package dcrutil_test import ( "fmt" "math" "github.com/decred/dcrd/dcrutil" ) func ExampleAmount() { a := dcrutil.Amount(0) fmt.Println("Zero Atom:", a) a = dcrutil.Amount(1e8) fmt.Println("100,000,000 Atoms:", a) a = dcrutil.Amount(1e5) fmt.Println("100,000 Atoms:", a) // Output: // Zero Atom: 0 DCR // 100,000,000 Atoms: 1 DCR // 100,000 Atoms: 0.001 DCR } func ExampleNewAmount() { amountOne, err := dcrutil.NewAmount(1) if err != nil { fmt.Println(err) return } fmt.Println(amountOne) //Output 1 amountFraction, err := dcrutil.NewAmount(0.01234567) if err != nil { fmt.Println(err) return } fmt.Println(amountFraction) //Output 2 amountZero, err := dcrutil.NewAmount(0) if err != nil { fmt.Println(err) return } fmt.Println(amountZero) //Output 3 amountNaN, err := dcrutil.NewAmount(math.NaN()) if err != nil { fmt.Println(err) return } fmt.Println(amountNaN) //Output 4 // Output: 1 DCR // 0.01234567 DCR // 0 DCR // invalid coin amount } func ExampleAmount_unitConversions() { amount := dcrutil.Amount(44433322211100) fmt.Println("Atom to kCoin:", amount.Format(dcrutil.AmountKiloCoin)) fmt.Println("Atom to Coin:", amount) fmt.Println("Atom to MilliCoin:", amount.Format(dcrutil.AmountMilliCoin)) fmt.Println("Atom to MicroCoin:", amount.Format(dcrutil.AmountMicroCoin)) fmt.Println("Atom to Atom:", amount.Format(dcrutil.AmountAtom)) // Output: // Atom to kCoin: 444.333222111 kDCR // Atom to Coin: 444333.222111 DCR // Atom to MilliCoin: 444333222.111 mDCR // Atom to MicroCoin: 444333222111 μDCR // Atom to Atom: 44433322211100 Atom }