public ITransfersSubscription getSubscription(AccountPublicAddress acc) { var it = m_subscriptions.find(acc.spendPublicKey); //C++ TO C# CONVERTER TODO TASK: Iterators are only converted within the context of 'while' and 'for' loops: return(it == m_subscriptions.end() ? null : it.second.get()); }
// returns true if no subscribers left public bool removeSubscription(AccountPublicAddress address) { m_subscriptions.Remove(address.spendPublicKey); m_spendKeys.erase(address.spendPublicKey); updateSyncStart(); return(m_subscriptions.Count == 0); }
public TransactionDestinationEntry(ulong amount, AccountPublicAddress addr) { //C++ TO C# CONVERTER TODO TASK: The following line was determined to be a copy assignment (rather than a reference assignment) - this should be verified and a 'CopyFrom' method should be created: //ORIGINAL LINE: this.amount = amount; this.amount.CopyFrom(amount); //C++ TO C# CONVERTER TODO TASK: The following line was determined to be a copy assignment (rather than a reference assignment) - this should be verified and a 'CopyFrom' method should be created: //ORIGINAL LINE: this.addr = addr; this.addr.CopyFrom(addr); }
public void addPublicKeysSeen(AccountPublicAddress acc, Crypto.Hash transactionHash, Crypto.PublicKey outputKey) { var it = m_consumers.find(acc.viewPublicKey); //C++ TO C# CONVERTER TODO TASK: Iterators are only converted within the context of 'while' and 'for' loops: if (it != m_consumers.end()) { //C++ TO C# CONVERTER TODO TASK: Iterators are only converted within the context of 'while' and 'for' loops: it.second.addPublicKeysSeen(transactionHash, outputKey); } }
public override uint addOutput(ulong amount, AccountPublicAddress to) { checkIfSigning(); KeyOutput outKey = new KeyOutput(); GlobalMembers.derivePublicKey(to, txSecretKey(), transaction.outputs.Count, outKey.key); TransactionOutput @out = new TransactionOutput(amount, outKey); transaction.outputs.emplace_back(@out); invalidateHash(); return(transaction.outputs.Count - 1); }
public override bool removeSubscription(AccountPublicAddress acc) { var it = m_consumers.find(acc.viewPublicKey); if (it == m_consumers.end()) { return(false); } //C++ TO C# CONVERTER TODO TASK: Iterators are only converted within the context of 'while' and 'for' loops: if (it.second.removeSubscription(acc)) { //C++ TO C# CONVERTER TODO TASK: Iterators are only converted within the context of 'while' and 'for' loops: m_sync.removeConsumer(it.second.get()); m_consumers.Remove(it); m_subscribers.Remove(acc.viewPublicKey); } return(true); }
//C++ TO C# CONVERTER WARNING: 'const' methods are not available in C#: //ORIGINAL LINE: virtual bool findOutputsToAccount(const AccountPublicAddress& addr, const SecretKey& viewSecretKey, ClassicVector<uint>& outs, ulong& outputAmount) const override public override bool FindOutputsToAccount(AccountPublicAddress addr, SecretKey viewSecretKey, List <uint> outs, ulong outputAmount) { return(global::CryptoNote.findOutputsToAccount(m_txPrefix, addr, viewSecretKey, outs, outputAmount)); }
public abstract bool GetBlockTemplate(BlockTemplate b, AccountPublicAddress adr, BinaryArray extraNonce, ref ulong difficulty, ref uint height);
public AccountPublicAddress addr = new AccountPublicAddress(); //destination address public TransactionDestinationEntry() { this.amount = 0; this.addr = boost::value_initialized <AccountPublicAddress>(); }
//C++ TO C# CONVERTER WARNING: 'const' methods are not available in C#: //ORIGINAL LINE: virtual bool findOutputsToAccount(const AccountPublicAddress& addr, const SecretKey& viewSecretKey, ClassicVector<uint>& out, ulong& amount) const override public override bool findOutputsToAccount(AccountPublicAddress addr, SecretKey viewSecretKey, List <uint> @out, ulong amount) { return(global::CryptoNote.findOutputsToAccount(transaction, addr, viewSecretKey, @out, amount)); }
public abstract uint AddOutput(ulong amount, AccountPublicAddress to);
public abstract bool FindOutputsToAccount(AccountPublicAddress addr, Crypto.SecretKey viewSecretKey, List <uint> outs, ulong outputAmount);