// Copyright 2020 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. use jujube_lib::commit::Commit; use jujube_lib::commit_builder::CommitBuilder; use jujube_lib::evolution::evolve; use jujube_lib::evolution::EvolveListener; use jujube_lib::repo::{ReadonlyRepo, Repo}; use jujube_lib::repo_path::FileRepoPath; use jujube_lib::settings::UserSettings; use jujube_lib::testutils; use test_case::test_case; #[must_use] fn child_commit(settings: &UserSettings, repo: &ReadonlyRepo, commit: &Commit) -> CommitBuilder { testutils::create_random_commit(&settings, repo).set_parents(vec![commit.id().clone()]) } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_obsolete_and_orphan(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // A commit without successors should not be obsolete and not an orphan. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); assert!(!tx.as_repo().evolution().is_obsolete(original.id())); assert!(!tx.as_repo().evolution().is_orphan(original.id())); // A commit with a successor with a different change_id should not be obsolete. let child = child_commit(&settings, &repo, &original).write_to_transaction(&mut tx); let grandchild = child_commit(&settings, &repo, &child).write_to_transaction(&mut tx); let cherry_picked = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert!(!tx.as_repo().evolution().is_obsolete(original.id())); assert!(!tx.as_repo().evolution().is_orphan(original.id())); assert!(!tx.as_repo().evolution().is_obsolete(child.id())); assert!(!tx.as_repo().evolution().is_orphan(child.id())); // A commit with a successor with the same change_id should be obsolete. let rewritten = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); assert!(tx.as_repo().evolution().is_obsolete(original.id())); assert!(!tx.as_repo().evolution().is_obsolete(child.id())); assert!(tx.as_repo().evolution().is_orphan(child.id())); assert!(tx.as_repo().evolution().is_orphan(grandchild.id())); assert!(!tx.as_repo().evolution().is_obsolete(cherry_picked.id())); assert!(!tx.as_repo().evolution().is_orphan(cherry_picked.id())); assert!(!tx.as_repo().evolution().is_obsolete(rewritten.id())); assert!(!tx.as_repo().evolution().is_orphan(rewritten.id())); // It should no longer be obsolete if we remove the successor. tx.remove_head(&rewritten); assert!(!tx.as_repo().evolution().is_obsolete(original.id())); assert!(!tx.as_repo().evolution().is_orphan(child.id())); assert!(!tx.as_repo().evolution().is_orphan(grandchild.id())); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_divergent(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // A single commit should not be divergent let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); assert!(!tx.as_repo().evolution().is_divergent(original.change_id())); // Commits with the same change id are divergent, including the original commit // (it's the change that's divergent) child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); assert!(tx.as_repo().evolution().is_divergent(original.change_id())); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_divergent_pruned(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); // Pruned commits are also divergent (because it's unclear where descendants // should be evolved to). child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); assert!(tx.as_repo().evolution().is_divergent(original.change_id())); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_divergent_duplicate(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // Successors with different change id are not divergent let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let cherry_picked1 = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let cherry_picked2 = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert!(!tx.as_repo().evolution().is_divergent(original.change_id())); assert!(!tx .as_repo() .evolution() .is_divergent(cherry_picked1.change_id())); assert!(!tx .as_repo() .evolution() .is_divergent(cherry_picked2.change_id())); tx.discard(); } // TODO: Create a #[repo_test] proc macro that injects the `settings` and `repo` // variables into the test function #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_rewritten(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // After a simple rewrite, the new parent is the successor. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![rewritten.id().clone()].into_iter().collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_cherry_picked(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // A successor with a different change id has no effect. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _cherry_picked = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![original.id().clone()].into_iter().collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_is_pruned(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit's successor is pruned, the new parent is the parent of the // pruned commit. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let new_parent = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _rewritten = child_commit(&settings, &repo, &new_parent) .set_pruned(true) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![new_parent.id().clone()].into_iter().collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_divergent(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit has multiple successors, then they will all be returned. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten1 = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let rewritten2 = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let rewritten3 = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![ rewritten1.id().clone(), rewritten2.id().clone(), rewritten3.id().clone() ] .into_iter() .collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_divergent_one_not_pruned(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit has multiple successors, then they will all be returned, even if // all but one are pruned (the parents of the pruned commits, not the pruned // commits themselves). let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten1 = child_commit(&settings, &repo, &root_commit) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let parent2 = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _rewritten2 = child_commit(&settings, &repo, &parent2) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); let parent3 = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _rewritten3 = child_commit(&settings, &repo, &parent3) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![ rewritten1.id().clone(), parent2.id().clone(), parent3.id().clone() ] .into_iter() .collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_divergent_all_pruned(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit has multiple successors, then they will all be returned, even if // they are all pruned (the parents of the pruned commits, not the pruned // commits themselves). let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let parent1 = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _rewritten1 = child_commit(&settings, &repo, &parent1) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); let parent2 = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _rewritten2 = child_commit(&settings, &repo, &parent2) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); let parent3 = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let _rewritten3 = child_commit(&settings, &repo, &parent3) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .set_pruned(true) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![ parent1.id().clone(), parent2.id().clone(), parent3.id().clone() ] .into_iter() .collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_split(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit was split, the new parent is the tip-most rewritten // commit. Here we let the middle commit inherit the change id, but it shouldn't // matter which one inherits it. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let new_parent = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten1 = child_commit(&settings, &repo, &new_parent) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let rewritten2 = child_commit(&settings, &repo, &rewritten1) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let rewritten3 = child_commit(&settings, &repo, &rewritten2) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![rewritten3.id().clone()].into_iter().collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_split_pruned_descendant(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit was split and the tip-most successor became pruned, // we use that that descendant's parent. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let new_parent = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten1 = child_commit(&settings, &repo, &new_parent) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let rewritten2 = child_commit(&settings, &repo, &rewritten1) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let rewritten3 = child_commit(&settings, &repo, &rewritten2) .set_pruned(true) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let _rewritten4 = child_commit(&settings, &repo, &rewritten3) .set_pruned(true) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![rewritten2.id().clone()].into_iter().collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_split_forked(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit was split and the successors were split up across topological // branches, we return only the descendants from the branch with the same // change id (we can't tell a split from two unrelated rewrites and cherry-picks // anyway). let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let new_parent = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten1 = child_commit(&settings, &repo, &new_parent) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let rewritten2 = child_commit(&settings, &repo, &rewritten1) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let rewritten3 = child_commit(&settings, &repo, &rewritten1) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let _rewritten4 = child_commit(&settings, &repo, &original) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![rewritten2.id().clone(), rewritten3.id().clone()] .into_iter() .collect() ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_new_parent_split_forked_pruned(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); // If a commit was split and the successors were split up across topological // branches and some commits were pruned, we won't return a parent of the pruned // commit if the parent is an ancestor of another commit we'd return. let original = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let new_parent = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let rewritten1 = child_commit(&settings, &repo, &new_parent) .set_predecessors(vec![original.id().clone()]) .set_change_id(original.change_id().clone()) .write_to_transaction(&mut tx); let rewritten2 = child_commit(&settings, &repo, &rewritten1) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let rewritten3 = child_commit(&settings, &repo, &rewritten2) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); let _rewritten4 = child_commit(&settings, &repo, &rewritten1) .set_pruned(true) .set_predecessors(vec![original.id().clone()]) .write_to_transaction(&mut tx); assert_eq!( tx.as_repo().evolution().new_parent(original.id()), vec![rewritten3.id().clone()].into_iter().collect() ); tx.discard(); } struct RecordingEvolveListener { evolved_orphans: Vec<(Commit, Commit)>, evolved_divergents: Vec<(Vec, Commit)>, } impl Default for RecordingEvolveListener { fn default() -> Self { RecordingEvolveListener { evolved_orphans: Default::default(), evolved_divergents: Default::default(), } } } impl EvolveListener for RecordingEvolveListener { fn orphan_evolved(&mut self, orphan: &Commit, new_commit: &Commit) { self.evolved_orphans .push((orphan.clone(), new_commit.clone())); } fn orphan_target_ambiguous(&mut self, _orphan: &Commit) { // TODO: Record this too and add tests panic!("unexpected call to orphan_target_ambiguous"); } fn divergent_resolved(&mut self, sources: &[Commit], resolved: &Commit) { self.evolved_divergents .push((sources.iter().cloned().collect(), resolved.clone())); } fn divergent_no_common_predecessor(&mut self, _commit1: &Commit, _commit2: &Commit) { // TODO: Record this too and add tests panic!("unexpected call to divergent_no_common_predecessor"); } } #[test_case(false ; "local store")] // #[test_case(true ; "git store")] fn test_evolve_orphan(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); let initial = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); let child = child_commit(&settings, &repo, &initial).write_to_transaction(&mut tx); let grandchild = child_commit(&settings, &repo, &child).write_to_transaction(&mut tx); let rewritten = CommitBuilder::for_rewrite_from(&settings, repo.store(), &initial) .set_description("rewritten".to_string()) .write_to_transaction(&mut tx); let mut listener = RecordingEvolveListener::default(); evolve(&settings, &mut tx, &mut listener); assert_eq!(listener.evolved_divergents.len(), 0); assert_eq!(listener.evolved_orphans.len(), 2); assert_eq!(&listener.evolved_orphans[0].0, &child); assert_eq!(&listener.evolved_orphans[0].1.parents(), &vec![rewritten]); assert_eq!(&listener.evolved_orphans[1].0, &grandchild); assert_eq!( &listener.evolved_orphans[1].1.parents(), &vec![listener.evolved_orphans[0].1.clone()] ); tx.discard(); } #[test_case(false ; "local store")] #[test_case(true ; "git store")] fn test_evolve_pruned_orphan(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let root_commit = repo.store().root_commit(); let mut tx = repo.start_transaction("test"); let initial = child_commit(&settings, &repo, &root_commit).write_to_transaction(&mut tx); // Create a pruned child and a non-pruned child to show that the pruned one does // not get evolved (the non-pruned one is there to show that the setup is not // broken). let child = child_commit(&settings, &repo, &initial).write_to_transaction(&mut tx); let _pruned_child = child_commit(&settings, &repo, &initial) .set_pruned(true) .write_to_transaction(&mut tx); let _rewritten = CommitBuilder::for_rewrite_from(&settings, repo.store(), &initial) .set_description("rewritten".to_string()) .write_to_transaction(&mut tx); let mut listener = RecordingEvolveListener::default(); evolve(&settings, &mut tx, &mut listener); assert_eq!(listener.evolved_divergents.len(), 0); assert_eq!(listener.evolved_orphans.len(), 1); assert_eq!(listener.evolved_orphans[0].0.id(), child.id()); tx.discard(); } #[test_case(false ; "local store")] // #[test_case(true ; "git store")] fn test_evolve_divergent(use_git: bool) { let settings = testutils::user_settings(); let (_temp_dir, repo) = testutils::init_repo(&settings, use_git); let store = repo.store(); let root_commit = store.root_commit(); let mut tx = repo.start_transaction("test"); // Set up a repo like this: // // x 6 add files X and Z (divergent commit 2) // o 5 add file A, contents C // | x 4 add files X and Y (divergent commit 1) // | o 3 add file A, contents B // |/ // | x 2 add file X (source of divergence) // | o 1 add file A, contents A // |/ // o root // // Resolving the divergence should result in a new commit on top of 5 (because // commit 6 has a later commit time than commit 4). It should have files C, // X, Y, Z. let path_a = FileRepoPath::from("A"); let path_x = FileRepoPath::from("X"); let path_y = FileRepoPath::from("Y"); let path_z = FileRepoPath::from("Z"); let tree1 = testutils::create_tree(&repo, &[(&path_a, "A")]); let tree2 = testutils::create_tree(&repo, &[(&path_a, "A"), (&path_x, "X")]); let tree3 = testutils::create_tree(&repo, &[(&path_a, "B")]); let tree4 = testutils::create_tree(&repo, &[(&path_a, "B"), (&path_x, "X"), (&path_y, "Y")]); let tree5 = testutils::create_tree(&repo, &[(&path_a, "C")]); let tree6 = testutils::create_tree(&repo, &[(&path_a, "C"), (&path_x, "X"), (&path_z, "Z")]); let commit1 = CommitBuilder::for_new_commit(&settings, repo.store(), tree1.id().clone()) .set_parents(vec![root_commit.id().clone()]) .set_description("add file A, contents A".to_string()) .write_to_transaction(&mut tx); let commit3 = CommitBuilder::for_new_commit(&settings, repo.store(), tree3.id().clone()) .set_parents(vec![root_commit.id().clone()]) .set_description("add file A, contents B".to_string()) .write_to_transaction(&mut tx); let commit5 = CommitBuilder::for_new_commit(&settings, repo.store(), tree5.id().clone()) .set_parents(vec![root_commit.id().clone()]) .set_description("add file A, contents C".to_string()) .write_to_transaction(&mut tx); let commit2 = CommitBuilder::for_new_commit(&settings, repo.store(), tree2.id().clone()) .set_parents(vec![commit1.id().clone()]) .set_description("add file X".to_string()) .write_to_transaction(&mut tx); let commit4 = CommitBuilder::for_rewrite_from(&settings, repo.store(), &commit2) .set_parents(vec![commit3.id().clone()]) .set_tree(tree4.id().clone()) .set_description("add files X and Y".to_string()) .write_to_transaction(&mut tx); let mut later_time = commit4.committer().clone(); later_time.timestamp.timestamp.0 += 1; let commit6 = CommitBuilder::for_rewrite_from(&settings, repo.store(), &commit2) .set_parents(vec![commit5.id().clone()]) .set_tree(tree6.id().clone()) .set_description("add files X and Z".to_string()) .set_committer(later_time) .write_to_transaction(&mut tx); let mut listener = RecordingEvolveListener::default(); evolve(&settings, &mut tx, &mut listener); assert_eq!(listener.evolved_orphans.len(), 0); assert_eq!(listener.evolved_divergents.len(), 1); assert_eq!( listener.evolved_divergents[0].0, &[commit6.clone(), commit4.clone()] ); let resolved = listener.evolved_divergents[0].1.clone(); assert_eq!(resolved.predecessors(), &[commit6.clone(), commit4.clone()]); let tree = resolved.tree(); let entries: Vec<_> = tree.entries().collect(); assert_eq!(entries.len(), 4); assert_eq!(tree.value("A").unwrap(), tree5.value("A").unwrap()); assert_eq!(tree.value("X").unwrap(), tree2.value("X").unwrap()); assert_eq!(tree.value("Y").unwrap(), tree4.value("Y").unwrap()); assert_eq!(tree.value("Z").unwrap(), tree6.value("Z").unwrap()); tx.discard(); }