use crate::ship::items::ClientItemId; use crate::entity::item::{Meseta, ItemNote}; use std::future::Future; use std::pin::Pin; use crate::ship::map::MapArea; use crate::entity::character::{CharacterEntity, CharacterEntityId}; use crate::entity::gateway::{EntityGateway, EntityGatewayTransaction}; use crate::ship::items::state::{ItemState, ItemStateProxy, ItemStateAction, ItemAction, ItemStateError, FloorItem, InventoryItem, AddItemResult, FloorItemDetail, StackedItemDetail, BankItem, BankItemDetail, InventoryItemDetail}; pub enum TriggerCreateItem { Yes, No } fn take_item_from_floor(character_id: CharacterEntityId, item_id: ClientItemId) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), FloorItem), ItemStateError>> + Send + 'a>> { move |(mut item_state, transaction), _| { Box::pin(async move { let mut floor = item_state.floor(&character_id)?; let item = floor.take_item(&item_id).ok_or(ItemStateError::NoFloorItem(item_id))?; item_state.set_floor(floor); Ok(((item_state, transaction), item)) }) } } fn add_floor_item_to_inventory(character: &CharacterEntity) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), FloorItem) -> Pin, Box), TriggerCreateItem), ItemStateError>> + Send + 'a>> { let character = character.clone(); move |(mut item_state, transaction), floor_item| { let character = character.clone(); Box::pin(async move { let mut inventory = item_state.inventory(&character.id)?; let character_id = character.id; let transaction = floor_item.with_entity_id(Ok(transaction), |mut transaction: Result<_, ItemStateError>, entity_id| { async move { if let Ok(transaction) = &mut transaction { transaction.gateway().add_item_note(&entity_id, ItemNote::Pickup { character_id }).await?; } transaction }}).await?; let mut transaction = floor_item.with_mag(Ok(transaction), |mut transaction: Result<_, ItemStateError>, entity_id, _mag| { let character = character.clone(); async move { if let Ok(transaction) = &mut transaction { transaction.gateway().change_mag_owner(&entity_id, &character).await?; } transaction }}).await?; let add_result = inventory.add_floor_item(floor_item)?; transaction.gateway().set_character_inventory(&character.id, &inventory.as_inventory_entity(&character.id)).await?; item_state.set_inventory(inventory); Ok(((item_state, transaction), match add_result { AddItemResult::NewItem => TriggerCreateItem::Yes, AddItemResult::AddToStack => TriggerCreateItem::No, AddItemResult::Meseta => TriggerCreateItem::No, })) }) } } pub async fn pick_up_item( item_state: &mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, item_id: &ClientItemId) -> Result where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_item_from_floor(character.id, *item_id)) .act(add_floor_item_to_inventory(character)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await } fn take_item_from_inventory(character_id: CharacterEntityId, item_id: ClientItemId, amount: u32) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), InventoryItem), ItemStateError>> + Send + 'a>> { move |(mut item_state, mut transaction), _| { Box::pin(async move { let mut inventory = item_state.inventory(&character_id)?; let item = inventory.take_item(&item_id, amount).ok_or_else (|| ItemStateError::NoFloorItem(item_id))?; transaction.gateway().set_character_inventory(&character_id, &inventory.as_inventory_entity(&character_id)).await?; item_state.set_inventory(inventory); Ok(((item_state, transaction), item)) }) } } fn add_inventory_item_to_shared_floor(character_id: CharacterEntityId, map_area: MapArea, drop_position: (f32, f32, f32)) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), InventoryItem) -> Pin, Box), FloorItem), ItemStateError>> + Send + 'a>> { move |(mut item_state, transaction), inventory_item| { Box::pin(async move { let transaction = inventory_item.with_entity_id(Ok(transaction), |mut transaction: Result<_, ItemStateError>, entity_id| { async move { if let Ok(transaction) = &mut transaction { transaction.gateway().add_item_note(&entity_id, ItemNote::PlayerDrop { character_id, map_area, x: drop_position.0, y: drop_position.1, z: drop_position.2, }).await?; } transaction }}).await?; let mut floor = item_state.floor(&character_id)?; let floor_item = floor.add_inventory_item(inventory_item, map_area, drop_position).clone(); item_state.set_floor(floor); Ok(((item_state, transaction), floor_item)) }) } } pub async fn drop_item( item_state: &mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, item_id: &ClientItemId, map_area: MapArea, drop_position: (f32, f32, f32)) -> Result where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_item_from_inventory(character.id, *item_id, 1)) .act(add_inventory_item_to_shared_floor(character.id, map_area, drop_position)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await } pub async fn drop_partial_item<'a, EG>( item_state: &'a mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, item_id: &ClientItemId, map_area: MapArea, drop_position: (f32, f32), amount: u32) -> Result where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_item_from_inventory(character.id, *item_id, amount)) .act(add_inventory_item_to_shared_floor(character.id, map_area, (drop_position.0, 0.0, drop_position.1))) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await } fn take_meseta_from_inventory(character_id: CharacterEntityId, amount: u32) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), ()), ItemStateError>> + Send + 'a>> { move |(mut item_state, mut transaction), _| { Box::pin(async move { let mut inventory = item_state.inventory(&character_id)?; inventory.remove_meseta(amount)?; transaction.gateway().set_character_meseta(&character_id, inventory.meseta).await?; Ok(((item_state, transaction), ())) }) } } fn add_meseta_to_shared_floor(character_id: CharacterEntityId, amount: u32, map_area: MapArea, drop_position: (f32, f32)) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), FloorItem), ItemStateError>> + Send + 'a>> { move |(mut item_state, transaction), _| { Box::pin(async move { let floor_item = FloorItem { item_id: item_state.new_item_id()?, item: FloorItemDetail::Meseta(Meseta(amount)), map_area: map_area, x: drop_position.0, y: 0.0, z: drop_position.1, }; let mut floor = item_state.floor(&character_id)?; let floor_item = floor.add_item(floor_item).clone(); item_state.set_floor(floor); Ok(((item_state, transaction), floor_item)) }) } } pub async fn drop_meseta<'a, EG>( item_state: &'a mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, map_area: MapArea, drop_position: (f32, f32), amount: u32) -> Result where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_meseta_from_inventory(character.id, amount)) .act(add_meseta_to_shared_floor(character.id, amount, map_area, drop_position)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await } fn take_meseta_from_bank(character_id: CharacterEntityId, amount: u32) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), ()), ItemStateError>> + Send + 'a>> { move |(mut item_state, mut transaction), _| { Box::pin(async move { let mut bank = item_state.bank(&character_id)?; bank.remove_meseta(amount)?; transaction.gateway().set_bank_meseta(&character_id, &bank.name, bank.meseta).await?; Ok(((item_state, transaction), ())) }) } } fn add_meseta_from_bank_to_inventory(character_id: CharacterEntityId, amount: u32) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), ()), ItemStateError>> + Send + 'a>> { move |(mut item_state, mut transaction), _| { Box::pin(async move { let mut inventory = item_state.inventory(&character_id)?; inventory.add_meseta_no_overflow(amount)?; transaction.gateway().set_character_meseta(&character_id, inventory.meseta).await?; Ok(((item_state, transaction), ())) }) } } pub async fn withdraw_meseta<'a, EG>( item_state: &'a mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, amount: u32) -> Result<(), ItemStateError> where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_meseta_from_bank(character.id, amount)) .act(add_meseta_from_bank_to_inventory(character.id, amount)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await } fn add_meseta_to_bank(character_id: CharacterEntityId, amount: u32) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), ()), ItemStateError>> + Send + 'a>> { move |(mut item_state, mut transaction), _| { Box::pin(async move { let mut bank = item_state.bank(&character_id)?; bank.add_meseta(amount)?; transaction.gateway().set_bank_meseta(&character_id, &bank.name, bank.meseta).await?; Ok(((item_state, transaction), ())) }) } } pub async fn deposit_meseta<'a, EG>( item_state: &'a mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, amount: u32) -> Result<(), ItemStateError> where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_meseta_from_inventory(character.id, amount)) .act(add_meseta_to_bank(character.id, amount)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, ())) }).await } fn take_item_from_bank(character_id: CharacterEntityId, item_id: ClientItemId, amount: u32) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), ()) -> Pin, Box), BankItem), ItemStateError>> + Send + 'a>> { move |(mut item_state, mut transaction), _| { Box::pin(async move { let mut bank = item_state.bank(&character_id)?; let item = bank.take_item(&item_id, amount).ok_or_else(|| ItemStateError::NoBankItem(item_id))?; transaction.gateway().set_character_bank(&character_id, &bank.as_bank_entity(), &bank.name).await?; item_state.set_bank(bank); Ok(((item_state, transaction), item)) }) } } fn add_bank_item_to_inventory(character: &CharacterEntity) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), BankItem) -> Pin, Box), InventoryItem), ItemStateError>> + Send + 'a>> { let character = character.clone(); move |(mut item_state, transaction), bank_item| { let character = character.clone(); Box::pin(async move { let bank_name = item_state.bank(&character.id)?.name; let mut inventory = item_state.inventory(&character.id)?; let character_id = character.id; let transaction = bank_item.with_entity_id(Ok(transaction), |mut transaction: Result<_, ItemStateError>, entity_id| { let bank_name = bank_name.clone(); async move { if let Ok(transaction) = &mut transaction { transaction.gateway().add_item_note(&entity_id, ItemNote::Withdraw { character_id, bank: bank_name, }).await?; } transaction }}).await?; let inventory_item = InventoryItem { item_id: bank_item.item_id, item: match bank_item.item { BankItemDetail::Individual(individual_item) => InventoryItemDetail::Individual(individual_item), BankItemDetail::Stacked(stacked_item) => InventoryItemDetail::Stacked(stacked_item), }, }; let mut transaction = inventory_item.with_mag(Ok(transaction), |mut transaction: Result<_, ItemStateError>, entity_id, _mag| { let character = character.clone(); async move { if let Ok(transaction) = &mut transaction { transaction.gateway().change_mag_owner(&entity_id, &character).await?; } transaction }}).await?; inventory.add_item(inventory_item.clone())?; transaction.gateway().set_character_inventory(&character.id, &inventory.as_inventory_entity(&character.id)).await?; item_state.set_inventory(inventory); Ok(((item_state, transaction), inventory_item)) }) } } pub async fn withdraw_item<'a, EG>( item_state: &'a mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, item_id: &ClientItemId, amount: u32) -> Result where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_item_from_bank(character.id, *item_id, amount)) .act(add_bank_item_to_inventory(&character)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await } fn add_inventory_item_to_bank(character_id: CharacterEntityId) -> impl for<'a> Fn((ItemStateProxy<'a>, Box), InventoryItem) -> Pin, Box), ()), ItemStateError>> + Send + 'a>> { move |(mut item_state, transaction), inventory_item| { Box::pin(async move { let mut bank = item_state.bank(&character_id)?; let bank_name = bank.name.clone(); let mut transaction = inventory_item.with_entity_id(Ok(transaction), move |mut transaction: Result<_, ItemStateError>, entity_id| { let bank_name = bank_name.clone(); async move { if let Ok(transaction) = &mut transaction { transaction.gateway().add_item_note(&entity_id, ItemNote::Deposit { character_id, bank: bank_name, }).await?; } transaction }}).await?; bank.add_inventory_item(inventory_item)?; transaction.gateway().set_character_bank(&character_id, &bank.as_bank_entity(), &bank.name).await?; item_state.set_bank(bank); Ok(((item_state, transaction), ())) }) } } pub async fn deposit_item<'a, EG> ( item_state: &'a mut ItemState, entity_gateway: &mut EG, character: &CharacterEntity, item_id: &ClientItemId, amount: u32) -> Result<(), ItemStateError> where EG: EntityGateway, { entity_gateway.with_transaction(|transaction| async move { let item_state_proxy = ItemStateProxy::new(item_state); let ((item_state_proxy, transaction), result) = ItemStateAction::default() .act(take_item_from_inventory(character.id, *item_id, amount)) .act(add_inventory_item_to_bank(character.id)) .commit((item_state_proxy, transaction)) .await?; item_state_proxy.commit(); Ok((transaction, result)) }).await }