package setup /* ---------------------------------------------------------------- * * IMPORTS * ---------------------------------------------------------------- */ import ( "fmt" "reflect" "strings" "ads/internal/core/logging" "ads/internal/core/metrics" ) /* ---------------------------------------------------------------- * * METHOD display case start/end * ---------------------------------------------------------------- */ func DisplayStartOfCase(index int, descr *string) { DisplayBar(80) if descr == nil || *descr == "" { logging.LogPlain(fmt.Sprintf("\033[92;1mCASE %[1]v\033[0m.", index)) } else { logging.LogPlain(fmt.Sprintf("\033[92;1mCASE %[1]v\033[0m (\033[1;2m%[2]s\033[0m).", index, *descr)) } } func DisplayStartOfCaseBlank() { DisplayBar(80) return } func DisplayEndOfCase() { DisplayBar(80) return } /* ---------------------------------------------------------------- * * METHOD display value * ---------------------------------------------------------------- */ func RepresentValue(value interface{}) interface{} { switch reflect.TypeOf(value).Kind() { case reflect.Ptr: obj := reflect.ValueOf(value) if obj.IsNil() { return fmt.Sprintf("%v", nil) } else { return fmt.Sprintf("&%v", RepresentValue(obj.Elem().Interface())) } case reflect.Slice: obj := reflect.ValueOf(value) n := obj.Len() values := []interface{}{} for i := 0; i < n; i++ { x := RepresentValue(obj.Index(i).Interface()) values = append(values, x) } if n > 10 { values = append(append(values[:3], "..."), values[n-2:]...) } return fmt.Sprintf("%v", values) case reflect.Map: obj := reflect.ValueOf(value) n := obj.Len() iter := obj.MapRange() m := map[interface{}]interface{}{} parts := []string{} for iter.Next() { key := iter.Key().Interface() x := RepresentValue(iter.Value().Interface()) m[key] = x parts = append(parts, fmt.Sprintf("%[1]v: %[2]v", key, x)) } if n > 4 { parts = append(append(parts[:3], "..."), parts[n-2:]...) } return fmt.Sprintf("{%s}", strings.Join(parts, ", ")) } return value } /* ---------------------------------------------------------------- * * METHOD display algorithm start/end * ---------------------------------------------------------------- */ func DisplayStartOfAlgorithm(name string, inputs map[string]interface{}) { logging.LogPlain(fmt.Sprintf("Ausführung vom Algorithmus: \033[92;1m%[1]s\033[0m", name)) logging.LogPlain("INPUTS") for varname, value := range inputs { logging.LogPlain(fmt.Sprintf(" - %[1]s = %[2]v", varname, RepresentValue(value))) } } func DisplayEndOfAlgorithm(outputs map[string]interface{}) { logging.LogPlain("OUTPUTS:") for varname, value := range outputs { logging.LogPlain(fmt.Sprintf(" - %[1]s = %[2]v", varname, RepresentValue(value))) } } func DisplayMetrics() { // logging.LogPlain(fmt.Sprintf("Dauer der Ausführung: t = \033[1m%[1]v\033[0m", metrics.GetTimeElapsed())) logging.LogPlain(fmt.Sprintf("Dauer der Ausführung: t = \033[1m%[1]v\033[0m", metrics.GetTimeElapsedLongFormat())) logging.LogPlain(fmt.Sprintf("Kosten (Zeit): T(n) = \033[1m%[1]v\033[0m", metrics.GetTimeCost())) logging.LogPlain(fmt.Sprintf("Kosten (Platz): S(n) = \033[1m%[1]v\033[0m", metrics.GetSpaceCost())) return } /* ---------------------------------------------------------------- * * METHODS Verschiedenes * ---------------------------------------------------------------- */ func DisplayBar(options ...int) { n := 80 if len(options) > 0 { n = options[0] } logging.LogPlain(fmt.Sprintf("+%[1]s+", strings.Repeat("-", n))) return }