152 lines
5.6 KiB
Python
152 lines
5.6 KiB
Python
from random import Random
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from typing import List
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from lbry.wallet.transaction import OutputEffectiveAmountEstimator
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MAXIMUM_TRIES = 100000
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STRATEGIES = ['sqlite'] # sqlite coin chooser is in database.py
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def strategy(method):
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STRATEGIES.append(method.__name__)
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return method
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class CoinSelector:
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def __init__(self, target: int, cost_of_change: int, seed: str = None) -> None:
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self.target = target
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self.cost_of_change = cost_of_change
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self.exact_match = False
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self.tries = 0
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self.random = Random(seed)
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if seed is not None:
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self.random.seed(seed, version=1)
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def select(
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self, txos: List[OutputEffectiveAmountEstimator],
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strategy_name: str = None) -> List[OutputEffectiveAmountEstimator]:
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if not txos:
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return []
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available = sum(c.effective_amount for c in txos)
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if self.target > available:
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return []
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return getattr(self, strategy_name or "standard")(txos, available)
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@strategy
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def prefer_confirmed(self, txos: List[OutputEffectiveAmountEstimator],
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available: int) -> List[OutputEffectiveAmountEstimator]:
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return (
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self.only_confirmed(txos, available) or
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self.standard(txos, available)
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)
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@strategy
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def only_confirmed(self, txos: List[OutputEffectiveAmountEstimator],
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_) -> List[OutputEffectiveAmountEstimator]:
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confirmed = [t for t in txos if t.txo.tx_ref and t.txo.tx_ref.height > 0]
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if not confirmed:
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return []
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confirmed_available = sum(c.effective_amount for c in confirmed)
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if self.target > confirmed_available:
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return []
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return self.standard(confirmed, confirmed_available)
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@strategy
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def standard(self, txos: List[OutputEffectiveAmountEstimator],
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available: int) -> List[OutputEffectiveAmountEstimator]:
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return (
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self.branch_and_bound(txos, available) or
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self.closest_match(txos, available) or
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self.random_draw(txos, available)
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)
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@strategy
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def branch_and_bound(self, txos: List[OutputEffectiveAmountEstimator],
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available: int) -> List[OutputEffectiveAmountEstimator]:
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# see bitcoin implementation for more info:
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# https://github.com/bitcoin/bitcoin/blob/master/src/wallet/coinselection.cpp
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txos.sort(reverse=True)
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current_value = 0
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current_available_value = available
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current_selection: List[bool] = []
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best_waste = self.cost_of_change
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best_selection: List[bool] = []
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while self.tries < MAXIMUM_TRIES:
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self.tries += 1
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backtrack = False
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if current_value + current_available_value < self.target or \
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current_value > self.target + self.cost_of_change:
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backtrack = True
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elif current_value >= self.target:
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new_waste = current_value - self.target
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if new_waste <= best_waste:
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best_waste = new_waste
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best_selection = current_selection[:]
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backtrack = True
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if backtrack:
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while current_selection and not current_selection[-1]:
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current_selection.pop()
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current_available_value += txos[len(current_selection)].effective_amount
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if not current_selection:
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break
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current_selection[-1] = False
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utxo = txos[len(current_selection) - 1]
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current_value -= utxo.effective_amount
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else:
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utxo = txos[len(current_selection)]
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current_available_value -= utxo.effective_amount
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previous_utxo = txos[len(current_selection) - 1] if current_selection else None
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if current_selection and not current_selection[-1] and previous_utxo and \
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utxo.effective_amount == previous_utxo.effective_amount and \
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utxo.fee == previous_utxo.fee:
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current_selection.append(False)
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else:
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current_selection.append(True)
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current_value += utxo.effective_amount
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if best_selection:
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self.exact_match = True
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return [
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txos[i] for i, include in enumerate(best_selection) if include
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]
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return []
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@strategy
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def closest_match(self, txos: List[OutputEffectiveAmountEstimator],
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_) -> List[OutputEffectiveAmountEstimator]:
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""" Pick one UTXOs that is larger than the target but with the smallest change. """
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target = self.target + self.cost_of_change
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smallest_change = None
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best_match = None
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for txo in txos:
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if txo.effective_amount >= target:
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change = txo.effective_amount - target
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if smallest_change is None or change < smallest_change:
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smallest_change, best_match = change, txo
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return [best_match] if best_match else []
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@strategy
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def random_draw(self, txos: List[OutputEffectiveAmountEstimator],
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_) -> List[OutputEffectiveAmountEstimator]:
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""" Accumulate UTXOs at random until there is enough to cover the target. """
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target = self.target + self.cost_of_change
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self.random.shuffle(txos, self.random.random)
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selection = []
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amount = 0
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for coin in txos:
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selection.append(coin)
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amount += coin.effective_amount
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if amount >= target:
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return selection
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return []
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