package webutility import ( "fmt" "math" "math/big" "strings" ) func RoundFloat64(f float64, dec int) float64 { p := math.Pow(10, float64(dec)) return math.Round(f*p) / p } func NewBF(f float64, prec uint) *big.Float { x := big.NewFloat(f) x.SetPrec(prec) return x } func AddBF(x, y *big.Float) *big.Float { z := big.NewFloat(0.0) z.SetPrec(x.Prec()) z.Add(x, y) return z } func SubBF(x, y *big.Float) *big.Float { z := big.NewFloat(0.0) z.SetPrec(x.Prec()) yneg := big.NewFloat(0.0) yneg.Neg(y) z.Add(x, yneg) return z } func MulBF(x, y *big.Float) *big.Float { z := big.NewFloat(0.0) z.SetPrec(x.Prec()) z.Mul(x, y) return z } func DivBF(x, y *big.Float) *big.Float { z := big.NewFloat(0.0) z.SetPrec(x.Prec()) z.Quo(x, y) return z } func BFtoFloat(f *big.Float) float64 { v, _ := f.Float64() return v } func Float64ToString(f float64) string { return fmt.Sprintf("%.2f", f) } func Float64PtrToString(f *float64) string { if f == nil { return "" } return fmt.Sprintf("%.2f", *f) } func FormatFloat64Number(f float64, dec int) string { res := "" f = RoundFloat64(f, dec) i := int64(f) format := fmt.Sprintf("%%.%df", dec) parts := strings.Split(fmt.Sprintf(format, f-float64(i)), ".") decimals := parts[1] res = FormatInt64Number(i) + "," + decimals return res } func MaxFlaot64(vars ...float64) (max float64) { max = vars[0] for _, v := range vars { if v > max { max = v } } return max }