mirror of
https://github.com/martinvonz/jj.git
synced 2024-12-26 14:00:51 +00:00
93baff0b8a
It's cheap to look up commits again from the cache in `Store` but it can be expensive to look up commits we didn't end up needing. This will make it easier to refactor further and be able to cheaply set preliminary parents for a rewritten commits and then let the caller update them.
643 lines
23 KiB
Rust
643 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 itertools::Itertools;
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use jj_lib::backend::TreeValue;
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use jj_lib::repo::Repo;
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use jj_lib::repo_path::{RepoPath, RepoPathComponent};
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use jj_lib::rewrite::rebase_commit;
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use jj_lib::tree::{merge_trees, Tree};
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use testutils::{create_single_tree, create_tree, TestRepo};
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#[test]
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fn test_same_type() {
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// Tests all possible cases where the entry type is unchanged, specifically
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// using only normal files in all trees (no symlinks, no trees, etc.).
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let store = repo.store();
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// The file name encodes the state in the base and in each side ("_" means
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// missing)
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let files = vec![
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"__a", // side 2 added
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"_a_", // side 1 added
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"_aa", // both sides added, same content
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"_ab", // both sides added, different content
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"a__", // both sides removed
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"a_a", // side 1 removed
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"a_b", // side 1 removed, side 2 modified
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"aa_", // side 2 removed
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"aaa", // no changes
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"aab", // side 2 modified
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"ab_", // side 1 modified, side 2 removed
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"aba", // side 1 modified
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"abb", // both sides modified, same content
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"abc", // both sides modified, different content
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];
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let write_tree = |index: usize| -> Tree {
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let mut tree_builder = store.tree_builder(store.empty_tree_id().clone());
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for &path in &files {
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let contents = &path[index..][..1];
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if contents != "_" {
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testutils::write_normal_file(
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&mut tree_builder,
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RepoPath::from_internal_string(path),
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contents,
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);
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}
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}
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let tree_id = tree_builder.write_tree();
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store.get_tree(RepoPath::root(), &tree_id).unwrap()
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};
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let base_tree = write_tree(0);
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let side1_tree = write_tree(1);
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let side2_tree = write_tree(2);
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// Create the merged tree
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let merged_tree = merge_trees(&side1_tree, &base_tree, &side2_tree).unwrap();
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// Check that we have exactly the paths we expect in the merged tree
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let names = merged_tree
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.entries_non_recursive()
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.map(|entry| entry.name().as_str())
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.collect_vec();
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assert_eq!(
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names,
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vec!["__a", "_a_", "_aa", "_ab", "a_b", "aaa", "aab", "ab_", "aba", "abb", "abc",]
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);
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// Check that the simple, non-conflicting cases were resolved correctly
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("__a")),
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side2_tree.value(RepoPathComponent::new("__a"))
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);
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("_a_")),
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side1_tree.value(RepoPathComponent::new("_a_"))
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);
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("_aa")),
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side1_tree.value(RepoPathComponent::new("_aa"))
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);
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("aaa")),
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side1_tree.value(RepoPathComponent::new("aaa"))
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);
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("aab")),
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side2_tree.value(RepoPathComponent::new("aab"))
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);
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("aba")),
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side1_tree.value(RepoPathComponent::new("aba"))
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);
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assert_eq!(
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merged_tree.value(RepoPathComponent::new("abb")),
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side1_tree.value(RepoPathComponent::new("abb"))
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);
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// Check the conflicting cases
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let component = RepoPathComponent::new("_ab");
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match merged_tree.value(component).unwrap() {
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TreeValue::Conflict(id) => {
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let conflict = store
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.read_conflict(RepoPath::from_internal_string("_ab"), id)
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.unwrap();
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assert_eq!(
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conflict.adds().map(|v| v.as_ref()).collect_vec(),
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vec![side1_tree.value(component), side2_tree.value(component)]
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);
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assert_eq!(
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conflict.removes().map(|v| v.as_ref()).collect_vec(),
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vec![None]
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);
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}
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_ => panic!("unexpected value"),
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};
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let component = RepoPathComponent::new("a_b");
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match merged_tree.value(component).unwrap() {
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TreeValue::Conflict(id) => {
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let conflict = store
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.read_conflict(RepoPath::from_internal_string("a_b"), id)
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.unwrap();
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assert_eq!(
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conflict.removes().map(|v| v.as_ref()).collect_vec(),
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vec![base_tree.value(component)]
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);
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assert_eq!(
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conflict.adds().map(|v| v.as_ref()).collect_vec(),
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vec![side2_tree.value(component), None]
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);
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}
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_ => panic!("unexpected value"),
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};
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let component = RepoPathComponent::new("ab_");
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match merged_tree.value(component).unwrap() {
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TreeValue::Conflict(id) => {
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let conflict = store
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.read_conflict(RepoPath::from_internal_string("ab_"), id)
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.unwrap();
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assert_eq!(
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conflict.removes().map(|v| v.as_ref()).collect_vec(),
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vec![base_tree.value(component)]
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);
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assert_eq!(
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conflict.adds().map(|v| v.as_ref()).collect_vec(),
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vec![side1_tree.value(component), None]
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);
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}
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_ => panic!("unexpected value"),
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};
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let component = RepoPathComponent::new("abc");
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match merged_tree.value(component).unwrap() {
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TreeValue::Conflict(id) => {
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let conflict = store
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.read_conflict(RepoPath::from_internal_string("abc"), id)
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.unwrap();
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assert_eq!(
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conflict.removes().map(|v| v.as_ref()).collect_vec(),
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vec![base_tree.value(component)]
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);
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assert_eq!(
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conflict.adds().map(|v| v.as_ref()).collect_vec(),
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vec![side1_tree.value(component), side2_tree.value(component)]
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);
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}
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_ => panic!("unexpected value"),
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};
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}
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#[test]
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fn test_executable() {
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let store = repo.store();
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// The file name encodes whether the file was executable or normal in the base
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// and in each side
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let files = vec!["nnn", "nnx", "nxn", "nxx", "xnn", "xnx", "xxn", "xxx"];
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let write_tree = |files: &[(&str, bool)]| -> Tree {
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let mut tree_builder = store.tree_builder(store.empty_tree_id().clone());
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for &(path, executable) in files {
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let repo_path = RepoPath::from_internal_string(path);
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if executable {
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testutils::write_executable_file(&mut tree_builder, repo_path, "contents");
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} else {
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testutils::write_normal_file(&mut tree_builder, repo_path, "contents");
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}
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}
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let tree_id = tree_builder.write_tree();
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store.get_tree(RepoPath::root(), &tree_id).unwrap()
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};
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fn contents_in_tree<'a>(files: &[&'a str], index: usize) -> Vec<(&'a str, bool)> {
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files
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.iter()
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.map(|f| (*f, &f[index..][..1] == "x"))
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.collect()
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}
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let base_tree = write_tree(&contents_in_tree(&files, 0));
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let side1_tree = write_tree(&contents_in_tree(&files, 1));
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let side2_tree = write_tree(&contents_in_tree(&files, 2));
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// Create the merged tree
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let merged_tree = merge_trees(&side1_tree, &base_tree, &side2_tree).unwrap();
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// Check that the merged tree has the correct executable bits
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let norm = base_tree.value(RepoPathComponent::new("nnn"));
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let exec = base_tree.value(RepoPathComponent::new("xxx"));
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assert_eq!(merged_tree.value(RepoPathComponent::new("nnn")), norm);
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assert_eq!(merged_tree.value(RepoPathComponent::new("nnx")), exec);
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assert_eq!(merged_tree.value(RepoPathComponent::new("nxn")), exec);
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assert_eq!(merged_tree.value(RepoPathComponent::new("nxx")), exec);
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assert_eq!(merged_tree.value(RepoPathComponent::new("xnn")), norm);
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assert_eq!(merged_tree.value(RepoPathComponent::new("xnx")), norm);
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assert_eq!(merged_tree.value(RepoPathComponent::new("xxn")), norm);
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assert_eq!(merged_tree.value(RepoPathComponent::new("xxx")), exec);
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}
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#[test]
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fn test_subtrees() {
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// Tests that subtrees are merged.
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let store = repo.store();
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let write_tree = |paths: Vec<&str>| -> Tree {
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let mut tree_builder = store.tree_builder(store.empty_tree_id().clone());
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for path in paths {
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testutils::write_normal_file(
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&mut tree_builder,
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RepoPath::from_internal_string(path),
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&format!("contents of {path:?}"),
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);
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}
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let tree_id = tree_builder.write_tree();
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store.get_tree(RepoPath::root(), &tree_id).unwrap()
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};
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let base_tree = write_tree(vec!["f1", "d1/f1", "d1/d1/f1", "d1/d1/d1/f1"]);
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let side1_tree = write_tree(vec![
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"f1",
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"f2",
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"d1/f1",
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"d1/f2",
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"d1/d1/f1",
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"d1/d1/d1/f1",
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]);
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let side2_tree = write_tree(vec![
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"f1",
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"d1/f1",
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"d1/d1/f1",
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"d1/d1/d1/f1",
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"d1/d1/d1/f2",
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]);
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let merged_tree = merge_trees(&side1_tree, &base_tree, &side2_tree).unwrap();
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let entries = merged_tree.entries().collect_vec();
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let expected_tree = write_tree(vec![
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"f1",
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"f2",
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"d1/f1",
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"d1/f2",
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"d1/d1/f1",
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"d1/d1/d1/f1",
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"d1/d1/d1/f2",
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]);
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let expected_entries = expected_tree.entries().collect_vec();
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assert_eq!(entries, expected_entries);
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}
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#[test]
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fn test_subtree_becomes_empty() {
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// Tests that subtrees that become empty are removed from the parent tree.
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let store = repo.store();
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let write_tree = |paths: Vec<&str>| -> Tree {
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let mut tree_builder = store.tree_builder(store.empty_tree_id().clone());
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for path in paths {
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testutils::write_normal_file(
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&mut tree_builder,
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RepoPath::from_internal_string(path),
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&format!("contents of {path:?}"),
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);
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}
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let tree_id = tree_builder.write_tree();
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store.get_tree(RepoPath::root(), &tree_id).unwrap()
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};
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let base_tree = write_tree(vec!["f1", "d1/f1", "d1/d1/d1/f1", "d1/d1/d1/f2"]);
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let side1_tree = write_tree(vec!["f1", "d1/f1", "d1/d1/d1/f1"]);
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let side2_tree = write_tree(vec!["d1/d1/d1/f2"]);
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let merged_tree = merge_trees(&side1_tree, &base_tree, &side2_tree).unwrap();
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assert_eq!(merged_tree.id(), store.empty_tree_id());
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}
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#[test]
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fn test_subtree_one_missing() {
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// Tests that merging trees where one side is missing is resolved as if the
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// missing side was empty.
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let store = repo.store();
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let write_tree = |paths: Vec<&str>| -> Tree {
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let mut tree_builder = store.tree_builder(store.empty_tree_id().clone());
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for path in paths {
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testutils::write_normal_file(
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&mut tree_builder,
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RepoPath::from_internal_string(path),
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&format!("contents of {path:?}"),
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);
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}
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let tree_id = tree_builder.write_tree();
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store.get_tree(RepoPath::root(), &tree_id).unwrap()
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};
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let tree1 = write_tree(vec![]);
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let tree2 = write_tree(vec!["d1/f1"]);
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let tree3 = write_tree(vec!["d1/f1", "d1/f2"]);
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// The two sides add different trees
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let merged_tree = merge_trees(&tree2, &tree1, &tree3).unwrap();
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let expected_entries = write_tree(vec!["d1/f1", "d1/f2"]).entries().collect_vec();
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assert_eq!(merged_tree.entries().collect_vec(), expected_entries);
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// Same tree other way
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let reverse_merged_tree = merge_trees(&tree3, &tree1, &tree2).unwrap();
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assert_eq!(reverse_merged_tree.id(), merged_tree.id());
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// One side removes, the other side modifies
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let merged_tree = merge_trees(&tree1, &tree2, &tree3).unwrap();
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let expected_entries = write_tree(vec!["d1/f2"]).entries().collect_vec();
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assert_eq!(merged_tree.entries().collect_vec(), expected_entries);
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// Same tree other way
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let reverse_merged_tree = merge_trees(&tree3, &tree2, &tree1).unwrap();
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assert_eq!(reverse_merged_tree.id(), merged_tree.id());
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}
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#[test]
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fn test_types() {
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// Tests conflicts between different types. This is mostly to test that the
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// conflicts survive the roundtrip to the store.
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let test_repo = TestRepo::init();
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let repo = &test_repo.repo;
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let store = repo.store();
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let mut base_tree_builder = store.tree_builder(store.empty_tree_id().clone());
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let mut side1_tree_builder = store.tree_builder(store.empty_tree_id().clone());
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let mut side2_tree_builder = store.tree_builder(store.empty_tree_id().clone());
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testutils::write_normal_file(
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&mut base_tree_builder,
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RepoPath::from_internal_string("normal_executable_symlink"),
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"contents",
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);
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testutils::write_executable_file(
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&mut side1_tree_builder,
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RepoPath::from_internal_string("normal_executable_symlink"),
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"contents",
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);
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testutils::write_symlink(
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&mut side2_tree_builder,
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RepoPath::from_internal_string("normal_executable_symlink"),
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"contents",
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);
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let tree_id = store.empty_tree_id().clone();
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base_tree_builder.set(
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RepoPath::from_internal_string("tree_normal_symlink").to_owned(),
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TreeValue::Tree(tree_id),
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);
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testutils::write_normal_file(
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&mut side1_tree_builder,
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RepoPath::from_internal_string("tree_normal_symlink"),
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"contents",
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);
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testutils::write_symlink(
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&mut side2_tree_builder,
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RepoPath::from_internal_string("tree_normal_symlink"),
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"contents",
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);
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let base_tree_id = base_tree_builder.write_tree();
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let base_tree = store.get_tree(RepoPath::root(), &base_tree_id).unwrap();
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let side1_tree_id = side1_tree_builder.write_tree();
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let side1_tree = store.get_tree(RepoPath::root(), &side1_tree_id).unwrap();
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let side2_tree_id = side2_tree_builder.write_tree();
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let side2_tree = store.get_tree(RepoPath::root(), &side2_tree_id).unwrap();
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// Created the merged tree
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let merged_tree = merge_trees(&side1_tree, &base_tree, &side2_tree).unwrap();
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// Check the conflicting cases
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let component = RepoPathComponent::new("normal_executable_symlink");
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match merged_tree.value(component).unwrap() {
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TreeValue::Conflict(id) => {
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let conflict = store
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.read_conflict(
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RepoPath::from_internal_string("normal_executable_symlink"),
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id,
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)
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.unwrap();
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assert_eq!(
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conflict.removes().map(|v| v.as_ref()).collect_vec(),
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vec![base_tree.value(component)]
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);
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assert_eq!(
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conflict.adds().map(|v| v.as_ref()).collect_vec(),
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vec![side1_tree.value(component), side2_tree.value(component)]
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);
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}
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_ => panic!("unexpected value"),
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};
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let component = RepoPathComponent::new("tree_normal_symlink");
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match merged_tree.value(component).unwrap() {
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TreeValue::Conflict(id) => {
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let conflict = store
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.read_conflict(RepoPath::from_internal_string("tree_normal_symlink"), id)
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.unwrap();
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assert_eq!(
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conflict.removes().map(|v| v.as_ref()).collect_vec(),
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vec![base_tree.value(component)]
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);
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assert_eq!(
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conflict.adds().map(|v| v.as_ref()).collect_vec(),
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vec![side1_tree.value(component), side2_tree.value(component)]
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);
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}
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_ => panic!("unexpected value"),
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};
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}
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#[test]
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fn test_simplify_conflict() {
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let test_repo = TestRepo::init();
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|
let repo = &test_repo.repo;
|
|
let store = repo.store();
|
|
|
|
let component = RepoPathComponent::new("file");
|
|
let path = RepoPath::from_internal_string("file");
|
|
let write_tree = |contents: &str| -> Tree { create_single_tree(repo, &[(path, contents)]) };
|
|
|
|
let base_tree = write_tree("base contents");
|
|
let branch_tree = write_tree("branch contents");
|
|
let upstream1_tree = write_tree("upstream1 contents");
|
|
let upstream2_tree = write_tree("upstream2 contents");
|
|
|
|
// Rebase the branch tree to the first upstream tree
|
|
let rebased1_tree = merge_trees(&branch_tree, &base_tree, &upstream1_tree).unwrap();
|
|
// Make sure we have a conflict (testing the test setup)
|
|
match rebased1_tree.value(component).unwrap() {
|
|
TreeValue::Conflict(_) => {
|
|
// expected
|
|
}
|
|
_ => panic!("unexpected value"),
|
|
};
|
|
|
|
// Rebase the rebased tree back to the base. The conflict should be gone. Try
|
|
// both directions.
|
|
let rebased_back_tree = merge_trees(&rebased1_tree, &upstream1_tree, &base_tree).unwrap();
|
|
assert_eq!(
|
|
rebased_back_tree.value(component),
|
|
branch_tree.value(component)
|
|
);
|
|
let rebased_back_tree = merge_trees(&base_tree, &upstream1_tree, &rebased1_tree).unwrap();
|
|
assert_eq!(
|
|
rebased_back_tree.value(component),
|
|
branch_tree.value(component)
|
|
);
|
|
|
|
// Rebase the rebased tree further upstream. The conflict should be simplified
|
|
// to not mention the contents from the first rebase.
|
|
let further_rebased_tree =
|
|
merge_trees(&rebased1_tree, &upstream1_tree, &upstream2_tree).unwrap();
|
|
match further_rebased_tree.value(component).unwrap() {
|
|
TreeValue::Conflict(id) => {
|
|
let conflict = store
|
|
.read_conflict(RepoPath::from_internal_string(component.as_str()), id)
|
|
.unwrap();
|
|
assert_eq!(
|
|
conflict.removes().map(|v| v.as_ref()).collect_vec(),
|
|
vec![base_tree.value(component)]
|
|
);
|
|
assert_eq!(
|
|
conflict.adds().map(|v| v.as_ref()).collect_vec(),
|
|
vec![
|
|
branch_tree.value(component),
|
|
upstream2_tree.value(component),
|
|
]
|
|
);
|
|
}
|
|
_ => panic!("unexpected value"),
|
|
};
|
|
let further_rebased_tree =
|
|
merge_trees(&upstream2_tree, &upstream1_tree, &rebased1_tree).unwrap();
|
|
match further_rebased_tree.value(component).unwrap() {
|
|
TreeValue::Conflict(id) => {
|
|
let conflict = store.read_conflict(path, id).unwrap();
|
|
assert_eq!(
|
|
conflict.removes().map(|v| v.as_ref()).collect_vec(),
|
|
vec![base_tree.value(component)]
|
|
);
|
|
assert_eq!(
|
|
conflict.adds().map(|v| v.as_ref()).collect_vec(),
|
|
vec![
|
|
upstream2_tree.value(component),
|
|
branch_tree.value(component)
|
|
]
|
|
);
|
|
}
|
|
_ => panic!("unexpected value"),
|
|
};
|
|
}
|
|
|
|
#[test]
|
|
fn test_simplify_conflict_after_resolving_parent() {
|
|
let settings = testutils::user_settings();
|
|
let test_repo = TestRepo::init();
|
|
let repo = &test_repo.repo;
|
|
|
|
// Set up a repo like this:
|
|
// D
|
|
// | C
|
|
// | B
|
|
// |/
|
|
// A
|
|
//
|
|
// Commit A has a file with 3 lines. B and D make conflicting changes to the
|
|
// first line. C changes the third line. We then rebase B and C onto D,
|
|
// which creates a conflict. We resolve the conflict in the first line and
|
|
// rebase C2 (the rebased C) onto the resolved conflict. C3 should not have
|
|
// a conflict since it changed an unrelated line.
|
|
let path = RepoPath::from_internal_string("dir/file");
|
|
let mut tx = repo.start_transaction(&settings);
|
|
let tree_a = create_tree(repo, &[(path, "abc\ndef\nghi\n")]);
|
|
let commit_a = tx
|
|
.mut_repo()
|
|
.new_commit(
|
|
&settings,
|
|
vec![repo.store().root_commit_id().clone()],
|
|
tree_a.id(),
|
|
)
|
|
.write()
|
|
.unwrap();
|
|
let tree_b = create_tree(repo, &[(path, "Abc\ndef\nghi\n")]);
|
|
let commit_b = tx
|
|
.mut_repo()
|
|
.new_commit(&settings, vec![commit_a.id().clone()], tree_b.id())
|
|
.write()
|
|
.unwrap();
|
|
let tree_c = create_tree(repo, &[(path, "Abc\ndef\nGhi\n")]);
|
|
let commit_c = tx
|
|
.mut_repo()
|
|
.new_commit(&settings, vec![commit_b.id().clone()], tree_c.id())
|
|
.write()
|
|
.unwrap();
|
|
let tree_d = create_tree(repo, &[(path, "abC\ndef\nghi\n")]);
|
|
let commit_d = tx
|
|
.mut_repo()
|
|
.new_commit(&settings, vec![commit_a.id().clone()], tree_d.id())
|
|
.write()
|
|
.unwrap();
|
|
|
|
let commit_b2 = rebase_commit(
|
|
&settings,
|
|
tx.mut_repo(),
|
|
commit_b,
|
|
vec![commit_d.id().clone()],
|
|
)
|
|
.unwrap();
|
|
let commit_c2 = rebase_commit(
|
|
&settings,
|
|
tx.mut_repo(),
|
|
commit_c,
|
|
vec![commit_b2.id().clone()],
|
|
)
|
|
.unwrap();
|
|
|
|
// Test the setup: Both B and C should have conflicts.
|
|
let tree_b2 = commit_b2.tree().unwrap();
|
|
let tree_c2 = commit_b2.tree().unwrap();
|
|
assert!(!tree_b2.path_value(path).is_resolved());
|
|
assert!(!tree_c2.path_value(path).is_resolved());
|
|
|
|
// Create the resolved B and rebase C on top.
|
|
let tree_b3 = create_tree(repo, &[(path, "AbC\ndef\nghi\n")]);
|
|
let commit_b3 = tx
|
|
.mut_repo()
|
|
.rewrite_commit(&settings, &commit_b2)
|
|
.set_tree_id(tree_b3.id())
|
|
.write()
|
|
.unwrap();
|
|
let commit_c3 = rebase_commit(
|
|
&settings,
|
|
tx.mut_repo(),
|
|
commit_c2,
|
|
vec![commit_b3.id().clone()],
|
|
)
|
|
.unwrap();
|
|
tx.mut_repo().rebase_descendants(&settings).unwrap();
|
|
let repo = tx.commit("test");
|
|
|
|
// The conflict should now be resolved.
|
|
let tree_c2 = commit_c3.tree().unwrap();
|
|
let resolved_value = tree_c2.path_value(path);
|
|
match resolved_value.into_resolved() {
|
|
Ok(Some(TreeValue::File {
|
|
id,
|
|
executable: false,
|
|
})) => {
|
|
assert_eq!(
|
|
testutils::read_file(repo.store(), path, &id),
|
|
b"AbC\ndef\nGhi\n"
|
|
);
|
|
}
|
|
other => {
|
|
panic!("unexpected value: {other:#?}");
|
|
}
|
|
}
|
|
}
|
|
|
|
// TODO: Add tests for simplification of multi-way conflicts. Both the content
|
|
// and the executable bit need testing.
|