package nep11_test import ( "context" "math/big" "github.com/nspcc-dev/neo-go/pkg/encoding/address" "github.com/nspcc-dev/neo-go/pkg/rpcclient" "github.com/nspcc-dev/neo-go/pkg/rpcclient/actor" "github.com/nspcc-dev/neo-go/pkg/rpcclient/invoker" "github.com/nspcc-dev/neo-go/pkg/rpcclient/nep11" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/wallet" ) func ExampleNonDivisibleReader() { // No error checking done at all, intentionally. c, _ := rpcclient.New(context.Background(), "url", rpcclient.Options{}) // Safe methods are reachable with just an invoker, no need for an account there. inv := invoker.New(c, nil) // NEP-11 contract hash. nep11Hash := util.Uint160{9, 8, 7} // Most of the time contracts are non-divisible, create a reader for nep11Hash. n11 := nep11.NewNonDivisibleReader(inv, nep11Hash) // Get the metadata. Even though these methods are implemented in neptoken package, // they're available for NEP-11 wrappers. symbol, _ := n11.Symbol() supply, _ := n11.TotalSupply() _ = symbol _ = supply // Account hash we're interested in. accHash, _ := address.StringToUint160("NdypBhqkz2CMMnwxBgvoC9X2XjKF5axgKo") // Get account balance. balance, _ := n11.BalanceOf(accHash) if balance.Sign() > 0 { // There are some tokens there, let's look at them. tokIter, _ := n11.TokensOf(accHash) for toks, err := tokIter.Next(10); err == nil && len(toks) > 0; toks, err = tokIter.Next(10) { for i := range toks { // We know the owner of the token, but let's check internal contract consistency. owner, _ := n11.OwnerOf(toks[i]) if !owner.Equals(accHash) { panic("NEP-11 contract is broken!") } } } } } func ExampleDivisibleReader() { // No error checking done at all, intentionally. c, _ := rpcclient.New(context.Background(), "url", rpcclient.Options{}) // Safe methods are reachable with just an invoker, no need for an account there. inv := invoker.New(c, nil) // NEP-11 contract hash. nep11Hash := util.Uint160{9, 8, 7} // Divisible contract are more rare, but we can handle them too. n11 := nep11.NewDivisibleReader(inv, nep11Hash) // Get the metadata. Even though these methods are implemented in neptoken package, // they're available for NEP-11 wrappers. symbol, _ := n11.Symbol() supply, _ := n11.TotalSupply() _ = symbol _ = supply // Account hash we're interested in. accHash, _ := address.StringToUint160("NdypBhqkz2CMMnwxBgvoC9X2XjKF5axgKo") // Get account balance. balance, _ := n11.BalanceOf(accHash) if balance.Sign() > 0 && balance.Cmp(big.NewInt(10)) < 0 { // We know we have a low number of tokens, so we can use a simple API to get them. toks, _ := n11.TokensOfExpanded(accHash, 10) // We can build a list of all owners of account's tokens. var owners = make([]util.Uint160, 0) for i := range toks { ownIter, _ := n11.OwnerOf(toks[i]) for ows, err := ownIter.Next(10); err == nil && len(ows) > 0; ows, err = ownIter.Next(10) { // Notice that it includes accHash too. owners = append(owners, ows...) } } // The list can be sorted/deduplicated if needed. _ = owners } } func ExampleNonDivisible() { // No error checking done at all, intentionally. w, _ := wallet.NewWalletFromFile("somewhere") defer w.Close() c, _ := rpcclient.New(context.Background(), "url", rpcclient.Options{}) // Create a simple CalledByEntry-scoped actor (assuming there is an account // inside the wallet). a, _ := actor.NewSimple(c, w.Accounts[0]) // NEP-11 contract hash. nep11Hash := util.Uint160{9, 8, 7} // Create a complete non-divisible contract representation. n11 := nep11.NewNonDivisible(a, nep11Hash) tgtAcc, _ := address.StringToUint160("NdypBhqkz2CMMnwxBgvoC9X2XjKF5axgKo") // Let's tranfer all of account's tokens to some other account. tokIter, _ := n11.TokensOf(a.Sender()) for toks, err := tokIter.Next(10); err == nil && len(toks) > 0; toks, err = tokIter.Next(10) { for i := range toks { // This creates a transaction for every token, but you can // create a script that will move multiple tokens in one // transaction with Builder from smartcontract package. txid, vub, _ := n11.Transfer(tgtAcc, toks[i], nil) _ = txid _ = vub } } } func ExampleDivisible() { // No error checking done at all, intentionally. w, _ := wallet.NewWalletFromFile("somewhere") defer w.Close() c, _ := rpcclient.New(context.Background(), "url", rpcclient.Options{}) // Create a simple CalledByEntry-scoped actor (assuming there is an account // inside the wallet). a, _ := actor.NewSimple(c, w.Accounts[0]) // NEP-11 contract hash. nep11Hash := util.Uint160{9, 8, 7} // Create a complete divisible contract representation. n11 := nep11.NewDivisible(a, nep11Hash) tgtAcc, _ := address.StringToUint160("NdypBhqkz2CMMnwxBgvoC9X2XjKF5axgKo") // Let's tranfer all of account's tokens to some other account. tokIter, _ := n11.TokensOf(a.Sender()) for toks, err := tokIter.Next(10); err == nil && len(toks) > 0; toks, err = tokIter.Next(10) { for i := range toks { // It's a divisible token, so balance data is required in general case. balance, _ := n11.BalanceOfD(a.Sender(), toks[i]) // This creates a transaction for every token, but you can // create a script that will move multiple tokens in one // transaction with Builder from smartcontract package. txid, vub, _ := n11.TransferD(a.Sender(), tgtAcc, balance, toks[i], nil) _ = txid _ = vub } } }