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contract_execute_transaction.go
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contract_execute_transaction.go
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package hiero
// SPDX-License-Identifier: Apache-2.0
import (
"github.com/hiero-ledger/hiero-sdk-go/v2/proto/services"
)
// ContractExecuteTransaction calls a function of the given smart contract instance, giving it ContractFuncionParams as
// its inputs. it can use the given amount of gas, and any unspent gas will be refunded to the paying account.
//
// If tx function stores information, it is charged gas to store it. There is a fee in hbars to maintain that storage
// until the expiration time, and that fee is added as part of the transaction fee.
//
// For a cheaper but more limited _Method to call functions, see ContractCallQuery.
type ContractExecuteTransaction struct {
*Transaction[*ContractExecuteTransaction]
contractID *ContractID
gas int64
amount int64
parameters []byte
}
// NewContractExecuteTransaction creates a ContractExecuteTransaction transaction which can be
// used to construct and execute a Contract Call Transaction.
func NewContractExecuteTransaction() *ContractExecuteTransaction {
tx := &ContractExecuteTransaction{}
tx.Transaction = _NewTransaction(tx)
tx._SetDefaultMaxTransactionFee(NewHbar(2))
return tx
}
func _ContractExecuteTransactionFromProtobuf(tx Transaction[*ContractExecuteTransaction], pb *services.TransactionBody) ContractExecuteTransaction {
contractExecuteTransaction := ContractExecuteTransaction{
contractID: _ContractIDFromProtobuf(pb.GetContractCall().GetContractID()),
gas: pb.GetContractCall().GetGas(),
amount: pb.GetContractCall().GetAmount(),
parameters: pb.GetContractCall().GetFunctionParameters(),
}
tx.childTransaction = &contractExecuteTransaction
contractExecuteTransaction.Transaction = &tx
return contractExecuteTransaction
}
// SetContractID sets the contract instance to call.
func (tx *ContractExecuteTransaction) SetContractID(contractID ContractID) *ContractExecuteTransaction {
tx._RequireNotFrozen()
tx.contractID = &contractID
return tx
}
// GetContractID returns the contract instance to call.
func (tx *ContractExecuteTransaction) GetContractID() ContractID {
if tx.contractID == nil {
return ContractID{}
}
return *tx.contractID
}
// SetGas sets the maximum amount of gas to use for the call.
func (tx *ContractExecuteTransaction) SetGas(gas uint64) *ContractExecuteTransaction {
tx._RequireNotFrozen()
tx.gas = int64(gas)
return tx
}
// GetGas returns the maximum amount of gas to use for the call.
func (tx *ContractExecuteTransaction) GetGas() uint64 {
return uint64(tx.gas)
}
// SetPayableAmount sets the amount of Hbar sent (the function must be payable if this is nonzero)
func (tx *ContractExecuteTransaction) SetPayableAmount(amount Hbar) *ContractExecuteTransaction {
tx._RequireNotFrozen()
tx.amount = amount.AsTinybar()
return tx
}
// GetPayableAmount returns the amount of Hbar sent (the function must be payable if this is nonzero)
func (tx *ContractExecuteTransaction) GetPayableAmount() Hbar {
return HbarFromTinybar(tx.amount)
}
// SetFunctionParameters sets the function parameters
func (tx *ContractExecuteTransaction) SetFunctionParameters(params []byte) *ContractExecuteTransaction {
tx._RequireNotFrozen()
tx.parameters = params
return tx
}
// GetFunctionParameters returns the function parameters
func (tx *ContractExecuteTransaction) GetFunctionParameters() []byte {
return tx.parameters
}
// SetFunction sets which function to call, and the ContractFunctionParams to pass to the function
func (tx *ContractExecuteTransaction) SetFunction(name string, params *ContractFunctionParameters) *ContractExecuteTransaction {
tx._RequireNotFrozen()
if params == nil {
params = NewContractFunctionParameters()
}
tx.parameters = params._Build(&name)
return tx
}
// ----------- Overridden functions ----------------
func (tx ContractExecuteTransaction) getName() string {
return "ContractExecuteTransaction"
}
func (tx ContractExecuteTransaction) validateNetworkOnIDs(client *Client) error {
if client == nil || !client.autoValidateChecksums {
return nil
}
if tx.contractID != nil {
if err := tx.contractID.ValidateChecksum(client); err != nil {
return err
}
}
return nil
}
func (tx ContractExecuteTransaction) build() *services.TransactionBody {
return &services.TransactionBody{
TransactionFee: tx.transactionFee,
Memo: tx.Transaction.memo,
TransactionValidDuration: _DurationToProtobuf(tx.GetTransactionValidDuration()),
TransactionID: tx.transactionID._ToProtobuf(),
Data: &services.TransactionBody_ContractCall{
ContractCall: tx.buildProtoBody(),
},
}
}
func (tx ContractExecuteTransaction) buildScheduled() (*services.SchedulableTransactionBody, error) {
return &services.SchedulableTransactionBody{
TransactionFee: tx.transactionFee,
Memo: tx.Transaction.memo,
Data: &services.SchedulableTransactionBody_ContractCall{
ContractCall: tx.buildProtoBody(),
},
}, nil
}
func (tx ContractExecuteTransaction) buildProtoBody() *services.ContractCallTransactionBody {
body := &services.ContractCallTransactionBody{
Gas: tx.gas,
Amount: tx.amount,
FunctionParameters: tx.parameters,
}
if tx.contractID != nil {
body.ContractID = tx.contractID._ToProtobuf()
}
return body
}
func (tx ContractExecuteTransaction) getMethod(channel *_Channel) _Method {
return _Method{
transaction: channel._GetContract().ContractCallMethod,
}
}
func (tx ContractExecuteTransaction) constructScheduleProtobuf() (*services.SchedulableTransactionBody, error) {
return tx.buildScheduled()
}
func (tx ContractExecuteTransaction) getBaseTransaction() *Transaction[TransactionInterface] {
return castFromConcreteToBaseTransaction(tx.Transaction, &tx)
}