMutex } func (w *ttyWriter) Start(ctx context.Context) error { ticker := time.NewTicker(100 * time.Millisecond) for { select { case <-ctx.Done(): w.print() return ctx.Err() case <-w.done: w.print() return nil case <-ticker.C: w.print() } } } func (w *ttyWriter) Stop() { w.done <- true } func (w *ttyWriter) Event(e Event) { w.mtx.Lock() defer w.mtx.Unlock() if !utils.StringContains(w.eventIDs, e.ID) { w.eventIDs = append(w.eventIDs, e.ID) } if _, ok := w.events[e.ID]; ok { last := w.events[e.ID] switch e.Status { case Done, Error: if last.Status != e.Status { last.stop() } } last.Status = e.Status last.Text = e.Text last.StatusText = e.StatusText w.events[e.ID] = last } else { e.startTime = time.Now() e.spinner = newSpinner() w.events[e.ID] = e } } func (w *ttyWriter) print() { w.mtx.Lock() defer w.mtx.Unlock() if len(w.eventIDs) == 0 { return } terminalWidth := goterm.Width() b := aec.EmptyBuilder for i := 0; i <= w.numLines; i++ { b = b.Up(1) } if !w.repeated { b = b.Down(1) } w.repeated = true fmt.Fprint(w.out, b.Column(0).ANSI) // Hide the cursor while we are printing fmt.Fprint(w.out, aec.Hide) defer fmt.Fprint(w.out, aec.Show) firstLine := fmt.Sprintf("[+] Running %d/%d", numDone(w.events), w.numLines) if w.numLines != 0 && numDone(w.events) == w.numLines { firstLine = aec.Apply(firstLine, aec.BlueF) } fmt.Fprintln(w.out, firstLine) var statusPadding int for _, v := range w.eventIDs { l := len(fmt.Sprintf("%s %s", w.events[v].ID, w.events[v].Text)) if statusPadding < l { statusPadding = l } } numLines := 0 for _, v := range w.eventIDs { line := lineText(w.events[v], terminalWidth, statusPadding, runtime.GOOS != "windows") // nolint: errcheck fmt.Fprint(w.out, line) numLines++ } w.numLines = numLines } func lineText(event Event, terminalWidth, statusPadding int, color bool) string { endTime := time.Now() if event.Status != Working { endTime = event.endTime } elapsed := endTime.Sub(event.startTime).Seconds() textLen := len(fmt.Sprintf("%s %s", event.ID, event.Text)) padding := statusPadding - textLen if padding < 0 { padding = 0 } // calculate the max length for the status text, on errors it // is 2-3 lines long and breaks the line formating maxStatusLen := terminalWidth - textLen - statusPadding - 15 status := event.StatusText // in some cases (debugging under VS Code), terminalWidth is set to zero by goterm.Width() ; ensuring we don't tweak strings with negative char index if maxStatusLen > 0 && len(status) > maxStatusLen { status = status[:maxStatusLen] + "..." } text := fmt.Sprintf(" %s %s %s%s %s", event.spinner.String(), event.ID, event.Text, strings.Repeat(" ", padding), status, ) timer := fmt.Sprintf("%.1fs\n", elapsed) o := align(text, timer, terminalWidth) if color { color := aec.WhiteF if event.Status == Done { color = aec.BlueF } if event.Status == Error { color = aec.RedF } return aec.Apply(o, color) } return o } func numDone(events map[string]Event) int { i := 0 for _, e := range events { if e.Status == Done { i++ } } return i } func align(l, r string, w int) string { return fmt.Sprintf("%-[2]*[1]s %[3]s", l, w-len(r)-1, r) }