Example #1
0
        public void modelUpdate(action_t action)
        {
            if (!isActionOk(action))
            {
                return;                      // should be assert
            }
            if (!m_last_update_percept == true)
            {
                return;                                // should be assert
            }
            // Update internal model
            symbol_list_t action_syms = new symbol_list_t(0); //(UInt64) m_actions_bits);

            encodeAction(action_syms, action);

            m_ct.update(action_syms);
            m_ct.updateHistory(action_syms);
            if (m_use_self_model)
            {
                m_self_model.update(action_syms);
            }
            m_hash = hashAfterSymbols(action_syms);

            m_time_cycle++;
            m_last_update_percept = false;
        }
Example #2
0
        /// <summary>
        /// 32 bytes transaction hash + 4 bytes signature hash type
        /// </summary>
        /// <param name="sigHashType"> Sighash type. </param>
        /// <returns> Hash and sighash type. </returns>
        public byte[] GetHashBySigHashType(UInt32 sigHashType)
        {
            var managedHash = new hash_t();

            TransactionNative.chain_transaction_hash_sighash_type_out(nativeInstance_, sigHashType, ref managedHash);
            return(managedHash.hash);
        }
Example #3
0
        protected override byte[] GetNthNativeElement(UInt64 n)
        {
            var managedHash = new hash_t();

            HashListNative.kth_core_hash_list_nth_out(NativeInstance, n, ref managedHash);
            return(managedHash.hash);
        }
Example #4
0
 public SearchNode(UInt64 hash, bool is_chance_node)
 {
     m_chance_node = is_chance_node;
     m_mean        = 0.0;
     m_visits      = 0;
     m_hash        = hash;
 }
Example #5
0
        /// <summary>
        /// Get the Nth transaction hash from the block.
        /// </summary>
        /// <param name="n">Zerp-based index.</param>
        /// <returns> Transaction hash in 32 byte array format. </returns>
        public byte[] GetNthHash(int n)
        {
            var managedHash = new hash_t();

            MerkleBlockNative.kth_chain_merkle_block_hash_nth_out(nativeInstance_, (UIntPtr)n, ref managedHash);
            return(managedHash.hash);
        }
Example #6
0
 // construct a save point
 public ModelUndo(Agent agent)
 {
     m_age                 = agent.age();
     m_hash                = agent.hash();
     m_reward              = agent.reward();
     m_history_size        = agent.historySize();
     m_last_update_percept = agent.m_last_update_percept;
 }
Example #7
0
        private void GetTransaction(byte[] txHash, bool requireConfirmed, Action <ErrorCode, Transaction, UInt64, UInt64> handler)
        {
            var managedHash = new hash_t {
                hash = txHash
            };
            IntPtr contextPtr = CreateContext(handler, managedHash);

            ChainNative.kth_chain_async_transaction(nativeInstance_, contextPtr, managedHash, Helper.BoolToC(requireConfirmed), internalGetTransactionHandler_);
        }
Example #8
0
        /// <summary>
        /// Create an output point from a hash and index pair.
        /// </summary>
        /// <param name="pointHash"></param>
        /// <param name="index"></param>
        public OutputPoint(byte[] pointHash, UInt32 index)
        {
            var managedHash = new hash_t
            {
                hash = pointHash
            };

            NativeInstance    = OutputPointNative.chain_output_point_construct_from_hash_index(managedHash, index);
            ownsNativeObject_ = true;
        }
Example #9
0
        private void GetBlockHeaderByHash(byte[] blockHash, Action <ErrorCode, Header, UInt64> handler)
        {
            var managedHash = new hash_t
            {
                hash = blockHash
            };
            IntPtr contextPtr = CreateContext(handler, managedHash);

            ChainNative.kth_chain_async_block_header_by_hash(nativeInstance_, contextPtr, managedHash, internalGetBlockHeaderHandlerByHash_);
        }
Example #10
0
 /* update the non-context tree part of an internal agent after receiving a percept */
 public void nonCTModelUpdate(symbol_list_t percept)
 {
     if (m_use_self_model)
     {
         m_self_model.updateHistory(percept);
     }
     m_hash                = hashAfterSymbols(percept);
     m_total_reward       += rewardFromPercept(percept);
     m_last_update_percept = true;
 }
Example #11
0
        private void FetchMerkleBlockByHash(byte[] blockHash, Action <ErrorCode, MerkleBlock, UInt64> handler)
        {
            var managedHash = new hash_t
            {
                hash = blockHash
            };
            IntPtr contextPtr = CreateContext(handler, managedHash);

            ChainNative.chain_fetch_merkle_block_by_hash(nativeInstance_, contextPtr, managedHash, internalMerkleBlockFetchHandlerByHash_);
        }
Example #12
0
        private void FetchBlockHeight(byte[] blockHash, Action <ErrorCode, UInt64> handler)
        {
            var managedHash = new hash_t
            {
                hash = blockHash
            };
            IntPtr contextPtr = CreateContext(handler, managedHash);

            ChainNative.chain_fetch_block_height(nativeInstance_, contextPtr, managedHash, internalFetchBlockHeightHandler_);
        }
Example #13
0
        private void FetchTransactionPosition(byte[] txHash, bool requireConfirmed, Action <ErrorCode, UInt64, UInt64> handler)
        {
            var managedHash = new hash_t
            {
                hash = txHash
            };
            IntPtr contextPtr = CreateContext(handler, managedHash);

            ChainNative.chain_fetch_transaction_position(nativeInstance_, contextPtr, managedHash, requireConfirmed ? 1 : 0, internalFetchTransactionPositionHandler_);
        }
Example #14
0
        private void FetchBlockHeaderByHashTxSizes(byte[] blockHash, FetchBlockHeaderByHashTxsSizeHandler handler)
        {
            var managedHash = new hash_t
            {
                hash = blockHash
            };
            IntPtr contextPtr = CreateContext(handler, managedHash);

            ChainNative.chain_fetch_block_header_by_hash_txs_size(nativeInstance_, contextPtr, managedHash, internalFetchBlockHeaderByHashTxsSizeHandler_);
        }
Example #15
0
        // resets the agent
        public void reset()
        {
            m_ct.clear();
            if (m_use_self_model)
            {
                m_self_model.clear();
            }

            m_time_cycle          = 0;
            m_total_reward        = 0.0;
            m_last_update_percept = false;
            m_hash = 5381 << 32;
        }
Example #16
0
        /* computes the resultant history hash after processing a set of symbols */
        hash_t hashAfterSymbols(symbol_list_t new_syms)
        {
            hash_t rval = m_hash;

            // update the hash of the history
            //symbol_list_t::const_iterator it = new_syms.begin();
            int it = 0;

            for (; it != new_syms.bits.Length; ++it)
            {
                rval = hashAfterSymbol(new_syms.bits[it], rval);
            }

            return(rval);
        }
Example #17
0
        /* computes the resultant history hash after processing a single symbol */
        hash_t hashAfterSymbol(symbol_t sym, hash_t hash)
        {
            UInt64 c = (sym == true) ? '1' : '0';

            // update with a single iteration of the SDBM hash
            hash_t low = (hash << 32) >> 32;

            low = c + (low << 6) + (low << 16) - low;

            // update with a single iteration of the DJB2 hash
            hash_t high = hash >> 32;

            high = ((high << 5) + high) + c;

            // combine
            return((high << 32) | low);
        }
Example #18
0
 private static void KeokenStateDelegatedCreateAssetHandlerInternal(IntPtr state, string asset_name, Int64 asset_amount,
                                                                    IntPtr owner, UInt64 block_height, hash_t txid)
 {
     using (var owner_address = new PaymentAddress(owner))
     {
         internalState_.CreateAsset(asset_name, asset_amount, owner_address, block_height, txid.hash);
     }
 }
Example #19
0
        // revert the agent's internal model of the world
        // to that of a previous time cycle, false on failure
        public bool modelRevert(ModelUndo mu)
        {
            // return false; // TODONE: implement
            // assert(m_ct->historySize() > mu.historySize());
            // assert(!m_use_self_model || m_self_model->historySize() > mu.historySize());

            if (m_time_cycle < mu.age())
            {
                return(false);
            }

            // agent properties must be reverted before context update,
            // since the predicates that depend on the context may
            // depend on them
            m_time_cycle          = mu.age();
            m_hash                = mu.hash();
            m_total_reward        = mu.reward();
            m_last_update_percept = mu.lastUpdatePercept();

            // revert the context tree and history back to it's previous state

            if (mu.lastUpdatePercept())
            { // if we are undoing an action
                m_ct.revertHistory(mu.historySize());
                if (m_use_self_model)
                {
                    Int64 end_size = (Int64)m_self_model.historySize();
                    for (Int64 i = 0; i < (Int64)end_size - (Int64)mu.historySize(); i++)
                    {
                        m_self_model.revert();
                    }
                }
            }
            else
            {
                // if we are undoing an observation / reward
                Int64 end_size     = (Int64)m_ct.historySize();
                Int64 percept_bits = (Int64)(m_obs_bits + m_rew_bits);
                Int64 lim          = (Int64)end_size - (Int64)mu.historySize();
                for (Int64 i = 0; i < (Int64)end_size - (Int64)mu.historySize(); i++)
                {
                    //ORIGINAL ::  m_ct.revert(percept_bits - i - 1);
                    Int64 offset = percept_bits - i - 1;
                    m_ct.revert();
                    for (Int64 ix = 0; ix < (Int64)m_ct.size(); ix++)
                    {
                        if (ix != offset)
                        {
                            m_ct.m_history.pop_back();
                        }
                    }
                }
                if (m_use_self_model)
                {
                    m_self_model.revertHistory(mu.historySize());
                }
            }

            //assert(!m_use_self_model || m_self_model.historySize() == m_ct.historySize());

            return(true);
        }
Example #20
0
        private static void FetchBlockByHeightHashTimestampInternalHandler(IntPtr chain, IntPtr context, ErrorCode error, hash_t blockHash, UInt32 timestamp, UInt64 height)
        {
            GCHandle handlerHandle = (GCHandle)context;

            try
            {
                var handler = (handlerHandle.Target as FetchBlockByHeightHashTimestampHandler);
                //Copy native memory before it goes out of scope
                byte[] blockHashCopy = new byte[blockHash.hash.Length];
                blockHash.hash.CopyTo(blockHashCopy, 0);
                //Convert Unix timestamp to date
                DateTime blockDate = DateTimeOffset.FromUnixTimeSeconds(timestamp).UtcDateTime;
                handler(error, blockHashCopy, blockDate, height);
            }
            finally
            {
                handlerHandle.Free();
            }
        }
Example #21
0
 public static extern void keoken_memory_state_create_balance_entry(IntPtr state, UInt32 asset_id, Int64 asset_amount, IntPtr source, IntPtr target, UInt64 block_height, hash_t txid);
Example #22
0
 public static extern void keoken_memory_state_create_asset(IntPtr state, [MarshalAs(UnmanagedType.LPStr)] string asset_name, Int64 asset_amount, IntPtr owner, UInt64 block_height, hash_t txid);
Example #23
0
 private static void KeokenStateDelegatedCreateBalanceEntryHandlerInternal(IntPtr state, UInt32 asset_id, Int64 asset_amount,
                                                                           IntPtr source, IntPtr target, UInt64 block_height, hash_t txid)
 {
     using (var source_address = new PaymentAddress(source))
         using (var target_address = new PaymentAddress(target))
         {
             internalState_.CreateBalanceEntry(asset_id, asset_amount, source_address, target_address, block_height, txid.hash);
         }
 }