#if ETH_QTQML #include #endif #include #include #include #include #include #include #include #include "QmlEthereum.h" using namespace std; // types using dev::bytes; using dev::bytesConstRef; using dev::h160; using dev::h256; using dev::u160; using dev::u256; using dev::u256s; using dev::RLP; using dev::Address; using dev::eth::BlockInfo; using dev::eth::Client; using dev::eth::Instruction; using dev::KeyPair; using dev::eth::NodeMode; using dev::Secret; using dev::eth::Transaction; using dev::p2p::PeerInfo; // functions using dev::toHex; using dev::fromHex; using dev::right160; using dev::simpleDebugOut; using dev::toLog2; using dev::toString; using dev::eth::disassemble; using dev::eth::formatBalance; using dev::eth::units; // vars using dev::g_logPost; using dev::g_logVerbosity; // Horrible global for the mainwindow. Needed for the QmlEthereums to find the Main window which acts as multiplexer for now. // Can get rid of this once we've sorted out ITC for signalling & multiplexed querying. dev::eth::Client* g_qmlClient; QObject* g_qmlMain; #if 0 QmlAccount::QmlAccount(QObject*) { } QmlAccount::~QmlAccount() { } void QmlAccount::setEthereum(QmlEthereum* _eth) { if (m_eth == _eth) return; // if (m_eth) // disconnect(m_eth, SIGNAL(changed()), this, SIGNAL(changed())); m_eth = _eth; // if (m_eth) // connect(m_eth, SIGNAL(changed()), this, SIGNAL(changed())); ethChanged(); // changed(); } dev::u256 QmlAccount::balance() const { if (m_eth) return m_eth->balanceAt(m_address); return u256(0); } double QmlAccount::txCount() const { if (m_eth) return m_eth->txCountAt(m_address); return 0; } bool QmlAccount::isContract() const { if (m_eth) return m_eth->isContractAt(m_address); return 0; } QmlEthereum::QmlEthereum(QObject* _p): QObject(_p) { // connect(g_qmlMain, SIGNAL(changed()), SIGNAL(changed())); } QmlEthereum::~QmlEthereum() { } Client* QmlEthereum::client() const { return g_qmlClient; } Address QmlEthereum::coinbase() const { return client()->address(); } void QmlEthereum::setCoinbase(Address _a) { if (client()->address() != _a) { client()->setAddress(_a); // changed(); } } u256 QmlEthereum::balanceAt(Address _a) const { return client()->postState().balance(_a); } bool QmlEthereum::isContractAt(Address _a) const { return client()->postState().addressHasCode(_a); } bool QmlEthereum::isMining() const { return client()->isMining(); } bool QmlEthereum::isListening() const { return client()->haveNetwork(); } void QmlEthereum::setMining(bool _l) { if (_l) client()->startMining(); else client()->stopMining(); } void QmlEthereum::setListening(bool _l) { if (_l) client()->startNetwork(); else client()->stopNetwork(); } double QmlEthereum::txCountAt(Address _a) const { return (double)client()->postState().transactionsFrom(_a); } unsigned QmlEthereum::peerCount() const { return (unsigned)client()->peerCount(); } void QmlEthereum::transact(Secret _secret, u256 _amount, u256 _gasPrice, u256 _gas, QByteArray _init) { client()->transact(_secret, _amount, bytes(_init.data(), _init.data() + _init.size()), _gas, _gasPrice); } void QmlEthereum::transact(Secret _secret, Address _dest, u256 _amount, u256 _gasPrice, u256 _gas, QByteArray _data) { client()->transact(_secret, _amount, _dest, bytes(_data.data(), _data.data() + _data.size()), _gas, _gasPrice); } #endif