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jj/lib/tests/test_revset.rs
Martin von Zweigbergk 9fb3521bf5 view: rename insert_git_ref() to set_git_ref() 
I just feel like `set_git_ref()` is a more natural name (I was looking
for it the other day before I realized I had called it
`insert_git_ref()`).
2021-08-04 08:45:37 -07:00

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// Copyright 2021 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 jujutsu_lib::commit_builder::CommitBuilder;
use jujutsu_lib::op_store::RefTarget;
use jujutsu_lib::repo::RepoRef;
use jujutsu_lib::revset::{parse, resolve_symbol, RevsetError};
use jujutsu_lib::store::{CommitId, MillisSinceEpoch, Signature, Timestamp};
use jujutsu_lib::testutils::CommitGraphBuilder;
use jujutsu_lib::{git, testutils};
use test_case::test_case;
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_resolve_symbol_root(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
assert_eq!(
resolve_symbol(repo.as_repo_ref(), "root"),
Ok(vec![repo.store().root_commit_id().clone()])
);
}
#[test]
fn test_resolve_symbol_commit_id() {
let settings = testutils::user_settings();
// Test only with git so we can get predictable commit ids
let (_temp_dir, repo) = testutils::init_repo(&settings, true);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let signature = Signature {
name: "test".to_string(),
email: "test".to_string(),
timestamp: Timestamp {
timestamp: MillisSinceEpoch(0),
tz_offset: 0,
},
};
let mut commits = vec![];
for i in &[1, 167, 895] {
let commit = CommitBuilder::for_new_commit(
&settings,
repo.store(),
repo.store().empty_tree_id().clone(),
)
.set_description(format!("test {}", i))
.set_author(signature.clone())
.set_committer(signature.clone())
.write_to_repo(mut_repo);
commits.push(commit);
}
let repo = tx.commit();
// Test the test setup
assert_eq!(
commits[0].id().hex(),
"0454de3cae04c46cda37ba2e8873b4c17ff51dcb"
);
assert_eq!(
commits[1].id().hex(),
"045f56cd1b17e8abde86771e2705395dcde6a957"
);
assert_eq!(
commits[2].id().hex(),
"0468f7da8de2ce442f512aacf83411d26cd2e0cf"
);
// Test lookup by full commit id
let repo_ref = repo.as_repo_ref();
assert_eq!(
resolve_symbol(repo_ref, "0454de3cae04c46cda37ba2e8873b4c17ff51dcb"),
Ok(vec![commits[0].id().clone()])
);
assert_eq!(
resolve_symbol(repo_ref, "045f56cd1b17e8abde86771e2705395dcde6a957"),
Ok(vec![commits[1].id().clone()])
);
assert_eq!(
resolve_symbol(repo_ref, "0468f7da8de2ce442f512aacf83411d26cd2e0cf"),
Ok(vec![commits[2].id().clone()])
);
// Test commit id prefix
assert_eq!(
resolve_symbol(repo_ref, "046"),
Ok(vec![commits[2].id().clone()])
);
assert_eq!(
resolve_symbol(repo_ref, "04"),
Err(RevsetError::AmbiguousCommitIdPrefix("04".to_string()))
);
assert_eq!(
resolve_symbol(repo_ref, ""),
Err(RevsetError::AmbiguousCommitIdPrefix("".to_string()))
);
assert_eq!(
resolve_symbol(repo_ref, "040"),
Err(RevsetError::NoSuchRevision("040".to_string()))
);
// Test non-hex string
assert_eq!(
resolve_symbol(repo_ref, "foo"),
Err(RevsetError::NoSuchRevision("foo".to_string()))
);
}
#[test]
fn test_resolve_symbol_change_id() {
let settings = testutils::user_settings();
// Test only with git so we can get predictable change ids
let (_temp_dir, repo) = testutils::init_repo(&settings, true);
let git_repo = repo.store().git_repo().unwrap();
// Add some commits that will end up having change ids with common prefixes
let empty_tree_id = git_repo.treebuilder(None).unwrap().write().unwrap();
let git_author = git2::Signature::new(
"git author",
"git.author@example.com",
&git2::Time::new(1000, 60),
)
.unwrap();
let git_committer = git2::Signature::new(
"git committer",
"git.committer@example.com",
&git2::Time::new(2000, -480),
)
.unwrap();
let git_tree = git_repo.find_tree(empty_tree_id).unwrap();
let mut git_commit_ids = vec![];
for i in &[133, 664, 840] {
let git_commit_id = git_repo
.commit(
Some(&format!("refs/heads/branch{}", i)),
&git_author,
&git_committer,
&format!("test {}", i),
&git_tree,
&[],
)
.unwrap();
git_commit_ids.push(git_commit_id);
}
let mut tx = repo.start_transaction("test");
git::import_refs(tx.mut_repo(), &git_repo).unwrap();
let repo = tx.commit();
// Test the test setup
assert_eq!(
hex::encode(git_commit_ids[0].as_bytes()),
// "04e12a5467bba790efb88a9870894ec208b16bf1" reversed
"8fd68d104372910e19511df709e5dde62a548720"
);
assert_eq!(
hex::encode(git_commit_ids[1].as_bytes()),
// "040b3ba3a51d8edbc4c5855cbd09de71d4c29cca" reversed
"5339432b8e7b90bd3aa1a323db71b8a5c5dcd020"
);
assert_eq!(
hex::encode(git_commit_ids[2].as_bytes()),
// "04e1c7082e4e34f3f371d8a1a46770b861b9b547" reversed
"e2ad9d861d0ee625851b8ecfcf2c727410e38720"
);
// Test lookup by full change id
let repo_ref = repo.as_repo_ref();
assert_eq!(
resolve_symbol(repo_ref, "04e12a5467bba790efb88a9870894ec2"),
Ok(vec![CommitId::from_hex(
"8fd68d104372910e19511df709e5dde62a548720"
)])
);
assert_eq!(
resolve_symbol(repo_ref, "040b3ba3a51d8edbc4c5855cbd09de71"),
Ok(vec![CommitId::from_hex(
"5339432b8e7b90bd3aa1a323db71b8a5c5dcd020"
)])
);
assert_eq!(
resolve_symbol(repo_ref, "04e1c7082e4e34f3f371d8a1a46770b8"),
Ok(vec![CommitId::from_hex(
"e2ad9d861d0ee625851b8ecfcf2c727410e38720"
)])
);
// Test change id prefix
assert_eq!(
resolve_symbol(repo_ref, "04e12"),
Ok(vec![CommitId::from_hex(
"8fd68d104372910e19511df709e5dde62a548720"
)])
);
assert_eq!(
resolve_symbol(repo_ref, "04e1c"),
Ok(vec![CommitId::from_hex(
"e2ad9d861d0ee625851b8ecfcf2c727410e38720"
)])
);
assert_eq!(
resolve_symbol(repo_ref, "04e1"),
Err(RevsetError::AmbiguousChangeIdPrefix("04e1".to_string()))
);
assert_eq!(
resolve_symbol(repo_ref, ""),
// Commit id is checked first, so this is considered an ambiguous commit id
Err(RevsetError::AmbiguousCommitIdPrefix("".to_string()))
);
assert_eq!(
resolve_symbol(repo_ref, "04e13"),
Err(RevsetError::NoSuchRevision("04e13".to_string()))
);
// Test non-hex string
assert_eq!(
resolve_symbol(repo_ref, "foo"),
Err(RevsetError::NoSuchRevision("foo".to_string()))
);
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_resolve_symbol_checkout(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
mut_repo.set_checkout(commit1.id().clone());
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "@"),
Ok(vec![commit1.id().clone()])
);
mut_repo.set_checkout(commit2.id().clone());
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "@"),
Ok(vec![commit2.id().clone()])
);
tx.discard();
}
#[test]
fn test_resolve_symbol_git_refs() {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, true);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
// Create some commits and refs to work with and so the repo is not empty
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit3 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit4 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit5 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
mut_repo.set_git_ref(
"refs/heads/branch1".to_string(),
RefTarget::Normal(commit1.id().clone()),
);
mut_repo.set_git_ref(
"refs/heads/branch2".to_string(),
RefTarget::Normal(commit2.id().clone()),
);
mut_repo.set_git_ref(
"refs/heads/conflicted".to_string(),
RefTarget::Conflict {
removes: vec![commit2.id().clone()],
adds: vec![commit1.id().clone(), commit3.id().clone()],
},
);
mut_repo.set_git_ref(
"refs/tags/tag1".to_string(),
RefTarget::Normal(commit2.id().clone()),
);
mut_repo.set_git_ref(
"refs/tags/remotes/origin/branch1".to_string(),
RefTarget::Normal(commit3.id().clone()),
);
// Non-existent ref
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "non-existent"),
Err(RevsetError::NoSuchRevision("non-existent".to_string()))
);
// Full ref
mut_repo.set_git_ref(
"refs/heads/branch".to_string(),
RefTarget::Normal(commit4.id().clone()),
);
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "refs/heads/branch"),
Ok(vec![commit4.id().clone()])
);
// Qualified with only heads/
mut_repo.set_git_ref(
"refs/heads/branch".to_string(),
RefTarget::Normal(commit5.id().clone()),
);
mut_repo.set_git_ref(
"refs/tags/branch".to_string(),
RefTarget::Normal(commit4.id().clone()),
);
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "heads/branch"),
Ok(vec![commit5.id().clone()])
);
// Unqualified branch name
mut_repo.set_git_ref(
"refs/heads/branch".to_string(),
RefTarget::Normal(commit3.id().clone()),
);
mut_repo.set_git_ref(
"refs/tags/branch".to_string(),
RefTarget::Normal(commit4.id().clone()),
);
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "branch"),
Ok(vec![commit3.id().clone()])
);
// Unqualified tag name
mut_repo.set_git_ref(
"refs/tags/tag".to_string(),
RefTarget::Normal(commit4.id().clone()),
);
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "tag"),
Ok(vec![commit4.id().clone()])
);
// Unqualified remote-tracking branch name
mut_repo.set_git_ref(
"refs/remotes/origin/remote-branch".to_string(),
RefTarget::Normal(commit2.id().clone()),
);
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "origin/remote-branch"),
Ok(vec![commit2.id().clone()])
);
// Cannot shadow checkout ("@") or root symbols
mut_repo.set_git_ref("@".to_string(), RefTarget::Normal(commit2.id().clone()));
mut_repo.set_git_ref("root".to_string(), RefTarget::Normal(commit3.id().clone()));
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "@"),
Ok(vec![mut_repo.view().checkout().clone()])
);
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "root"),
Ok(vec![mut_repo.store().root_commit().id().clone()])
);
// Conflicted ref resolves to its "adds"
assert_eq!(
resolve_symbol(mut_repo.as_repo_ref(), "refs/heads/conflicted"),
Ok(vec![commit1.id().clone(), commit3.id().clone()])
);
tx.discard();
}
fn resolve_commit_ids(repo: RepoRef, revset_str: &str) -> Vec<CommitId> {
let expression = parse(revset_str).unwrap();
expression
.evaluate(repo)
.unwrap()
.iter()
.map(|entry| entry.commit_id())
.collect()
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_root_and_checkout(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let root_commit = repo.store().root_commit();
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
// Can find the root commit
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "root"),
vec![root_commit.id().clone()]
);
// Can find the current checkout
mut_repo.set_checkout(commit1.id().clone());
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "@"),
vec![commit1.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_parents(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.initial_commit();
let commit4 = graph_builder.commit_with_parents(&[&commit2, &commit3]);
let commit5 = graph_builder.commit_with_parents(&[&commit2]);
// The root commit has no parents
assert_eq!(resolve_commit_ids(mut_repo.as_repo_ref(), ":root"), vec![]);
// Can find parents of the current checkout
mut_repo.set_checkout(commit2.id().clone());
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), ":@"),
vec![commit1.id().clone()]
);
// Can find parents of a merge commit
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), &format!(":{}", commit4.id().hex())),
vec![commit3.id().clone(), commit2.id().clone()]
);
// Parents of all commits in input are returned
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(":({} | {})", commit2.id().hex(), commit3.id().hex())
),
vec![commit1.id().clone(), root_commit.id().clone()]
);
// Parents already in input set are returned
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(":({} | {})", commit1.id().hex(), commit2.id().hex())
),
vec![commit1.id().clone(), root_commit.id().clone()]
);
// Parents shared among commits in input are not repeated
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(":({} | {})", commit4.id().hex(), commit5.id().hex())
),
vec![commit3.id().clone(), commit2.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_children(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let wc_commit = repo.working_copy_locked().current_commit();
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.write_to_repo(mut_repo);
let commit3 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.set_predecessors(vec![commit2.id().clone()])
.set_change_id(commit2.change_id().clone())
.write_to_repo(mut_repo);
let commit4 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit3.id().clone()])
.write_to_repo(mut_repo);
let commit5 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.write_to_repo(mut_repo);
let commit6 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit4.id().clone(), commit5.id().clone()])
.write_to_repo(mut_repo);
// Can find children of the root commit
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "root:"),
vec![commit1.id().clone(), wc_commit.id().clone()]
);
// Children do not include hidden commits (commit2)
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), &format!("{}:", commit1.id().hex())),
vec![commit5.id().clone(), commit3.id().clone()]
);
// Children of all commits in input are returned, including those already in the
// input set
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("({} | {}):", commit1.id().hex(), commit3.id().hex())
),
vec![
commit5.id().clone(),
commit4.id().clone(),
commit3.id().clone()
]
);
// Children shared among commits in input are not repeated
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("({} | {}):", commit4.id().hex(), commit5.id().hex())
),
vec![commit6.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_ancestors(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.commit_with_parents(&[&commit2]);
let commit4 = graph_builder.commit_with_parents(&[&commit1, &commit3]);
// The ancestors of the root commit is just the root commit itself
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), ",,root"),
vec![root_commit.id().clone()]
);
// Can find ancestors of a specific commit. Commits reachable via multiple paths
// are not repeated.
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), &format!(",,{}", commit4.id().hex())),
vec![
commit4.id().clone(),
commit3.id().clone(),
commit2.id().clone(),
commit1.id().clone(),
root_commit.id().clone(),
]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_range(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.commit_with_parents(&[&commit2]);
let commit4 = graph_builder.commit_with_parents(&[&commit1, &commit3]);
// The range from the root to the root is empty (because the left side of the
// range is exclusive)
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "root,,,root"),
vec![]
);
// Linear range
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,,{}", commit1.id().hex(), commit3.id().hex())
),
vec![commit3.id().clone(), commit2.id().clone()]
);
// Empty range (descendant first)
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,,{}", commit3.id().hex(), commit1.id().hex())
),
vec![]
);
// Range including a merge
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,,{}", commit1.id().hex(), commit4.id().hex())
),
vec![
commit4.id().clone(),
commit3.id().clone(),
commit2.id().clone()
]
);
// Sibling commits
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,,{}", commit2.id().hex(), commit3.id().hex())
),
vec![commit3.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_dag_range(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.commit_with_parents(&[&commit2]);
let commit4 = graph_builder.commit_with_parents(&[&commit1]);
let commit5 = graph_builder.commit_with_parents(&[&commit3, &commit4]);
// Can get DAG range of just the root commit
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "root,,root"),
vec![root_commit.id().clone(),]
);
// Linear range
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,{}", root_commit.id().hex(), commit2.id().hex())
),
vec![
commit2.id().clone(),
commit1.id().clone(),
root_commit.id().clone(),
]
);
// Empty range
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,{}", commit2.id().hex(), commit4.id().hex())
),
vec![]
);
// Including a merge
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,{}", commit1.id().hex(), commit5.id().hex())
),
vec![
commit5.id().clone(),
commit4.id().clone(),
commit3.id().clone(),
commit2.id().clone(),
commit1.id().clone(),
]
);
// Including a merge, but only ancestors only from one side
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{},,{}", commit2.id().hex(), commit5.id().hex())
),
vec![
commit5.id().clone(),
commit3.id().clone(),
commit2.id().clone(),
]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_descendants(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let root_commit = repo.store().root_commit();
let wc_commit = repo.working_copy_locked().current_commit();
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.write_to_repo(mut_repo);
let commit3 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.set_predecessors(vec![commit2.id().clone()])
.set_change_id(commit2.change_id().clone())
.write_to_repo(mut_repo);
let commit4 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit3.id().clone()])
.write_to_repo(mut_repo);
let commit5 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.write_to_repo(mut_repo);
let commit6 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit4.id().clone(), commit5.id().clone()])
.write_to_repo(mut_repo);
// The descendants of the root commit is all the non-hidden commits in the repo
// (commit2 is excluded)
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "root,,"),
vec![
commit6.id().clone(),
commit5.id().clone(),
commit4.id().clone(),
commit3.id().clone(),
commit1.id().clone(),
wc_commit.id().clone(),
root_commit.id().clone(),
]
);
// Can find ancestors of a specific commit
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(
"{},,\
",
commit3.id().hex()
)
),
vec![
commit6.id().clone(),
commit4.id().clone(),
commit3.id().clone(),
]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_all_heads(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let wc_commit = repo.working_copy_locked().current_commit();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "all_heads()"),
vec![commit2.id().clone(), wc_commit.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_public_heads(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.initial_commit();
// Can get public heads with root commit as only public head
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "public_heads()"),
vec![root_commit.id().clone()]
);
// Can get public heads with a single public head
mut_repo.add_public_head(&commit1);
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "public_heads()"),
vec![commit1.id().clone()]
);
// Can get public heads with multiple public head
mut_repo.add_public_head(&commit2);
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "public_heads()"),
vec![commit2.id().clone(), commit1.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_git_refs(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit3 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit4 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
// Can get git refs when there are none
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "git_refs()"),
vec![]
);
// Can get a mix of git refs
mut_repo.set_git_ref(
"refs/heads/branch1".to_string(),
RefTarget::Normal(commit1.id().clone()),
);
mut_repo.set_git_ref(
"refs/tags/tag1".to_string(),
RefTarget::Normal(commit2.id().clone()),
);
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "git_refs()"),
vec![commit2.id().clone(), commit1.id().clone()]
);
// Two refs pointing to the same commit does not result in a duplicate in the
// revset
mut_repo.set_git_ref(
"refs/tags/tag2".to_string(),
RefTarget::Normal(commit2.id().clone()),
);
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "git_refs()"),
vec![commit2.id().clone(), commit1.id().clone()]
);
// Can get git refs when there are conflicted refs
mut_repo.set_git_ref(
"refs/heads/branch1".to_string(),
RefTarget::Conflict {
removes: vec![commit1.id().clone()],
adds: vec![commit2.id().clone(), commit3.id().clone()],
},
);
mut_repo.set_git_ref(
"refs/tags/tag1".to_string(),
RefTarget::Conflict {
removes: vec![commit2.id().clone()],
adds: vec![commit3.id().clone(), commit4.id().clone()],
},
);
mut_repo.remove_git_ref("refs/tags/tag2");
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "git_refs()"),
vec![
commit4.id().clone(),
commit3.id().clone(),
commit2.id().clone()
]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_obsolete(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let root_commit = repo.store().root_commit();
let wc_commit = repo.working_copy_locked().current_commit();
let commit1 = testutils::create_random_commit(&settings, &repo).write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo)
.set_predecessors(vec![commit1.id().clone()])
.set_change_id(commit1.change_id().clone())
.write_to_repo(mut_repo);
let commit3 = testutils::create_random_commit(&settings, &repo)
.set_predecessors(vec![commit2.id().clone()])
.set_change_id(commit2.change_id().clone())
.write_to_repo(mut_repo);
let commit4 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit3.id().clone()])
.set_pruned(true)
.write_to_repo(mut_repo);
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "non_obsolete_heads()"),
vec![commit3.id().clone(), wc_commit.id().clone()]
);
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("non_obsolete_heads({})", commit4.id().hex())
),
vec![commit3.id().clone()]
);
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("non_obsolete_heads({})", commit1.id().hex())
),
vec![root_commit.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_merges(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.initial_commit();
let commit3 = graph_builder.initial_commit();
let commit4 = graph_builder.commit_with_parents(&[&commit1, &commit2]);
let commit5 = graph_builder.commit_with_parents(&[&commit1, &commit2, &commit3]);
// Finds all merges by default
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "merges()"),
vec![commit5.id().clone(), commit4.id().clone(),]
);
// Searches only among candidates if specified
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("merges(,,{})", commit5.id().hex())
),
vec![commit5.id().clone()]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_description(use_git: bool) {
let settings = testutils::user_settings();
let (_temp_dir, repo) = testutils::init_repo(&settings, use_git);
let mut tx = repo.start_transaction("test");
let mut_repo = tx.mut_repo();
let commit1 = testutils::create_random_commit(&settings, &repo)
.set_description("commit 1".to_string())
.write_to_repo(mut_repo);
let commit2 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit1.id().clone()])
.set_description("commit 2".to_string())
.write_to_repo(mut_repo);
let commit3 = testutils::create_random_commit(&settings, &repo)
.set_parents(vec![commit2.id().clone()])
.set_description("commit 3".to_string())
.write_to_repo(mut_repo);
// Can find multiple matches
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "description(commit)"),
vec![
commit3.id().clone(),
commit2.id().clone(),
commit1.id().clone()
]
);
// Can find a unique match
assert_eq!(
resolve_commit_ids(mut_repo.as_repo_ref(), "description(\"commit 2\")"),
vec![commit2.id().clone()]
);
// Searches only among candidates if specified
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
"description(\"commit 2\",all_heads())"
),
vec![]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_union(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.commit_with_parents(&[&commit2]);
let commit4 = graph_builder.commit_with_parents(&[&commit3]);
let commit5 = graph_builder.commit_with_parents(&[&commit2]);
// Union between ancestors
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(",,{} | ,,{}", commit4.id().hex(), commit5.id().hex())
),
vec![
commit5.id().clone(),
commit4.id().clone(),
commit3.id().clone(),
commit2.id().clone(),
commit1.id().clone(),
root_commit.id().clone()
]
);
// Unioning can add back commits removed by difference
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(
"(,,{} - ,,{}) | ,,{}",
commit4.id().hex(),
commit2.id().hex(),
commit5.id().hex()
)
),
vec![
commit5.id().clone(),
commit4.id().clone(),
commit3.id().clone(),
commit2.id().clone(),
commit1.id().clone(),
root_commit.id().clone(),
]
);
// Unioning of disjoint sets
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(
"(,,{} - ,,{}) | {}",
commit4.id().hex(),
commit2.id().hex(),
commit5.id().hex(),
)
),
vec![
commit5.id().clone(),
commit4.id().clone(),
commit3.id().clone()
]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_intersection(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.commit_with_parents(&[&commit2]);
let commit4 = graph_builder.commit_with_parents(&[&commit3]);
let commit5 = graph_builder.commit_with_parents(&[&commit2]);
// Intersection between ancestors
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(",,{} & ,,{}", commit4.id().hex(), commit5.id().hex())
),
vec![
commit2.id().clone(),
commit1.id().clone(),
root_commit.id().clone()
]
);
// Intersection of disjoint sets
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!("{} & {}", commit4.id().hex(), commit2.id().hex())
),
vec![]
);
tx.discard();
}
#[test_case(false ; "local store")]
#[test_case(true ; "git store")]
fn test_evaluate_expression_difference(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 mut_repo = tx.mut_repo();
let mut graph_builder = CommitGraphBuilder::new(&settings, mut_repo);
let commit1 = graph_builder.initial_commit();
let commit2 = graph_builder.commit_with_parents(&[&commit1]);
let commit3 = graph_builder.commit_with_parents(&[&commit2]);
let commit4 = graph_builder.commit_with_parents(&[&commit3]);
let commit5 = graph_builder.commit_with_parents(&[&commit2]);
// Difference between ancestors
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(",,{} - ,,{}", commit4.id().hex(), commit5.id().hex())
),
vec![commit4.id().clone(), commit3.id().clone()]
);
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(",,{} - ,,{}", commit5.id().hex(), commit4.id().hex())
),
vec![commit5.id().clone()]
);
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(",,{} - ,,{}", commit4.id().hex(), commit2.id().hex())
),
vec![commit4.id().clone(), commit3.id().clone()]
);
// Associativity
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(
",,{} - {} - {}",
commit4.id().hex(),
commit2.id().hex(),
commit3.id().hex()
)
),
vec![
commit4.id().clone(),
commit1.id().clone(),
root_commit.id().clone(),
]
);
// Subtracting a difference does not add back any commits
assert_eq!(
resolve_commit_ids(
mut_repo.as_repo_ref(),
&format!(
"(,,{} - ,,{}) - (,,{} - ,,{})",
commit4.id().hex(),
commit1.id().hex(),
commit3.id().hex(),
commit1.id().hex(),
)
),
vec![commit4.id().clone()]
);
tx.discard();
}
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