package main import ( "bufio" "fmt" "math" "os" "strconv" "strings" ) const NORMAL90CONFIDENCE = 1.6448536269514727 func boundsToLogParams(low float64, high float64) (float64, float64) { loglow := math.Log(low) loghigh := math.Log(high) logmean := (loghigh + loglow) / 2.0 logstd := (loghigh - loglow) / (2.0 * NORMAL90CONFIDENCE) return logmean, logstd } func multiplyLognormals(logmean1 float64, logstd1 float64, logmean2 float64, logstd2 float64) (float64, float64) { return logmean1 + logmean2, math.Sqrt(logstd1*logstd1 + logstd2*logstd2) } func logParamsToBounds(logmean float64, logstd float64) (float64, float64) { h := logstd * NORMAL90CONFIDENCE loglow := logmean - h loghigh := logmean + h return math.Exp(loglow), math.Exp(loghigh) } func combineBounds(old_low, old_high, new_low, new_high float64) (float64, float64) { logmean_old, logstd_old := boundsToLogParams(old_low, old_high) logmean_new, logstd_new := boundsToLogParams(new_low, new_high) logmean_product, logstd_product := multiplyLognormals(logmean_old, logstd_old, logmean_new, logstd_new) return logParamsToBounds(logmean_product, logstd_product) } func main() { var old_low, old_high float64 reader := bufio.NewReader(os.Stdin) input, _ := reader.ReadString('\n') input = strings.TrimSpace(input) tokens := strings.Split(input, " ") error_msg_start := "Please enter two floats separated by a space, like: 1 10" if len(tokens) != 2 { fmt.Println(error_msg_start) return } old_low, err1 := strconv.ParseFloat(tokens[0], 64) old_high, err2 := strconv.ParseFloat(tokens[1], 64) if err1 != nil || err2 != nil { fmt.Println(error_msg_start) return } fmt.Printf("=> %.1f %.1f\n", old_low, old_high) error_msg_cont := "Please enter two floats separated by a space, like: 1 10, or two floats preceded by a division, like: / 2 20. Or enter i to get the logmean and logstd" EventForLoop: for { var new_low, new_high float64 var err1, err2 error input, _ = reader.ReadString('\n') if strings.TrimSpace(input) == "" { continue EventForLoop } tokens := strings.Split(strings.TrimSpace(input), " ") switch len(tokens) { case 0: continue EventForLoop case 1: single_float, err1 := strconv.ParseFloat(tokens[0], 64) switch { case tokens[0] == "i": fmt.Printf("=> %.1f %.1f\n", old_low, old_high) logmean_old, logstd_old := boundsToLogParams(old_low, old_high) fmt.Printf("=> Lognormal, with logmean: %.1f, logstd: %.1f\n", logmean_old, logstd_old) continue EventForLoop case err1 != nil: new_low = single_float new_high = single_float default: fmt.Println(error_msg_cont) continue EventForLoop } case 2: new_low, err1 = strconv.ParseFloat(tokens[0], 64) new_high, err2 = strconv.ParseFloat(tokens[1], 64) if err2 != nil { fmt.Println(error_msg_cont) continue EventForLoop } switch tokens[0] { case "*": new_low = new_high case "/": new_low = 1.0 / new_high new_high = new_low default: if err1 != nil { fmt.Println(error_msg_cont) continue EventForLoop } } case 3: new_low, err1 = strconv.ParseFloat(tokens[1], 64) new_high, err2 = strconv.ParseFloat(tokens[2], 64) if err1 != nil || err2 != nil { fmt.Println(error_msg_cont) continue EventForLoop } switch tokens[0] { case "*": case "/": tmp_low := new_low new_low = 1.0 / new_high new_high = 1.0 / tmp_low default: fmt.Println(error_msg_cont) continue EventForLoop } default: fmt.Println(error_msg_cont) continue EventForLoop } // Use the abstracted function for combining floats old_low, old_high = combineBounds(old_low, old_high, new_low, new_high) fmt.Printf("=> %.1f %.1f\n", old_low, old_high) } }