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use crate::component::container::AncestorsScoreSortKey;
use crate::component::get_transaction_virtual_bytes;
use ckb_types::{
    core::{cell::ResolvedTransaction, tx_pool::TxEntryInfo, Capacity, Cycle, TransactionView},
    packed::{OutPoint, ProposalShortId},
};
use std::cmp::Ordering;
use std::hash::{Hash, Hasher};

/// An entry in the transaction pool.
#[derive(Debug, Clone, Eq)]
pub struct TxEntry {
    /// Transaction
    pub rtx: ResolvedTransaction,
    /// Cycles
    pub cycles: Cycle,
    /// tx size
    pub size: usize,
    /// fee
    pub fee: Capacity,
    /// ancestors txs size
    pub ancestors_size: usize,
    /// ancestors txs fee
    pub ancestors_fee: Capacity,
    /// ancestors txs cycles
    pub ancestors_cycles: Cycle,
    /// ancestors txs count
    pub ancestors_count: usize,
}

impl TxEntry {
    /// Create new transaction pool entry
    pub fn new(rtx: ResolvedTransaction, cycles: Cycle, fee: Capacity, size: usize) -> Self {
        TxEntry {
            rtx,
            cycles,
            size,
            fee,
            ancestors_size: size,
            ancestors_fee: fee,
            ancestors_cycles: cycles,
            ancestors_count: 1,
        }
    }

    /// Create dummy entry from tx, skip resolve
    pub fn dummy_resolve(tx: TransactionView, cycles: Cycle, fee: Capacity, size: usize) -> Self {
        let rtx = ResolvedTransaction::dummy_resolve(tx);
        TxEntry::new(rtx, cycles, fee, size)
    }

    /// Return related dep out_points
    pub fn related_dep_out_points(&self) -> impl Iterator<Item = &OutPoint> {
        self.rtx.related_dep_out_points()
    }

    /// Return reference of transaction
    pub fn transaction(&self) -> &TransactionView {
        &self.rtx.transaction
    }

    /// Return proposal_short_id of transaction
    pub fn proposal_short_id(&self) -> ProposalShortId {
        self.transaction().proposal_short_id()
    }

    /// Returns a sorted_key
    pub fn as_sorted_key(&self) -> AncestorsScoreSortKey {
        AncestorsScoreSortKey::from(self)
    }

    /// Update ancestor state for add an entry
    pub fn add_entry_weight(&mut self, entry: &TxEntry) {
        self.ancestors_count = self.ancestors_count.saturating_add(1);
        self.ancestors_size = self.ancestors_size.saturating_add(entry.size);
        self.ancestors_cycles = self.ancestors_cycles.saturating_add(entry.cycles);
        self.ancestors_fee = Capacity::shannons(
            self.ancestors_fee
                .as_u64()
                .saturating_add(entry.fee.as_u64()),
        );
    }
    /// Update ancestor state for remove an entry
    pub fn sub_entry_weight(&mut self, entry: &TxEntry) {
        self.ancestors_count = self.ancestors_count.saturating_sub(1);
        self.ancestors_size = self.ancestors_size.saturating_sub(entry.size);
        self.ancestors_cycles = self.ancestors_cycles.saturating_sub(entry.cycles);
        self.ancestors_fee = Capacity::shannons(
            self.ancestors_fee
                .as_u64()
                .saturating_sub(entry.fee.as_u64()),
        );
    }

    /// Reset ancestor state by remove
    pub fn reset_ancestors_state(&mut self) {
        self.ancestors_count = 1;
        self.ancestors_size = self.size;
        self.ancestors_cycles = self.cycles;
        self.ancestors_fee = self.fee;
    }

    /// Converts entry to a `TxEntryInfo`.
    pub fn to_info(&self) -> TxEntryInfo {
        TxEntryInfo {
            cycles: self.cycles,
            size: self.size as u64,
            fee: self.fee,
            ancestors_size: self.ancestors_size as u64,
            ancestors_cycles: self.ancestors_cycles as u64,
            ancestors_count: self.ancestors_count as u64,
        }
    }
}

impl From<&TxEntry> for AncestorsScoreSortKey {
    fn from(entry: &TxEntry) -> Self {
        let vbytes = get_transaction_virtual_bytes(entry.size, entry.cycles);
        let ancestors_vbytes =
            get_transaction_virtual_bytes(entry.ancestors_size, entry.ancestors_cycles);
        AncestorsScoreSortKey {
            fee: entry.fee,
            vbytes,
            id: entry.proposal_short_id(),
            ancestors_fee: entry.ancestors_fee,
            ancestors_size: entry.ancestors_size,
            ancestors_vbytes,
        }
    }
}

impl Hash for TxEntry {
    fn hash<H: Hasher>(&self, state: &mut H) {
        Hash::hash(self.transaction(), state);
    }
}

impl PartialEq for TxEntry {
    fn eq(&self, other: &TxEntry) -> bool {
        self.rtx.transaction == other.rtx.transaction
    }
}

impl PartialOrd for TxEntry {
    fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
        Some(self.cmp(other))
    }
}

impl Ord for TxEntry {
    fn cmp(&self, other: &Self) -> Ordering {
        self.as_sorted_key().cmp(&other.as_sorted_key())
    }
}