use crate::dart_notification::{send_dart_notification, GridNotification}; use crate::manager::GridUser; use crate::services::block_meta_editor::GridBlockMetaEditorManager; use crate::services::field::{type_option_json_str_from_bytes, FieldBuilder}; use crate::services::row::*; use bytes::Bytes; use flowy_error::{ErrorCode, FlowyError, FlowyResult}; use flowy_grid_data_model::entities::*; use flowy_revision::{RevisionCloudService, RevisionCompactor, RevisionManager, RevisionObjectBuilder}; use flowy_sync::client_grid::{GridChangeset, GridMetaPad}; use flowy_sync::entities::revision::Revision; use flowy_sync::util::make_delta_from_revisions; use lib_infra::future::FutureResult; use lib_ot::core::PlainTextAttributes; use std::collections::HashMap; use std::sync::Arc; use tokio::sync::RwLock; pub struct ClientGridEditor { grid_id: String, user: Arc, pad: Arc>, rev_manager: Arc, block_meta_manager: Arc, } impl ClientGridEditor { pub async fn new( grid_id: &str, user: Arc, mut rev_manager: RevisionManager, ) -> FlowyResult> { let token = user.token()?; let cloud = Arc::new(GridRevisionCloudService { token }); let grid_pad = rev_manager.load::(Some(cloud)).await?; let rev_manager = Arc::new(rev_manager); let pad = Arc::new(RwLock::new(grid_pad)); let block_meta_manager = Arc::new(GridBlockMetaEditorManager::new(grid_id, &user, pad.read().await.get_blocks().clone()).await?); Ok(Arc::new(Self { grid_id: grid_id.to_owned(), user, pad, rev_manager, block_meta_manager, })) } pub async fn create_field(&self, params: CreateFieldParams) -> FlowyResult<()> { let CreateFieldParams { field, type_option_data, start_field_id, grid_id, } = params; let _ = self .modify(|grid| { if grid.contain_field(&field.id) { let changeset = FieldChangesetParams { field_id: field.id, grid_id, name: Some(field.name), desc: Some(field.desc), field_type: Some(field.field_type), frozen: Some(field.frozen), visibility: Some(field.visibility), width: Some(field.width), type_option_data: Some(type_option_data), }; Ok(grid.update_field(changeset)?) } else { let type_option_json = type_option_json_str_from_bytes(type_option_data, &field.field_type); let field_meta = FieldMeta { id: field.id, name: field.name, desc: field.desc, field_type: field.field_type, frozen: field.frozen, visibility: field.visibility, width: field.width, type_option_json, }; Ok(grid.create_field(field_meta, start_field_id)?) } }) .await?; let _ = self.notify_did_update_fields().await?; Ok(()) } pub async fn default_field_meta(&self, field_type: &FieldType) -> FlowyResult { let name = format!("Property {}", self.pad.read().await.fields().len() + 1); let field_meta = FieldBuilder::from_field_type(field_type).name(&name).build(); Ok(field_meta) } pub async fn contain_field(&self, field_id: &str) -> bool { self.pad.read().await.contain_field(field_id) } pub async fn update_field(&self, mut params: FieldChangesetParams) -> FlowyResult<()> { if let Some(type_option_data) = params.type_option_data { match self.pad.read().await.get_field(¶ms.field_id) { None => return Err(ErrorCode::FieldDoesNotExist.into()), Some(field_meta) => { // The type_option_data is serialized by protobuf. But the type_option_data should be // serialized by utf-8 encoding. So we must transform the data here. let type_option_json = type_option_json_str_from_bytes(type_option_data, &field_meta.field_type); params.type_option_data = Some(type_option_json.as_bytes().to_vec()); } } } let _ = self.modify(|grid| Ok(grid.update_field(params)?)).await?; let _ = self.notify_did_update_fields().await?; Ok(()) } pub async fn delete_field(&self, field_id: &str) -> FlowyResult<()> { let _ = self.modify(|grid| Ok(grid.delete_field(field_id)?)).await?; let _ = self.notify_did_update_fields().await?; Ok(()) } pub async fn duplicate_field(&self, field_id: &str) -> FlowyResult<()> { let _ = self.modify(|grid| Ok(grid.duplicate_field(field_id)?)).await?; let _ = self.notify_did_update_fields().await?; Ok(()) } pub async fn get_field(&self, field_id: &str) -> FlowyResult> { match self.pad.read().await.get_field(field_id) { None => Ok(None), Some(field_meta) => Ok(Some(field_meta.clone())), } } pub async fn create_block(&self, grid_block: GridBlockMeta) -> FlowyResult<()> { let _ = self.modify(|grid| Ok(grid.create_block(grid_block)?)).await?; Ok(()) } pub async fn update_block(&self, changeset: GridBlockMetaChangeset) -> FlowyResult<()> { let _ = self.modify(|grid| Ok(grid.update_block(changeset)?)).await?; Ok(()) } pub async fn create_row(&self, start_row_id: Option) -> FlowyResult { let field_metas = self.pad.read().await.get_field_metas(None)?; let block_id = self.block_id().await?; // insert empty row below the row whose id is upper_row_id let row_meta_ctx = CreateRowMetaBuilder::new(&field_metas).build(); let row_meta = make_row_meta_from_context(&block_id, row_meta_ctx); let row_order = RowOrder::from(&row_meta); // insert the row let row_count = self .block_meta_manager .create_row(&block_id, row_meta, start_row_id) .await?; // update block row count let changeset = GridBlockMetaChangeset::from_row_count(&block_id, row_count); let _ = self.update_block(changeset).await?; Ok(row_order) } pub async fn insert_rows(&self, contexts: Vec) -> FlowyResult> { let block_id = self.block_id().await?; let mut rows_by_block_id: HashMap> = HashMap::new(); let mut row_orders = vec![]; for ctx in contexts { let row_meta = make_row_meta_from_context(&block_id, ctx); row_orders.push(RowOrder::from(&row_meta)); rows_by_block_id .entry(block_id.clone()) .or_insert_with(Vec::new) .push(row_meta); } let changesets = self.block_meta_manager.insert_row(rows_by_block_id).await?; for changeset in changesets { let _ = self.update_block(changeset).await?; } Ok(row_orders) } pub async fn update_row(&self, changeset: RowMetaChangeset) -> FlowyResult<()> { self.block_meta_manager.update_row(changeset).await } pub async fn get_rows(&self, block_id: &str) -> FlowyResult { let block_ids = vec![block_id.to_owned()]; let mut block_meta_data_vec = self.get_block_meta_data_vec(Some(&block_ids)).await?; debug_assert_eq!(block_meta_data_vec.len(), 1); if block_meta_data_vec.len() == 1 { let block_meta_data = block_meta_data_vec.pop().unwrap(); let field_metas = self.get_field_metas(None).await?; let rows = make_rows_from_row_metas(&field_metas, &block_meta_data.row_metas); Ok(rows.into()) } else { Ok(vec![].into()) } } pub async fn get_row(&self, block_id: &str, row_id: &str) -> FlowyResult> { match self.block_meta_manager.get_row(block_id, row_id).await? { None => Ok(None), Some(row) => { let field_metas = self.get_field_metas(None).await?; let row_metas = vec![row]; let mut rows = make_rows_from_row_metas(&field_metas, &row_metas); debug_assert!(rows.len() == 1); Ok(rows.pop()) } } } pub async fn update_cell(&self, changeset: CellMetaChangeset) -> FlowyResult<()> { if let Some(cell_data) = changeset.data.as_ref() { match self.pad.read().await.get_field(&changeset.field_id) { None => { return Err(FlowyError::internal() .context(format!("Can not find the field with id: {}", &changeset.field_id))); } Some(field_meta) => { let _ = serialize_cell_data(cell_data, field_meta)?; } } } let field_metas = self.get_field_metas(None).await?; let row_changeset: RowMetaChangeset = changeset.into(); let _ = self .block_meta_manager .update_cells(&field_metas, row_changeset) .await?; Ok(()) } pub async fn get_blocks(&self, block_ids: Option>) -> FlowyResult { let block_meta_data_vec = self.get_block_meta_data_vec(block_ids.as_ref()).await?; match block_ids { None => make_grid_blocks(block_meta_data_vec), Some(block_ids) => make_grid_block_from_block_metas(&block_ids, block_meta_data_vec), } } pub async fn get_block_metas(&self) -> FlowyResult> { let grid_blocks = self.pad.read().await.get_blocks(); Ok(grid_blocks) } pub async fn delete_rows(&self, row_orders: Vec) -> FlowyResult<()> { let changesets = self.block_meta_manager.delete_rows(row_orders).await?; for changeset in changesets { let _ = self.update_block(changeset).await?; } Ok(()) } pub async fn grid_data(&self) -> FlowyResult { let field_orders = self.pad.read().await.get_field_orders(); let block_orders = self .pad .read() .await .get_blocks() .into_iter() .map(|grid_block_meta| GridBlockOrder { block_id: grid_block_meta.block_id, }) .collect::>(); Ok(Grid { id: self.grid_id.clone(), field_orders, block_orders, }) } pub async fn get_field_metas(&self, field_orders: Option) -> FlowyResult> { let mut field_metas = self.pad.read().await.get_field_metas(field_orders)?; field_metas.retain(|field_meta| field_meta.visibility); Ok(field_metas) } pub async fn get_block_meta_data_vec( &self, block_ids: Option<&Vec>, ) -> FlowyResult> { match block_ids { None => { let grid_blocks = self.pad.read().await.get_blocks(); let row_metas_per_block = self .block_meta_manager .get_block_meta_data_from_blocks(grid_blocks) .await?; Ok(row_metas_per_block) } Some(block_ids) => { let row_metas_per_block = self .block_meta_manager .get_block_meta_data(block_ids.as_slice()) .await?; Ok(row_metas_per_block) } } } pub async fn delta_bytes(&self) -> Bytes { self.pad.read().await.delta_bytes() } async fn modify(&self, f: F) -> FlowyResult<()> where F: for<'a> FnOnce(&'a mut GridMetaPad) -> FlowyResult>, { let mut write_guard = self.pad.write().await; match f(&mut *write_guard)? { None => {} Some(change) => { let _ = self.apply_change(change).await?; } } Ok(()) } async fn apply_change(&self, change: GridChangeset) -> FlowyResult<()> { let GridChangeset { delta, md5 } = change; let user_id = self.user.user_id()?; let (base_rev_id, rev_id) = self.rev_manager.next_rev_id_pair(); let delta_data = delta.to_delta_bytes(); let revision = Revision::new( &self.rev_manager.object_id, base_rev_id, rev_id, delta_data, &user_id, md5, ); let _ = self .rev_manager .add_local_revision(&revision, Box::new(GridRevisionCompactor())) .await?; Ok(()) } async fn block_id(&self) -> FlowyResult { match self.pad.read().await.get_blocks().last() { None => Err(FlowyError::internal().context("There is no grid block in this grid")), Some(grid_block) => Ok(grid_block.block_id.clone()), } } async fn notify_did_update_fields(&self) -> FlowyResult<()> { let field_metas = self.get_field_metas(None).await?; let repeated_field: RepeatedField = field_metas.into_iter().map(Field::from).collect::>().into(); send_dart_notification(&self.grid_id, GridNotification::DidUpdateFields) .payload(repeated_field) .send(); Ok(()) } } #[cfg(feature = "flowy_unit_test")] impl ClientGridEditor { pub fn rev_manager(&self) -> Arc { self.rev_manager.clone() } } pub struct GridPadBuilder(); impl RevisionObjectBuilder for GridPadBuilder { type Output = GridMetaPad; fn build_object(object_id: &str, revisions: Vec) -> FlowyResult { let pad = GridMetaPad::from_revisions(object_id, revisions)?; Ok(pad) } } struct GridRevisionCloudService { #[allow(dead_code)] token: String, } impl RevisionCloudService for GridRevisionCloudService { #[tracing::instrument(level = "trace", skip(self))] fn fetch_object(&self, _user_id: &str, _object_id: &str) -> FutureResult, FlowyError> { FutureResult::new(async move { Ok(vec![]) }) } } struct GridRevisionCompactor(); impl RevisionCompactor for GridRevisionCompactor { fn bytes_from_revisions(&self, revisions: Vec) -> FlowyResult { let delta = make_delta_from_revisions::(revisions)?; Ok(delta.to_delta_bytes()) } }