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671 lines
23 KiB
Rust
671 lines
23 KiB
Rust
// Copyright 2020 The Jujutsu Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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use std::path::Path;
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use std::slice;
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use std::sync::Arc;
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use std::time::SystemTime;
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use assert_matches::assert_matches;
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use itertools::Itertools as _;
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use jj_lib::backend::CommitId;
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use jj_lib::object_id::ObjectId;
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use jj_lib::op_walk::{self, OpsetEvaluationError, OpsetResolutionError};
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use jj_lib::operation::Operation;
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use jj_lib::repo::{ReadonlyRepo, Repo};
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use jj_lib::settings::UserSettings;
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use testutils::{create_random_commit, write_random_commit, TestRepo};
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fn list_dir(dir: &Path) -> Vec<String> {
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std::fs::read_dir(dir)
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.unwrap()
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.map(|entry| entry.unwrap().file_name().to_str().unwrap().to_owned())
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.sorted()
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.collect()
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}
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#[test]
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fn test_unpublished_operation() {
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// Test that the operation doesn't get published until that's requested.
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let op_heads_dir = repo.repo_path().join("op_heads").join("heads");
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let op_id0 = repo.op_id().clone();
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assert_eq!(list_dir(&op_heads_dir), vec![repo.op_id().hex()]);
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let mut tx1 = repo.start_transaction(&settings);
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write_random_commit(tx1.mut_repo(), &settings);
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let unpublished_op = tx1.write("transaction 1");
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let op_id1 = unpublished_op.operation().id().clone();
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assert_ne!(op_id1, op_id0);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id0.hex()]);
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unpublished_op.publish();
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assert_eq!(list_dir(&op_heads_dir), vec![op_id1.hex()]);
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}
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#[test]
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fn test_consecutive_operations() {
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// Test that consecutive operations result in a single op-head on disk after
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// each operation
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let op_heads_dir = repo.repo_path().join("op_heads").join("heads");
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let op_id0 = repo.op_id().clone();
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assert_eq!(list_dir(&op_heads_dir), vec![repo.op_id().hex()]);
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let mut tx1 = repo.start_transaction(&settings);
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write_random_commit(tx1.mut_repo(), &settings);
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let op_id1 = tx1.commit("transaction 1").operation().id().clone();
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assert_ne!(op_id1, op_id0);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id1.hex()]);
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let repo = repo.reload_at_head(&settings).unwrap();
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let mut tx2 = repo.start_transaction(&settings);
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write_random_commit(tx2.mut_repo(), &settings);
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let op_id2 = tx2.commit("transaction 2").operation().id().clone();
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assert_ne!(op_id2, op_id0);
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assert_ne!(op_id2, op_id1);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id2.hex()]);
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// Reloading the repo makes no difference (there are no conflicting operations
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// to resolve).
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let _repo = repo.reload_at_head(&settings).unwrap();
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assert_eq!(list_dir(&op_heads_dir), vec![op_id2.hex()]);
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}
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#[test]
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fn test_concurrent_operations() {
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// Test that consecutive operations result in multiple op-heads on disk until
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// the repo has been reloaded (which currently happens right away).
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let op_heads_dir = repo.repo_path().join("op_heads").join("heads");
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let op_id0 = repo.op_id().clone();
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assert_eq!(list_dir(&op_heads_dir), vec![repo.op_id().hex()]);
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let mut tx1 = repo.start_transaction(&settings);
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write_random_commit(tx1.mut_repo(), &settings);
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let op_id1 = tx1.commit("transaction 1").operation().id().clone();
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assert_ne!(op_id1, op_id0);
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assert_eq!(list_dir(&op_heads_dir), vec![op_id1.hex()]);
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// After both transactions have committed, we should have two op-heads on disk,
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// since they were run in parallel.
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let mut tx2 = repo.start_transaction(&settings);
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write_random_commit(tx2.mut_repo(), &settings);
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let op_id2 = tx2.commit("transaction 2").operation().id().clone();
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assert_ne!(op_id2, op_id0);
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assert_ne!(op_id2, op_id1);
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let mut actual_heads_on_disk = list_dir(&op_heads_dir);
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actual_heads_on_disk.sort();
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let mut expected_heads_on_disk = vec![op_id1.hex(), op_id2.hex()];
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expected_heads_on_disk.sort();
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assert_eq!(actual_heads_on_disk, expected_heads_on_disk);
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// Reloading the repo causes the operations to be merged
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let repo = repo.reload_at_head(&settings).unwrap();
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let merged_op_id = repo.op_id().clone();
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assert_ne!(merged_op_id, op_id0);
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assert_ne!(merged_op_id, op_id1);
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assert_ne!(merged_op_id, op_id2);
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assert_eq!(list_dir(&op_heads_dir), vec![merged_op_id.hex()]);
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}
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fn assert_heads(repo: &dyn Repo, expected: Vec<&CommitId>) {
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let expected = expected.iter().cloned().cloned().collect();
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assert_eq!(*repo.view().heads(), expected);
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}
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#[test]
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fn test_isolation() {
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// Test that two concurrent transactions don't see each other's changes.
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let mut tx = repo.start_transaction(&settings);
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let initial = create_random_commit(tx.mut_repo(), &settings)
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.set_parents(vec![repo.store().root_commit_id().clone()])
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.write()
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.unwrap();
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let repo = tx.commit("test");
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let mut tx1 = repo.start_transaction(&settings);
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let mut_repo1 = tx1.mut_repo();
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let mut tx2 = repo.start_transaction(&settings);
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let mut_repo2 = tx2.mut_repo();
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assert_heads(repo.as_ref(), vec![initial.id()]);
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assert_heads(mut_repo1, vec![initial.id()]);
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assert_heads(mut_repo2, vec![initial.id()]);
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let rewrite1 = mut_repo1
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.rewrite_commit(&settings, &initial)
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.set_description("rewrite1")
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.write()
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.unwrap();
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mut_repo1.rebase_descendants(&settings).unwrap();
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let rewrite2 = mut_repo2
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.rewrite_commit(&settings, &initial)
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.set_description("rewrite2")
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.write()
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.unwrap();
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mut_repo2.rebase_descendants(&settings).unwrap();
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// Neither transaction has committed yet, so each transaction sees its own
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// commit.
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assert_heads(repo.as_ref(), vec![initial.id()]);
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assert_heads(mut_repo1, vec![rewrite1.id()]);
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assert_heads(mut_repo2, vec![rewrite2.id()]);
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// The base repo and tx2 don't see the commits from tx1.
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tx1.commit("transaction 1");
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assert_heads(repo.as_ref(), vec![initial.id()]);
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assert_heads(mut_repo2, vec![rewrite2.id()]);
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// The base repo still doesn't see the commits after both transactions commit.
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tx2.commit("transaction 2");
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assert_heads(repo.as_ref(), vec![initial.id()]);
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// After reload, the base repo sees both rewrites.
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let repo = repo.reload_at_head(&settings).unwrap();
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assert_heads(repo.as_ref(), vec![rewrite1.id(), rewrite2.id()]);
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}
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#[test]
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fn test_reparent_range_linear() {
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init();
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let repo_0 = test_repo.repo;
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let op_store = repo_0.op_store();
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let read_op = |id| {
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let data = op_store.read_operation(id).unwrap();
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Operation::new(op_store.clone(), id.clone(), data)
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};
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fn op_parents<const N: usize>(op: &Operation) -> [Operation; N] {
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let parents: Vec<_> = op.parents().try_collect().unwrap();
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parents.try_into().unwrap()
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}
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// Set up linear operation graph:
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// D
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// C
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// B
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// A
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// 0 (initial)
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let random_tx = |repo: &Arc<ReadonlyRepo>| {
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let mut tx = repo.start_transaction(&settings);
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write_random_commit(tx.mut_repo(), &settings);
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tx
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};
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let repo_a = random_tx(&repo_0).commit("op A");
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let repo_b = random_tx(&repo_a).commit("op B");
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let repo_c = random_tx(&repo_b).commit("op C");
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let repo_d = random_tx(&repo_c).commit("op D");
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// Reparent B..D (=C|D) onto A:
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// D'
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// C'
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// A
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// 0 (initial)
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let stats = op_walk::reparent_range(
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op_store.as_ref(),
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slice::from_ref(repo_b.operation()),
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slice::from_ref(repo_d.operation()),
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repo_a.operation(),
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)
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.unwrap();
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assert_eq!(stats.new_head_ids.len(), 1);
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assert_eq!(stats.rewritten_count, 2);
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assert_eq!(stats.unreachable_count, 1);
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let new_op_d = read_op(&stats.new_head_ids[0]);
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assert_eq!(new_op_d.metadata(), repo_d.operation().metadata());
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assert_eq!(new_op_d.view_id(), repo_d.operation().view_id());
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let [new_op_c] = op_parents(&new_op_d);
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assert_eq!(new_op_c.metadata(), repo_c.operation().metadata());
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assert_eq!(new_op_c.view_id(), repo_c.operation().view_id());
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assert_eq!(new_op_c.parent_ids(), slice::from_ref(repo_a.op_id()));
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// Reparent empty range onto A
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let stats = op_walk::reparent_range(
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op_store.as_ref(),
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slice::from_ref(repo_d.operation()),
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slice::from_ref(repo_d.operation()),
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repo_a.operation(),
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)
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.unwrap();
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assert_eq!(stats.new_head_ids, vec![repo_a.op_id().clone()]);
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assert_eq!(stats.rewritten_count, 0);
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assert_eq!(stats.unreachable_count, 3);
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}
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#[test]
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fn test_reparent_range_branchy() {
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let settings = testutils::user_settings();
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let test_repo = TestRepo::init();
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let repo_0 = test_repo.repo;
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let op_store = repo_0.op_store();
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let read_op = |id| {
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let data = op_store.read_operation(id).unwrap();
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Operation::new(op_store.clone(), id.clone(), data)
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};
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fn op_parents<const N: usize>(op: &Operation) -> [Operation; N] {
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let parents: Vec<_> = op.parents().try_collect().unwrap();
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parents.try_into().unwrap()
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}
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// Set up branchy operation graph:
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// G
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// |\
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// | F
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// E |
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// D |
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// |/
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// C
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// B
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// A
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// 0 (initial)
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let random_tx = |repo: &Arc<ReadonlyRepo>| {
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let mut tx = repo.start_transaction(&settings);
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write_random_commit(tx.mut_repo(), &settings);
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tx
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};
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let repo_a = random_tx(&repo_0).commit("op A");
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let repo_b = random_tx(&repo_a).commit("op B");
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let repo_c = random_tx(&repo_b).commit("op C");
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let repo_d = random_tx(&repo_c).commit("op D");
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let tx_e = random_tx(&repo_d);
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let tx_f = random_tx(&repo_c);
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let repo_g = testutils::commit_transactions(&settings, vec![tx_e, tx_f]);
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let [op_e, op_f] = op_parents(repo_g.operation());
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// Reparent D..G (= E|F|G) onto B:
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// G'
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// |\
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// | F'
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// E'|
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// |/
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// B
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// A
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// 0 (initial)
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let stats = op_walk::reparent_range(
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op_store.as_ref(),
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slice::from_ref(repo_d.operation()),
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slice::from_ref(repo_g.operation()),
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repo_b.operation(),
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)
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.unwrap();
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assert_eq!(stats.new_head_ids.len(), 1);
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assert_eq!(stats.rewritten_count, 3);
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assert_eq!(stats.unreachable_count, 2);
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let new_op_g = read_op(&stats.new_head_ids[0]);
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assert_eq!(new_op_g.metadata(), repo_g.operation().metadata());
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assert_eq!(new_op_g.view_id(), repo_g.operation().view_id());
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let [new_op_e, new_op_f] = op_parents(&new_op_g);
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assert_eq!(new_op_e.parent_ids(), slice::from_ref(repo_b.op_id()));
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assert_eq!(new_op_f.parent_ids(), slice::from_ref(repo_b.op_id()));
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// Reparent B..G (=C|D|E|F|G) onto A:
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// G'
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// |\
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// | F'
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// E'|
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// D'|
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// |/
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// C'
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// A
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// 0 (initial)
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let stats = op_walk::reparent_range(
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op_store.as_ref(),
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slice::from_ref(repo_b.operation()),
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slice::from_ref(repo_g.operation()),
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repo_a.operation(),
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)
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.unwrap();
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assert_eq!(stats.new_head_ids.len(), 1);
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assert_eq!(stats.rewritten_count, 5);
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assert_eq!(stats.unreachable_count, 1);
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let new_op_g = read_op(&stats.new_head_ids[0]);
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assert_eq!(new_op_g.metadata(), repo_g.operation().metadata());
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assert_eq!(new_op_g.view_id(), repo_g.operation().view_id());
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let [new_op_e, new_op_f] = op_parents(&new_op_g);
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let [new_op_d] = op_parents(&new_op_e);
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assert_eq!(new_op_d.parent_ids(), new_op_f.parent_ids());
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let [new_op_c] = op_parents(&new_op_d);
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assert_eq!(new_op_c.parent_ids(), slice::from_ref(repo_a.op_id()));
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// Reparent (E|F)..G (=G) onto D:
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// G'
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// D
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// C
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// B
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// A
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// 0 (initial)
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let stats = op_walk::reparent_range(
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op_store.as_ref(),
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&[op_e.clone(), op_f.clone()],
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slice::from_ref(repo_g.operation()),
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repo_d.operation(),
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)
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.unwrap();
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assert_eq!(stats.new_head_ids.len(), 1);
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assert_eq!(stats.rewritten_count, 1);
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assert_eq!(stats.unreachable_count, 2);
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let new_op_g = read_op(&stats.new_head_ids[0]);
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assert_eq!(new_op_g.metadata(), repo_g.operation().metadata());
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assert_eq!(new_op_g.view_id(), repo_g.operation().view_id());
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assert_eq!(new_op_g.parent_ids(), slice::from_ref(repo_d.op_id()));
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// Reparent C..F (=F) onto D (ignoring G):
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// F'
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// D
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// C
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// B
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// A
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// 0 (initial)
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let stats = op_walk::reparent_range(
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op_store.as_ref(),
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slice::from_ref(repo_c.operation()),
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slice::from_ref(&op_f),
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repo_d.operation(),
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)
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.unwrap();
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assert_eq!(stats.new_head_ids.len(), 1);
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assert_eq!(stats.rewritten_count, 1);
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assert_eq!(stats.unreachable_count, 0);
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let new_op_f = read_op(&stats.new_head_ids[0]);
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assert_eq!(new_op_f.metadata(), op_f.metadata());
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assert_eq!(new_op_f.view_id(), op_f.view_id());
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assert_eq!(new_op_f.parent_ids(), slice::from_ref(repo_d.op_id()));
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}
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fn stable_op_id_settings() -> UserSettings {
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UserSettings::from_config(
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testutils::base_config()
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.add_source(config::File::from_str(
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"debug.operation-timestamp = '2001-02-03T04:05:06+07:00'",
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config::FileFormat::Toml,
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))
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.build()
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.unwrap(),
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)
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}
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#[test]
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fn test_resolve_op_id() {
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let settings = stable_op_id_settings();
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let test_repo = TestRepo::init_with_settings(&settings);
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let repo = test_repo.repo;
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let op_store = repo.op_store();
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let mut operations = Vec::new();
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// The actual value of `i` doesn't matter, we just need to make sure we end
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// up with hashes with ambiguous prefixes.
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for i in (1..7).chain([16]) {
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let tx = repo.start_transaction(&settings);
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let repo = tx.commit(format!("transaction {i}"));
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operations.push(repo.operation().clone());
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}
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// "2" and "0" are ambiguous
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insta::assert_debug_snapshot!(operations.iter().map(|op| op.id().hex()).collect_vec(), @r###"
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[
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"5aebb24d08d6f5282d9e06bded4b51febbb4ff4bc822cdd4db9043961339955d6af912e783c3864245867d0cf6d609cb004c5ff0cef5e914c15a415ba92e38a2",
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"ad1cda629b220f2651d972475fba75e47c30cd57862c51a727e57b7b6e2fbaa937d0bcb881cf6fcff30ba1a088a4ad588cf880765b9d9680b551cdc446f3489e",
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|
"2feaf9eb61232582d35f1cb0203b69425f7a7d07140a5f8ff0d0bf98dd9f433b941e4c9e0882f65a007266affee275e235ae1614b159ceadbf9fe6879077a5da",
|
|
"0b183be5767c3ff9945c8a9e3ac7639d249ff9873985a551f4c2070782aea8b5018ebff906036d1658038708ab9de0d867be385b1181aa7a81669e2ef6852355",
|
|
"d1c3031dff7b1db4db1bfb592a9aa0ea6faae9300033ef20cb6da488e4b90524c22af8e2541cdb99ca0ee2be3299c213c0f8d48390cd5f11462c4f80c5790f68",
|
|
"2369ba98e2596715606978a72608970287aaa064ec890f87c29b7e7df64fdf02b7f24b8b03ee845e132f3e19e3929de359b6cfe1328b42946c45ac5ff80705ca",
|
|
"00271842a189d274a2c97ac28f937584a47b84463d5b408c6f998089131e0e1329a287667b2ac5d63f8c576e95323bcf992c99caa4ef4612a1c3798fe8a3f74f",
|
|
]
|
|
"###);
|
|
|
|
let repo_loader = repo.loader();
|
|
let resolve = |op_str: &str| op_walk::resolve_op_for_load(&repo_loader, op_str);
|
|
|
|
// Full id
|
|
assert_eq!(resolve(&operations[0].id().hex()).unwrap(), operations[0]);
|
|
// Short id, odd length
|
|
assert_eq!(
|
|
resolve(&operations[0].id().hex()[..3]).unwrap(),
|
|
operations[0]
|
|
);
|
|
// Short id, even length
|
|
assert_eq!(
|
|
resolve(&operations[1].id().hex()[..2]).unwrap(),
|
|
operations[1]
|
|
);
|
|
// Ambiguous id
|
|
assert_matches!(
|
|
resolve("2"),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::AmbiguousIdPrefix(_)
|
|
))
|
|
);
|
|
// Empty id
|
|
assert_matches!(
|
|
resolve(""),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::InvalidIdPrefix(_)
|
|
))
|
|
);
|
|
// Unknown id
|
|
assert_matches!(
|
|
resolve("deadbee"),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::NoSuchOperation(_)
|
|
))
|
|
);
|
|
// Virtual root id
|
|
let root_operation = {
|
|
let id = op_store.root_operation_id();
|
|
let data = op_store.read_operation(id).unwrap();
|
|
Operation::new(op_store.clone(), id.clone(), data)
|
|
};
|
|
assert_eq!(resolve(&root_operation.id().hex()).unwrap(), root_operation);
|
|
assert_eq!(resolve("000").unwrap(), root_operation);
|
|
assert_eq!(resolve("002").unwrap(), operations[6]);
|
|
assert_matches!(
|
|
resolve("0"),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::AmbiguousIdPrefix(_)
|
|
))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn test_resolve_current_op() {
|
|
let settings = stable_op_id_settings();
|
|
let test_repo = TestRepo::init_with_settings(&settings);
|
|
let repo = test_repo.repo;
|
|
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(&repo, "@").unwrap(),
|
|
*repo.operation()
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn test_resolve_op_parents_children() {
|
|
// Use monotonic timestamp to stabilize merge order of transactions
|
|
let settings = testutils::user_settings();
|
|
let test_repo = TestRepo::init_with_settings(&settings);
|
|
let mut repo = &test_repo.repo;
|
|
|
|
let mut repos = Vec::new();
|
|
for _ in 0..3 {
|
|
let tx = repo.start_transaction(&settings);
|
|
repos.push(tx.commit("test"));
|
|
repo = repos.last().unwrap();
|
|
}
|
|
let operations = repos.iter().map(|repo| repo.operation()).collect_vec();
|
|
|
|
// Parent
|
|
let op2_id_hex = operations[2].id().hex();
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op2_id_hex}-")).unwrap(),
|
|
*operations[1]
|
|
);
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op2_id_hex}--")).unwrap(),
|
|
*operations[0]
|
|
);
|
|
// "{op2_id_hex}----" is the root operation
|
|
assert_matches!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op2_id_hex}-----")),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::EmptyOperations(_)
|
|
))
|
|
);
|
|
|
|
// Child
|
|
let op0_id_hex = operations[0].id().hex();
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op0_id_hex}+")).unwrap(),
|
|
*operations[1]
|
|
);
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op0_id_hex}++")).unwrap(),
|
|
*operations[2]
|
|
);
|
|
assert_matches!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op0_id_hex}+++")),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::EmptyOperations(_)
|
|
))
|
|
);
|
|
|
|
// Child of parent
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(repo, &format!("{op2_id_hex}--+")).unwrap(),
|
|
*operations[1]
|
|
);
|
|
|
|
// Child at old repo: new operations shouldn't be visible
|
|
assert_eq!(
|
|
op_walk::resolve_op_with_repo(&repos[1], &format!("{op0_id_hex}+")).unwrap(),
|
|
*operations[1]
|
|
);
|
|
assert_matches!(
|
|
op_walk::resolve_op_with_repo(&repos[0], &format!("{op0_id_hex}+")),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::EmptyOperations(_)
|
|
))
|
|
);
|
|
|
|
// Merge and fork
|
|
let tx1 = repo.start_transaction(&settings);
|
|
let tx2 = repo.start_transaction(&settings);
|
|
let repo = testutils::commit_transactions(&settings, vec![tx1, tx2]);
|
|
let op5_id_hex = repo.operation().id().hex();
|
|
assert_matches!(
|
|
op_walk::resolve_op_with_repo(&repo, &format!("{op5_id_hex}-")),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::MultipleOperations(_)
|
|
))
|
|
);
|
|
let op2_id_hex = operations[2].id().hex();
|
|
assert_matches!(
|
|
op_walk::resolve_op_with_repo(&repo, &format!("{op2_id_hex}+")),
|
|
Err(OpsetEvaluationError::OpsetResolution(
|
|
OpsetResolutionError::MultipleOperations(_)
|
|
))
|
|
);
|
|
}
|
|
|
|
#[test]
|
|
fn test_gc() {
|
|
let settings = stable_op_id_settings();
|
|
let test_repo = TestRepo::init();
|
|
let repo_0 = test_repo.repo;
|
|
let op_store = repo_0.op_store();
|
|
let op_dir = repo_0.repo_path().join("op_store").join("operations");
|
|
let view_dir = repo_0.repo_path().join("op_store").join("views");
|
|
|
|
// Set up operation graph:
|
|
//
|
|
// F
|
|
// E (empty)
|
|
// D |
|
|
// C |
|
|
// |/
|
|
// B
|
|
// A
|
|
// 0 (initial)
|
|
let empty_tx = |repo: &Arc<ReadonlyRepo>| repo.start_transaction(&settings);
|
|
let random_tx = |repo: &Arc<ReadonlyRepo>| {
|
|
let mut tx = repo.start_transaction(&settings);
|
|
write_random_commit(tx.mut_repo(), &settings);
|
|
tx
|
|
};
|
|
let repo_a = random_tx(&repo_0).commit("op A");
|
|
let repo_b = random_tx(&repo_a).commit("op B");
|
|
let repo_c = random_tx(&repo_b).commit("op C");
|
|
let repo_d = random_tx(&repo_c).commit("op D");
|
|
let repo_e = empty_tx(&repo_b).commit("op E");
|
|
let repo_f = random_tx(&repo_e).commit("op F");
|
|
|
|
// Sanity check for the original state
|
|
let mut expected_op_entries = list_dir(&op_dir);
|
|
let mut expected_view_entries = list_dir(&view_dir);
|
|
assert_eq!(expected_op_entries.len(), 7);
|
|
assert_eq!(expected_view_entries.len(), 6);
|
|
|
|
// No heads, but all kept by file modification time
|
|
op_store.gc(&[], SystemTime::UNIX_EPOCH).unwrap();
|
|
assert_eq!(list_dir(&op_dir), expected_op_entries);
|
|
assert_eq!(list_dir(&view_dir), expected_view_entries);
|
|
|
|
// All reachable from heads
|
|
let now = SystemTime::now();
|
|
let head_ids = [repo_d.op_id().clone(), repo_f.op_id().clone()];
|
|
op_store.gc(&head_ids, now).unwrap();
|
|
assert_eq!(list_dir(&op_dir), expected_op_entries);
|
|
assert_eq!(list_dir(&view_dir), expected_view_entries);
|
|
|
|
// E|F are no longer reachable, but E's view is still reachable
|
|
op_store.gc(slice::from_ref(repo_d.op_id()), now).unwrap();
|
|
expected_op_entries
|
|
.retain(|name| *name != repo_e.op_id().hex() && *name != repo_f.op_id().hex());
|
|
expected_view_entries.retain(|name| *name != repo_f.operation().view_id().hex());
|
|
assert_eq!(list_dir(&op_dir), expected_op_entries);
|
|
assert_eq!(list_dir(&view_dir), expected_view_entries);
|
|
|
|
// B|C|D are no longer reachable
|
|
op_store.gc(slice::from_ref(repo_a.op_id()), now).unwrap();
|
|
expected_op_entries.retain(|name| {
|
|
*name != repo_b.op_id().hex()
|
|
&& *name != repo_c.op_id().hex()
|
|
&& *name != repo_d.op_id().hex()
|
|
});
|
|
expected_view_entries.retain(|name| {
|
|
*name != repo_b.operation().view_id().hex()
|
|
&& *name != repo_c.operation().view_id().hex()
|
|
&& *name != repo_d.operation().view_id().hex()
|
|
});
|
|
assert_eq!(list_dir(&op_dir), expected_op_entries);
|
|
assert_eq!(list_dir(&view_dir), expected_view_entries);
|
|
|
|
// Sanity check for the last state
|
|
assert_eq!(expected_op_entries.len(), 2);
|
|
assert_eq!(expected_view_entries.len(), 2);
|
|
}
|