use lib_ot::core::{Node, NodeOperation, Transaction}; use lib_ot::{ core::attributes::Attributes, core::{NodeBody, NodeBodyChangeset, NodeData, NodeTree, Path, TransactionBuilder}, text_delta::TextDelta, }; use std::collections::HashMap; pub enum NodeScript { InsertNode { path: Path, node_data: NodeData, rev_id: usize, }, UpdateAttributes { path: Path, attributes: Attributes, }, UpdateBody { path: Path, changeset: NodeBodyChangeset, }, DeleteNode { path: Path, }, AssertNumberOfNodesAtPath { path: Option, len: usize, }, AssertNodeData { path: Path, expected: Option, }, AssertNode { path: Path, expected: Node, }, AssertNodeDelta { path: Path, expected: TextDelta, }, ApplyTransaction { transaction: Transaction, rev_id: usize, }, } pub struct NodeTest { rev_id: usize, rev_operations: HashMap, node_tree: NodeTree, } impl NodeTest { pub fn new() -> Self { Self { rev_id: 0, rev_operations: HashMap::new(), node_tree: NodeTree::new("root"), } } pub fn run_scripts(&mut self, scripts: Vec) { for script in scripts { self.run_script(script); } } pub fn run_script(&mut self, script: NodeScript) { match script { NodeScript::InsertNode { path, node_data: node, rev_id, } => { let mut transaction = TransactionBuilder::new(&self.node_tree) .insert_node_at_path(path, node) .finalize(); self.transform_transaction_if_need(&mut transaction, rev_id); self.apply_transaction(transaction); } NodeScript::UpdateAttributes { path, attributes } => { let transaction = TransactionBuilder::new(&self.node_tree) .update_attributes_at_path(&path, attributes) .finalize(); self.apply_transaction(transaction); } NodeScript::UpdateBody { path, changeset } => { // let transaction = TransactionBuilder::new(&self.node_tree) .update_body_at_path(&path, changeset) .finalize(); self.apply_transaction(transaction); } NodeScript::DeleteNode { path } => { let transaction = TransactionBuilder::new(&self.node_tree) .delete_node_at_path(&path) .finalize(); self.apply_transaction(transaction); } NodeScript::AssertNode { path, expected } => { let node_id = self.node_tree.node_id_at_path(path).unwrap(); let node = self.node_tree.get_node(node_id).cloned().unwrap(); assert_eq!(node, expected); } NodeScript::AssertNodeData { path, expected } => { let node_id = self.node_tree.node_id_at_path(path); match node_id { None => assert!(node_id.is_none()), Some(node_id) => { let node = self.node_tree.get_node(node_id).cloned(); assert_eq!(node, expected.map(|e| e.into())); } } } NodeScript::AssertNumberOfNodesAtPath { path, len: expected_len, } => match path { None => { let len = self.node_tree.number_of_children(None); assert_eq!(len, expected_len) } Some(path) => { let node_id = self.node_tree.node_id_at_path(path).unwrap(); let len = self.node_tree.number_of_children(Some(node_id)); assert_eq!(len, expected_len) } }, NodeScript::AssertNodeDelta { path, expected } => { let node = self.node_tree.get_node_at_path(&path).unwrap(); if let NodeBody::Delta(delta) = node.body.clone() { debug_assert_eq!(delta, expected); } else { panic!("Node body type not match, expect Delta"); } } NodeScript::ApplyTransaction { mut transaction, rev_id, } => { self.transform_transaction_if_need(&mut transaction, rev_id); self.apply_transaction(transaction); } } } fn apply_transaction(&mut self, transaction: Transaction) { self.rev_id += 1; self.rev_operations.insert(self.rev_id, transaction.clone()); self.node_tree.apply(transaction).unwrap(); } fn transform_transaction_if_need(&mut self, transaction: &mut Transaction, rev_id: usize) { if self.rev_id >= rev_id { for rev_id in rev_id..self.rev_id { let old_transaction = self.rev_operations.get(&rev_id).unwrap(); old_transaction.transform(transaction); } } } }