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Merge #14103: docs: Fix broken Doxygen comments
0e534d4dcae91ecf7ebd7a667227f7c26b4d5755 Fix incorrect Doxygen comments (practicalswift) Pull request description: Fix broken Doxygen comments. This commit was taken from #13914 which now only covers `-Wdocumentation`. Tree-SHA512: dddbca16bb792b8193e5f417151b5eace9acc942a321f1bc095b906e98889e3bd93509fe112ab6a24ee1f6a3a918db905bda7acefd53774fe3e6ebe669fb51ac # Conflicts: # src/policy/fees.h # src/wallet/wallet.h
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@ -22,51 +22,6 @@ class CTxMemPoolEntry;
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class CTxMemPool;
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class TxConfirmStats;
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/** \class CBlockPolicyEstimator
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* The BlockPolicyEstimator is used for estimating the feerate needed
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* for a transaction to be included in a block within a certain number of
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* blocks.
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*
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* At a high level the algorithm works by grouping transactions into buckets
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* based on having similar feerates and then tracking how long it
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* takes transactions in the various buckets to be mined. It operates under
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* the assumption that in general transactions of higher feerate will be
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* included in blocks before transactions of lower feerate. So for
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* example if you wanted to know what feerate you should put on a transaction to
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* be included in a block within the next 5 blocks, you would start by looking
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* at the bucket with the highest feerate transactions and verifying that a
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* sufficiently high percentage of them were confirmed within 5 blocks and
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* then you would look at the next highest feerate bucket, and so on, stopping at
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* the last bucket to pass the test. The average feerate of transactions in this
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* bucket will give you an indication of the lowest feerate you can put on a
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* transaction and still have a sufficiently high chance of being confirmed
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* within your desired 5 blocks.
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*
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* Here is a brief description of the implementation:
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* When a transaction enters the mempool, we track the height of the block chain
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* at entry. All further calculations are conducted only on this set of "seen"
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* transactions. Whenever a block comes in, we count the number of transactions
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* in each bucket and the total amount of feerate paid in each bucket. Then we
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* calculate how many blocks Y it took each transaction to be mined. We convert
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* from a number of blocks to a number of periods Y' each encompassing "scale"
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* blocks. This is is tracked in 3 different data sets each up to a maximum
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* number of periods. Within each data set we have an array of counters in each
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* feerate bucket and we increment all the counters from Y' up to max periods
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* representing that a tx was successfully confirmed in less than or equal to
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* that many periods. We want to save a history of this information, so at any
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* time we have a counter of the total number of transactions that happened in a
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* given feerate bucket and the total number that were confirmed in each of the
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* periods or less for any bucket. We save this history by keeping an
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* exponentially decaying moving average of each one of these stats. This is
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* done for a different decay in each of the 3 data sets to keep relevant data
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* from different time horizons. Furthermore we also keep track of the number
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* unmined (in mempool or left mempool without being included in a block)
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* transactions in each bucket and for how many blocks they have been
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* outstanding and use both of these numbers to increase the number of transactions
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* we've seen in that feerate bucket when calculating an estimate for any number
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* of confirmations below the number of blocks they've been outstanding.
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*/
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/* Identifier for each of the 3 different TxConfirmStats which will track
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* history over different time horizons. */
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enum class FeeEstimateHorizon {
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@ -130,7 +85,50 @@ struct FeeCalculation
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int returnedTarget = 0;
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};
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/**
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/** \class CBlockPolicyEstimator
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* The BlockPolicyEstimator is used for estimating the feerate needed
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* for a transaction to be included in a block within a certain number of
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* blocks.
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*
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* At a high level the algorithm works by grouping transactions into buckets
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* based on having similar feerates and then tracking how long it
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* takes transactions in the various buckets to be mined. It operates under
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* the assumption that in general transactions of higher feerate will be
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* included in blocks before transactions of lower feerate. So for
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* example if you wanted to know what feerate you should put on a transaction to
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* be included in a block within the next 5 blocks, you would start by looking
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* at the bucket with the highest feerate transactions and verifying that a
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* sufficiently high percentage of them were confirmed within 5 blocks and
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* then you would look at the next highest feerate bucket, and so on, stopping at
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* the last bucket to pass the test. The average feerate of transactions in this
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* bucket will give you an indication of the lowest feerate you can put on a
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* transaction and still have a sufficiently high chance of being confirmed
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* within your desired 5 blocks.
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*
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* Here is a brief description of the implementation:
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* When a transaction enters the mempool, we track the height of the block chain
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* at entry. All further calculations are conducted only on this set of "seen"
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* transactions. Whenever a block comes in, we count the number of transactions
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* in each bucket and the total amount of feerate paid in each bucket. Then we
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* calculate how many blocks Y it took each transaction to be mined. We convert
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* from a number of blocks to a number of periods Y' each encompassing "scale"
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* blocks. This is tracked in 3 different data sets each up to a maximum
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* number of periods. Within each data set we have an array of counters in each
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* feerate bucket and we increment all the counters from Y' up to max periods
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* representing that a tx was successfully confirmed in less than or equal to
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* that many periods. We want to save a history of this information, so at any
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* time we have a counter of the total number of transactions that happened in a
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* given feerate bucket and the total number that were confirmed in each of the
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* periods or less for any bucket. We save this history by keeping an
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* exponentially decaying moving average of each one of these stats. This is
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* done for a different decay in each of the 3 data sets to keep relevant data
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* from different time horizons. Furthermore we also keep track of the number
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* unmined (in mempool or left mempool without being included in a block)
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* transactions in each bucket and for how many blocks they have been
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* outstanding and use both of these numbers to increase the number of transactions
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* we've seen in that feerate bucket when calculating an estimate for any number
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* of confirmations below the number of blocks they've been outstanding.
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*
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* We want to be able to estimate feerates that are needed on tx's to be included in
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* a certain number of blocks. Every time a block is added to the best chain, this class records
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* stats on the transactions included in that block
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@ -260,7 +260,7 @@ private:
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void setEncryptionStatus(int status);
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/** Set the hd-enabled status as shown in the UI.
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@param[in] status current hd enabled status
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@param[in] hdEnabled current hd enabled status
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@see WalletModel::EncryptionStatus
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*/
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void setHDStatus(int hdEnabled);
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@ -147,7 +147,7 @@ public:
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* - Within single quotes, no escaping is possible and no special interpretation takes place
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*
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* @param[in] node optional node to execute command on
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* @param[out] result stringified Result from the executed command(chain)
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* @param[out] strResult stringified result from the executed command(chain)
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* @param[in] strCommand Command line to split
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* @param[in] fExecute set true if you want the command to be executed
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* @param[out] pstrFilteredOut Command line, filtered to remove any sensitive data
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@ -1061,7 +1061,7 @@ public:
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CFeeRate m_pay_tx_fee{DEFAULT_PAY_TX_FEE};
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unsigned int m_confirm_target{DEFAULT_TX_CONFIRM_TARGET};
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bool m_spend_zero_conf_change{DEFAULT_SPEND_ZEROCONF_CHANGE};
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bool m_allow_fallback_fee{true}; //<! will be defined via chainparams
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bool m_allow_fallback_fee{true}; //!< will be defined via chainparams
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CFeeRate m_min_fee{DEFAULT_TRANSACTION_MINFEE}; //!< Override with -mintxfee
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/**
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* If fee estimation does not have enough data to provide estimates, use this fee instead.
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