vector<TxInfo>
createRandomTransaction_uniformLoadingCreating()
{
vector<optional<TxInfo>> txs;
size_t iFrom, iTo;
do
{
iFrom = static_cast<int>(rand_fraction() * mAccounts.size());
iTo = static_cast<int>(rand_fraction() * mAccounts.size());
} while (iFrom == iTo);
txs.push_back(ensureAccountIsLoadedCreated(iFrom));
txs.push_back(ensureAccountIsLoadedCreated(iTo));
uint64_t amount = static_cast<uint64_t>(
rand_fraction() *
min(static_cast<uint64_t>(1000),
(mAccounts[iFrom]->mBalance - getMinBalance()) / 3));
txs.push_back(make_optional<TxInfo>(createTransferTransaction(iFrom, iTo, amount)));
vector<TxInfo> result;
for(auto tx : txs)
{
if (tx)
result.push_back(*tx);
}
return result;
}
vector<TxInfo>
createRandomTransaction_uniformLoadingCreating()
{
auto from = pickRandomAccount(mAccounts.at(0), 0);
auto to = pickRandomAccount(from, 0);
vector<optional<TxInfo>> txs;
txs.push_back(ensureAccountIsLoadedCreated(from->mId));
txs.push_back(ensureAccountIsLoadedCreated(to->mId));
int64_t amount = static_cast<int64_t>(
rand_fraction() * min(static_cast<int64_t>(1000),
(from->mBalance - mMinBalance) / 3));
txs.push_back(make_optional<TxInfo>(
createTransferNativeTransaction(from, to, amount)));
vector<TxInfo> result;
for (auto tx : txs)
{
if (tx)
result.push_back(*tx);
}
return result;
}