#![allow(clippy::module_inception)] mod attribute_test; mod op_test; mod serde_test; mod undo_redo_test; use derive_more::Display; use flowy_sync::client_document::{ClientDocument, InitialDocumentText}; use lib_ot::{ core::*, rich_text::{RichTextAttribute, RichTextAttributes, RichTextDelta}, }; use rand::{prelude::*, Rng as WrappedRng}; use std::{sync::Once, time::Duration}; const LEVEL: &str = "info"; #[derive(Clone, Debug, Display)] pub enum TestOp { #[display(fmt = "Insert")] Insert(usize, &'static str, usize), // delta_i, s, start, length, #[display(fmt = "InsertBold")] InsertBold(usize, &'static str, Interval), // delta_i, start, length, enable #[display(fmt = "Bold")] Bold(usize, Interval, bool), #[display(fmt = "Delete")] Delete(usize, Interval), #[display(fmt = "Replace")] Replace(usize, Interval, &'static str), #[display(fmt = "Italic")] Italic(usize, Interval, bool), #[display(fmt = "Header")] Header(usize, Interval, usize), #[display(fmt = "Link")] Link(usize, Interval, &'static str), #[display(fmt = "Bullet")] Bullet(usize, Interval, bool), #[display(fmt = "Transform")] Transform(usize, usize), #[display(fmt = "TransformPrime")] TransformPrime(usize, usize), // invert the delta_a base on the delta_b #[display(fmt = "Invert")] Invert(usize, usize), #[display(fmt = "Undo")] Undo(usize), #[display(fmt = "Redo")] Redo(usize), #[display(fmt = "Wait")] Wait(usize), #[display(fmt = "AssertStr")] AssertStr(usize, &'static str), #[display(fmt = "AssertDocJson")] AssertDocJson(usize, &'static str), #[display(fmt = "AssertPrimeJson")] AssertPrimeJson(usize, &'static str), #[display(fmt = "DocComposeDelta")] DocComposeDelta(usize, usize), #[display(fmt = "ApplyPrimeDelta")] DocComposePrime(usize, usize), } pub struct TestBuilder { documents: Vec, deltas: Vec>, primes: Vec>, } impl TestBuilder { pub fn new() -> Self { static INIT: Once = Once::new(); INIT.call_once(|| { let _ = color_eyre::install(); std::env::set_var("RUST_LOG", LEVEL); }); Self { documents: vec![], deltas: vec![], primes: vec![], } } fn run_op(&mut self, op: &TestOp) { tracing::trace!("***************** 😈{} *******************", &op); match op { TestOp::Insert(delta_i, s, index) => { let document = &mut self.documents[*delta_i]; let delta = document.insert(*index, s).unwrap(); tracing::debug!("Insert delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Delete(delta_i, iv) => { let document = &mut self.documents[*delta_i]; let delta = document.replace(*iv, "").unwrap(); tracing::trace!("Delete delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Replace(delta_i, iv, s) => { let document = &mut self.documents[*delta_i]; let delta = document.replace(*iv, s).unwrap(); tracing::trace!("Replace delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::InsertBold(delta_i, s, iv) => { let document = &mut self.documents[*delta_i]; document.insert(iv.start, s).unwrap(); document.format(*iv, RichTextAttribute::Bold(true)).unwrap(); } TestOp::Bold(delta_i, iv, enable) => { let document = &mut self.documents[*delta_i]; let attribute = RichTextAttribute::Bold(*enable); let delta = document.format(*iv, attribute).unwrap(); tracing::trace!("Bold delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Italic(delta_i, iv, enable) => { let document = &mut self.documents[*delta_i]; let attribute = match *enable { true => RichTextAttribute::Italic(true), false => RichTextAttribute::Italic(false), }; let delta = document.format(*iv, attribute).unwrap(); tracing::trace!("Italic delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Header(delta_i, iv, level) => { let document = &mut self.documents[*delta_i]; let attribute = RichTextAttribute::Header(*level); let delta = document.format(*iv, attribute).unwrap(); tracing::trace!("Header delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Link(delta_i, iv, link) => { let document = &mut self.documents[*delta_i]; let attribute = RichTextAttribute::Link(link.to_owned()); let delta = document.format(*iv, attribute).unwrap(); tracing::trace!("Link delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Bullet(delta_i, iv, enable) => { let document = &mut self.documents[*delta_i]; let attribute = RichTextAttribute::Bullet(*enable); let delta = document.format(*iv, attribute).unwrap(); tracing::debug!("Bullet delta: {}", delta.to_json_str()); self.deltas.insert(*delta_i, Some(delta)); } TestOp::Transform(delta_a_i, delta_b_i) => { let (a_prime, b_prime) = self.documents[*delta_a_i] .delta() .transform(self.documents[*delta_b_i].delta()) .unwrap(); tracing::trace!("a:{:?},b:{:?}", a_prime, b_prime); let data_left = self.documents[*delta_a_i].delta().compose(&b_prime).unwrap(); let data_right = self.documents[*delta_b_i].delta().compose(&a_prime).unwrap(); self.documents[*delta_a_i].set_delta(data_left); self.documents[*delta_b_i].set_delta(data_right); } TestOp::TransformPrime(a_doc_index, b_doc_index) => { let (prime_left, prime_right) = self.documents[*a_doc_index] .delta() .transform(self.documents[*b_doc_index].delta()) .unwrap(); self.primes.insert(*a_doc_index, Some(prime_left)); self.primes.insert(*b_doc_index, Some(prime_right)); } TestOp::Invert(delta_a_i, delta_b_i) => { let delta_a = &self.documents[*delta_a_i].delta(); let delta_b = &self.documents[*delta_b_i].delta(); tracing::debug!("Invert: "); tracing::debug!("a: {}", delta_a.to_json_str()); tracing::debug!("b: {}", delta_b.to_json_str()); let (_, b_prime) = delta_a.transform(delta_b).unwrap(); let undo = b_prime.invert(delta_a); let new_delta = delta_a.compose(&b_prime).unwrap(); tracing::debug!("new delta: {}", new_delta.to_json_str()); tracing::debug!("undo delta: {}", undo.to_json_str()); let new_delta_after_undo = new_delta.compose(&undo).unwrap(); tracing::debug!("inverted delta a: {}", new_delta_after_undo.to_string()); assert_eq!(delta_a, &&new_delta_after_undo); self.documents[*delta_a_i].set_delta(new_delta_after_undo); } TestOp::Undo(delta_i) => { self.documents[*delta_i].undo().unwrap(); } TestOp::Redo(delta_i) => { self.documents[*delta_i].redo().unwrap(); } TestOp::Wait(mills_sec) => { std::thread::sleep(Duration::from_millis(*mills_sec as u64)); } TestOp::AssertStr(delta_i, expected) => { assert_eq!(&self.documents[*delta_i].to_plain_string(), expected); } TestOp::AssertDocJson(delta_i, expected) => { let delta_json = self.documents[*delta_i].delta_str(); let expected_delta: RichTextDelta = serde_json::from_str(expected).unwrap(); let target_delta: RichTextDelta = serde_json::from_str(&delta_json).unwrap(); if expected_delta != target_delta { log::error!("✅ expect: {}", expected,); log::error!("❌ receive: {}", delta_json); } assert_eq!(target_delta, expected_delta); } TestOp::AssertPrimeJson(doc_i, expected) => { let prime_json = self.primes[*doc_i].as_ref().unwrap().to_json_str(); let expected_prime: RichTextDelta = serde_json::from_str(expected).unwrap(); let target_prime: RichTextDelta = serde_json::from_str(&prime_json).unwrap(); if expected_prime != target_prime { log::error!("✅ expect prime: {}", expected,); log::error!("❌ receive prime: {}", prime_json); } assert_eq!(target_prime, expected_prime); } TestOp::DocComposeDelta(doc_index, delta_i) => { let delta = self.deltas.get(*delta_i).unwrap().as_ref().unwrap(); self.documents[*doc_index].compose_delta(delta.clone()).unwrap(); } TestOp::DocComposePrime(doc_index, prime_i) => { let delta = self .primes .get(*prime_i) .expect("Must call TransformPrime first") .as_ref() .unwrap(); let new_delta = self.documents[*doc_index].delta().compose(delta).unwrap(); self.documents[*doc_index].set_delta(new_delta); } } } pub fn run_scripts(mut self, scripts: Vec) { self.documents = vec![ClientDocument::new::(), ClientDocument::new::()]; self.primes = vec![None, None]; self.deltas = vec![None, None]; for (_i, op) in scripts.iter().enumerate() { self.run_op(op); } } } pub struct Rng(StdRng); impl Default for Rng { fn default() -> Self { Rng(StdRng::from_rng(thread_rng()).unwrap()) } } impl Rng { #[allow(dead_code)] pub fn from_seed(seed: [u8; 32]) -> Self { Rng(StdRng::from_seed(seed)) } pub fn gen_string(&mut self, len: usize) -> String { (0..len) .map(|_| { let c = self.0.gen::(); format!("{:x}", c as u32) }) .collect() } pub fn gen_delta(&mut self, s: &str) -> RichTextDelta { let mut delta = RichTextDelta::default(); let s = FlowyStr::from(s); loop { let left = s.utf16_len() - delta.utf16_base_len; if left == 0 { break; } let i = if left == 1 { 1 } else { 1 + self.0.gen_range(0..std::cmp::min(left - 1, 20)) }; match self.0.gen_range(0.0..1.0) { f if f < 0.2 => { delta.insert(&self.gen_string(i), RichTextAttributes::default()); } f if f < 0.4 => { delta.delete(i); } _ => { delta.retain(i, RichTextAttributes::default()); } } } if self.0.gen_range(0.0..1.0) < 0.3 { delta.insert(&("1".to_owned() + &self.gen_string(10)), RichTextAttributes::default()); } delta } }