// Copyright 2021 The Jujutsu Authors
//
// 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 std::iter;
use std::path::Path;

use assert_matches::assert_matches;
use itertools::Itertools;
use jj_lib::backend::{CommitId, MillisSinceEpoch, Signature, Timestamp};
use jj_lib::commit::Commit;
use jj_lib::fileset::FilesetExpression;
use jj_lib::git;
use jj_lib::git_backend::GitBackend;
use jj_lib::graph::{GraphEdge, ReverseGraphIterator};
use jj_lib::object_id::ObjectId;
use jj_lib::op_store::{RefTarget, RemoteRef, RemoteRefState, WorkspaceId};
use jj_lib::repo::Repo;
use jj_lib::repo_path::{RepoPath, RepoPathUiConverter};
use jj_lib::revset::{
    optimize, parse, DefaultSymbolResolver, FailingSymbolResolver, ResolvedExpression, Revset,
    RevsetAliasesMap, RevsetExpression, RevsetExtensions, RevsetFilterPredicate,
    RevsetParseContext, RevsetResolutionError, RevsetWorkspaceContext, SymbolResolverExtension,
};
use jj_lib::settings::GitSettings;
use jj_lib::workspace::Workspace;
use test_case::test_case;
use testutils::{
    create_random_commit, create_tree, write_random_commit, CommitGraphBuilder, TestRepo,
    TestRepoBackend, TestWorkspace,
};

fn resolve_symbol_with_extensions(
    repo: &dyn Repo,
    extensions: &RevsetExtensions,
    symbol: &str,
) -> Result<Vec<CommitId>, RevsetResolutionError> {
    let aliases_map = RevsetAliasesMap::default();
    let context = RevsetParseContext::new(&aliases_map, String::new(), extensions, None);
    let expression = parse(symbol, &context).unwrap();
    assert_matches!(*expression, RevsetExpression::CommitRef(_));
    let symbol_resolver = DefaultSymbolResolver::new(repo, extensions.symbol_resolvers());
    match expression.resolve_user_expression(repo, &symbol_resolver)? {
        ResolvedExpression::Commits(commits) => Ok(commits),
        expression => panic!("symbol resolved to compound expression: {expression:?}"),
    }
}

fn resolve_symbol(repo: &dyn Repo, symbol: &str) -> Result<Vec<CommitId>, RevsetResolutionError> {
    resolve_symbol_with_extensions(repo, &RevsetExtensions::default(), symbol)
}

fn revset_for_commits<'index>(
    repo: &'index dyn Repo,
    commits: &[&Commit],
) -> Box<dyn Revset + 'index> {
    let symbol_resolver =
        DefaultSymbolResolver::new(repo, &([] as [&Box<dyn SymbolResolverExtension>; 0]));
    RevsetExpression::commits(commits.iter().map(|commit| commit.id().clone()).collect())
        .resolve_user_expression(repo, &symbol_resolver)
        .unwrap()
        .evaluate(repo)
        .unwrap()
}

#[test]
fn test_resolve_symbol_empty_string() {
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    assert_matches!(
        resolve_symbol(repo.as_ref(), r#""""#),
        Err(RevsetResolutionError::EmptyString)
    );
}

#[test]
fn test_resolve_symbol_commit_id() {
    let settings = testutils::user_settings();
    // Test only with git so we can get predictable commit ids
    let test_repo = TestRepo::init_with_backend(TestRepoBackend::Git);
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    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 = mut_repo
            .new_commit(
                &settings,
                vec![repo.store().root_commit_id().clone()],
                repo.store().empty_merged_tree_id(),
            )
            .set_description(format!("test {i}"))
            .set_author(signature.clone())
            .set_committer(signature.clone())
            .write()
            .unwrap();
        commits.push(commit);
    }
    let repo = tx.commit("test");

    // 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"
    );

    // Change ids should never have prefix "04"
    insta::assert_snapshot!(commits[0].change_id().hex(), @"781199f9d55d18e855a7aa84c5e4b40d");
    insta::assert_snapshot!(commits[1].change_id().hex(), @"a2c96fc88f32e487328f04927f20c4b1");
    insta::assert_snapshot!(commits[2].change_id().hex(), @"4399e4f3123763dfe7d68a2809ecc01b");

    // Test lookup by full commit id
    assert_eq!(
        resolve_symbol(repo.as_ref(), "0454de3cae04c46cda37ba2e8873b4c17ff51dcb",).unwrap(),
        vec![commits[0].id().clone()]
    );
    assert_eq!(
        resolve_symbol(repo.as_ref(), "045f56cd1b17e8abde86771e2705395dcde6a957",).unwrap(),
        vec![commits[1].id().clone()]
    );
    assert_eq!(
        resolve_symbol(repo.as_ref(), "0468f7da8de2ce442f512aacf83411d26cd2e0cf",).unwrap(),
        vec![commits[2].id().clone()]
    );

    // Test commit id prefix
    assert_eq!(
        resolve_symbol(repo.as_ref(), "046").unwrap(),
        vec![commits[2].id().clone()]
    );
    assert_matches!(
        resolve_symbol(repo.as_ref(), "04"),
        Err(RevsetResolutionError::AmbiguousCommitIdPrefix(s)) if s == "04"
    );
    assert_matches!(
        resolve_symbol(repo.as_ref(), "040"),
        Err(RevsetResolutionError::NoSuchRevision{name, candidates}) if name == "040" && candidates.is_empty()
    );

    // Test non-hex string
    assert_matches!(
        resolve_symbol(repo.as_ref(), "foo"),
        Err(RevsetResolutionError::NoSuchRevision{name, candidates}) if name == "foo" && candidates.is_empty()
    );

    // Test present() suppresses only NoSuchRevision error
    assert_eq!(resolve_commit_ids(repo.as_ref(), "present(foo)"), []);
    let symbol_resolver = DefaultSymbolResolver::new(
        repo.as_ref(),
        &([] as [&Box<dyn SymbolResolverExtension>; 0]),
    );
    let aliases_map = RevsetAliasesMap::default();
    let extensions = RevsetExtensions::default();
    let context = RevsetParseContext::new(&aliases_map, settings.user_email(), &extensions, None);
    assert_matches!(
        optimize(parse("present(04)", &context).unwrap()).resolve_user_expression(repo.as_ref(), &symbol_resolver),
        Err(RevsetResolutionError::AmbiguousCommitIdPrefix(s)) if s == "04"
    );
    assert_eq!(
        resolve_commit_ids(repo.as_ref(), "present(046)"),
        vec![commits[2].id().clone()]
    );
}

#[test_case(false ; "mutable")]
#[test_case(true ; "readonly")]
fn test_resolve_symbol_change_id(readonly: bool) {
    let settings = testutils::user_settings();
    let git_settings = GitSettings::default();
    // Test only with git so we can get predictable change ids
    let test_repo = TestRepo::init_with_backend(TestRepoBackend::Git);
    let repo = &test_repo.repo;

    let git_repo = repo
        .store()
        .backend_impl()
        .downcast_ref::<GitBackend>()
        .unwrap()
        .open_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, 5085] {
        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(&settings);
    git::import_refs(tx.mut_repo(), &git_settings).unwrap();

    // Test the test setup
    assert_eq!(
        hex::encode(git_commit_ids[0]),
        // "04e12a5467bba790efb88a9870894ec208b16bf1" reversed
        "8fd68d104372910e19511df709e5dde62a548720"
    );
    assert_eq!(
        hex::encode(git_commit_ids[1]),
        // "040b3ba3a51d8edbc4c5855cbd09de71d4c29cca" reversed
        "5339432b8e7b90bd3aa1a323db71b8a5c5dcd020"
    );
    assert_eq!(
        hex::encode(git_commit_ids[2]),
        // "04e1c7082e4e34f3f371d8a1a46770b861b9b547" reversed
        "e2ad9d861d0ee625851b8ecfcf2c727410e38720"
    );
    assert_eq!(
        hex::encode(git_commit_ids[3]),
        // "911d7e52fd5ba04b8f289e14c3d30b52d38c0020" reversed
        "040031cb4ad0cbc3287914f1d205dabf4a7eb889"
    );

    let _readonly_repo;
    let repo: &dyn Repo = if readonly {
        _readonly_repo = tx.commit("test");
        _readonly_repo.as_ref()
    } else {
        tx.mut_repo()
    };

    // Test lookup by full change id
    assert_eq!(
        resolve_symbol(repo, "zvlyxpuvtsoopsqzlkorrpqrszrqvlnx").unwrap(),
        vec![CommitId::from_hex(
            "8fd68d104372910e19511df709e5dde62a548720"
        )]
    );
    assert_eq!(
        resolve_symbol(repo, "zvzowopwpuymrlmonvnuruunomzqmlsy").unwrap(),
        vec![CommitId::from_hex(
            "5339432b8e7b90bd3aa1a323db71b8a5c5dcd020"
        )]
    );
    assert_eq!(
        resolve_symbol(repo, "zvlynszrxlvlwvkwkwsymrpypvtsszor").unwrap(),
        vec![CommitId::from_hex(
            "e2ad9d861d0ee625851b8ecfcf2c727410e38720"
        )]
    );

    // Test change id prefix
    assert_eq!(
        resolve_symbol(repo, "zvlyx").unwrap(),
        vec![CommitId::from_hex(
            "8fd68d104372910e19511df709e5dde62a548720"
        )]
    );
    assert_eq!(
        resolve_symbol(repo, "zvlyn").unwrap(),
        vec![CommitId::from_hex(
            "e2ad9d861d0ee625851b8ecfcf2c727410e38720"
        )]
    );
    assert_matches!(
        resolve_symbol(repo, "zvly"),
        Err(RevsetResolutionError::AmbiguousChangeIdPrefix(s)) if s == "zvly"
    );
    assert_matches!(
        resolve_symbol(repo, "zvlyw"),
        Err(RevsetResolutionError::NoSuchRevision{name, candidates}) if name == "zvlyw" && candidates.is_empty()
    );

    // Test that commit and changed id don't conflict ("040" and "zvz" are the
    // same).
    assert_eq!(
        resolve_symbol(repo, "040").unwrap(),
        vec![CommitId::from_hex(
            "040031cb4ad0cbc3287914f1d205dabf4a7eb889"
        )]
    );
    assert_eq!(
        resolve_symbol(repo, "zvz").unwrap(),
        vec![CommitId::from_hex(
            "5339432b8e7b90bd3aa1a323db71b8a5c5dcd020"
        )]
    );

    // Test non-hex string
    assert_matches!(
        resolve_symbol(repo, "foo"),
        Err(RevsetResolutionError::NoSuchRevision{
            name,
            candidates
        }) if name == "foo" && candidates.is_empty()
    );
}

#[test]
fn test_resolve_working_copy() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);

    let ws1 = WorkspaceId::new("ws1".to_string());
    let ws2 = WorkspaceId::new("ws2".to_string());

    // Cannot resolve a working-copy commit for an unknown workspace
    assert_matches!(
        RevsetExpression::working_copy(ws1.clone())
            .resolve_user_expression(mut_repo, &FailingSymbolResolver),
        Err(RevsetResolutionError::WorkspaceMissingWorkingCopy { name }) if name == "ws1"
    );

    // Add some workspaces
    mut_repo
        .set_wc_commit(ws1.clone(), commit1.id().clone())
        .unwrap();
    mut_repo
        .set_wc_commit(ws2.clone(), commit2.id().clone())
        .unwrap();
    let resolve = |ws_id: WorkspaceId| -> Vec<CommitId> {
        RevsetExpression::working_copy(ws_id)
            .evaluate_programmatic(mut_repo)
            .unwrap()
            .iter()
            .collect()
    };

    // Can resolve "@" shorthand with a default workspace ID
    assert_eq!(resolve(ws1), vec![commit1.id().clone()]);
    // Can resolve an explicit checkout
    assert_eq!(resolve(ws2), vec![commit2.id().clone()]);
}

#[test]
fn test_resolve_working_copies() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);

    // Add some workspaces
    let ws1 = WorkspaceId::new("ws1".to_string());
    let ws2 = WorkspaceId::new("ws2".to_string());

    // add one commit to each working copy
    mut_repo
        .set_wc_commit(ws1.clone(), commit1.id().clone())
        .unwrap();
    mut_repo
        .set_wc_commit(ws2.clone(), commit2.id().clone())
        .unwrap();
    let resolve = || -> Vec<CommitId> {
        RevsetExpression::working_copies()
            .evaluate_programmatic(mut_repo)
            .unwrap()
            .iter()
            .collect()
    };

    // ensure our output has those two commits
    assert_eq!(resolve(), vec![commit2.id().clone(), commit1.id().clone()]);
}

#[test]
fn test_resolve_symbol_branches() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;
    let new_remote_ref = |target| RemoteRef {
        target,
        state: RemoteRefState::New,
    };
    let tracking_remote_ref = |target| RemoteRef {
        target,
        state: RemoteRefState::Tracking,
    };
    let normal_tracking_remote_ref =
        |id: &CommitId| tracking_remote_ref(RefTarget::normal(id.clone()));

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);
    let commit3 = write_random_commit(mut_repo, &settings);
    let commit4 = write_random_commit(mut_repo, &settings);
    let commit5 = write_random_commit(mut_repo, &settings);

    mut_repo.set_local_branch_target("local", RefTarget::normal(commit1.id().clone()));
    mut_repo.set_remote_branch("remote", "origin", normal_tracking_remote_ref(commit2.id()));
    mut_repo.set_local_branch_target("local-remote", RefTarget::normal(commit3.id().clone()));
    mut_repo.set_remote_branch(
        "local-remote",
        "origin",
        normal_tracking_remote_ref(commit4.id()),
    );
    mut_repo.set_local_branch_target(
        "local-remote@origin", // not a remote branch
        RefTarget::normal(commit5.id().clone()),
    );
    mut_repo.set_remote_branch(
        "local-remote",
        "mirror",
        tracking_remote_ref(mut_repo.get_local_branch("local-remote")),
    );
    mut_repo.set_remote_branch(
        "local-remote",
        "untracked",
        new_remote_ref(mut_repo.get_local_branch("local-remote")),
    );
    mut_repo.set_remote_branch(
        "local-remote",
        git::REMOTE_NAME_FOR_LOCAL_GIT_REPO,
        tracking_remote_ref(mut_repo.get_local_branch("local-remote")),
    );

    mut_repo.set_local_branch_target(
        "local-conflicted",
        RefTarget::from_legacy_form(
            [commit1.id().clone()],
            [commit3.id().clone(), commit2.id().clone()],
        ),
    );
    mut_repo.set_remote_branch(
        "remote-conflicted",
        "origin",
        tracking_remote_ref(RefTarget::from_legacy_form(
            [commit3.id().clone()],
            [commit5.id().clone(), commit4.id().clone()],
        )),
    );

    // Local only
    assert_eq!(
        resolve_symbol(mut_repo, "local").unwrap(),
        vec![commit1.id().clone()],
    );
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "local@origin").unwrap_err(), @r###"
    NoSuchRevision {
        name: "local@origin",
        candidates: [
            "local",
            "local-remote@git",
            "local-remote@mirror",
            "local-remote@origin",
            "remote@origin",
        ],
    }
    "###);

    // Remote only (or locally deleted)
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "remote").unwrap_err(), @r###"
    NoSuchRevision {
        name: "remote",
        candidates: [
            "remote-conflicted@origin",
            "remote@origin",
        ],
    }
    "###);
    assert_eq!(
        resolve_symbol(mut_repo, "remote@origin").unwrap(),
        vec![commit2.id().clone()],
    );

    // Local/remote/git
    assert_eq!(
        resolve_symbol(mut_repo, "local-remote").unwrap(),
        vec![commit3.id().clone()],
    );
    assert_eq!(
        resolve_symbol(mut_repo, "local-remote@origin").unwrap(),
        vec![commit4.id().clone()],
    );
    assert_eq!(
        resolve_symbol(mut_repo, r#""local-remote@origin""#).unwrap(),
        vec![commit5.id().clone()],
    );
    assert_eq!(
        resolve_symbol(mut_repo, "local-remote@mirror").unwrap(),
        vec![commit3.id().clone()],
    );
    assert_eq!(
        resolve_symbol(mut_repo, "local-remote@git").unwrap(),
        vec![commit3.id().clone()],
    );

    // Conflicted
    assert_eq!(
        resolve_symbol(mut_repo, "local-conflicted").unwrap(),
        vec![commit3.id().clone(), commit2.id().clone()],
    );
    assert_eq!(
        resolve_symbol(mut_repo, "remote-conflicted@origin").unwrap(),
        vec![commit5.id().clone(), commit4.id().clone()],
    );

    // Typo of local/remote branch name:
    // For "local-emote" (without @remote part), "local-remote@mirror"/"@git" aren't
    // suggested since they point to the same target as "local-remote". OTOH,
    // "local-remote@untracked" is suggested because non-tracking branch is
    // unrelated to the local branch of the same name.
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "local-emote").unwrap_err(), @r###"
    NoSuchRevision {
        name: "local-emote",
        candidates: [
            "local",
            "local-conflicted",
            "local-remote",
            "local-remote@origin",
            "local-remote@untracked",
        ],
    }
    "###);
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "local-emote@origin").unwrap_err(), @r###"
    NoSuchRevision {
        name: "local-emote@origin",
        candidates: [
            "local",
            "local-remote",
            "local-remote@git",
            "local-remote@mirror",
            "local-remote@origin",
            "local-remote@untracked",
            "remote-conflicted@origin",
            "remote@origin",
        ],
    }
    "###);
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "local-remote@origine").unwrap_err(), @r###"
    NoSuchRevision {
        name: "local-remote@origine",
        candidates: [
            "local",
            "local-remote",
            "local-remote@git",
            "local-remote@mirror",
            "local-remote@origin",
            "local-remote@untracked",
            "remote-conflicted@origin",
            "remote@origin",
        ],
    }
    "###);
    // "local-remote@mirror" shouldn't be omitted just because it points to the same
    // target as "local-remote".
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "remote@mirror").unwrap_err(), @r###"
    NoSuchRevision {
        name: "remote@mirror",
        candidates: [
            "local-remote@mirror",
            "remote@origin",
        ],
    }
    "###);

    // Typo of remote-only branch name
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "emote").unwrap_err(), @r###"
    NoSuchRevision {
        name: "emote",
        candidates: [
            "remote-conflicted@origin",
            "remote@origin",
        ],
    }
    "###);
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "emote@origin").unwrap_err(), @r###"
    NoSuchRevision {
        name: "emote@origin",
        candidates: [
            "local-remote@origin",
            "remote@origin",
        ],
    }
    "###);
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "remote@origine").unwrap_err(), @r###"
    NoSuchRevision {
        name: "remote@origine",
        candidates: [
            "local-remote@origin",
            "remote-conflicted@origin",
            "remote@origin",
        ],
    }
    "###);
}

#[test]
fn test_resolve_symbol_tags() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);
    let commit3 = write_random_commit(mut_repo, &settings);

    mut_repo.set_tag_target("tag-branch", RefTarget::normal(commit1.id().clone()));
    mut_repo.set_local_branch_target("tag-branch", RefTarget::normal(commit2.id().clone()));
    mut_repo.set_git_ref_target(
        "refs/tags/unimported",
        RefTarget::normal(commit3.id().clone()),
    );

    // Tag precedes branch
    assert_eq!(
        resolve_symbol(mut_repo, "tag-branch").unwrap(),
        vec![commit1.id().clone()],
    );

    assert_matches!(
        resolve_symbol(mut_repo, "unimported"),
        Err(RevsetResolutionError::NoSuchRevision { .. })
    );

    // "@" (quoted) can be resolved, and root is a normal symbol.
    let ws_id = WorkspaceId::default();
    mut_repo
        .set_wc_commit(ws_id.clone(), commit1.id().clone())
        .unwrap();
    mut_repo.set_tag_target("@", RefTarget::normal(commit2.id().clone()));
    mut_repo.set_tag_target("root", RefTarget::normal(commit3.id().clone()));
    assert_eq!(
        resolve_symbol(mut_repo, r#""@""#).unwrap(),
        vec![commit2.id().clone()]
    );
    assert_eq!(
        resolve_symbol(mut_repo, "root").unwrap(),
        vec![commit3.id().clone()]
    );
}

#[test]
fn test_resolve_symbol_git_head() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);

    // Without HEAD@git
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "HEAD").unwrap_err(), @r###"
    NoSuchRevision {
        name: "HEAD",
        candidates: [],
    }
    "###);
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "HEAD@git").unwrap_err(), @r###"
    NoSuchRevision {
        name: "HEAD@git",
        candidates: [],
    }
    "###);

    // With HEAD@git
    mut_repo.set_git_head_target(RefTarget::normal(commit1.id().clone()));
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "HEAD").unwrap_err(), @r###"
    NoSuchRevision {
        name: "HEAD",
        candidates: [
            "HEAD@git",
        ],
    }
    "###);
    assert_eq!(
        resolve_symbol(mut_repo, "HEAD@git").unwrap(),
        vec![commit1.id().clone()],
    );
}

#[test]
fn test_resolve_symbol_git_refs() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    // Create some commits and refs to work with and so the repo is not empty
    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);
    let commit3 = write_random_commit(mut_repo, &settings);
    let commit4 = write_random_commit(mut_repo, &settings);
    let commit5 = write_random_commit(mut_repo, &settings);
    mut_repo.set_git_ref_target(
        "refs/heads/branch1",
        RefTarget::normal(commit1.id().clone()),
    );
    mut_repo.set_git_ref_target(
        "refs/heads/branch2",
        RefTarget::normal(commit2.id().clone()),
    );
    mut_repo.set_git_ref_target(
        "refs/heads/conflicted",
        RefTarget::from_legacy_form(
            [commit2.id().clone()],
            [commit1.id().clone(), commit3.id().clone()],
        ),
    );
    mut_repo.set_git_ref_target("refs/tags/tag1", RefTarget::normal(commit2.id().clone()));
    mut_repo.set_git_ref_target(
        "refs/tags/remotes/origin/branch1",
        RefTarget::normal(commit3.id().clone()),
    );

    // Nonexistent ref
    assert_matches!(
        resolve_symbol(mut_repo, "nonexistent"),
        Err(RevsetResolutionError::NoSuchRevision{name, candidates})
            if name == "nonexistent" && candidates.is_empty()
    );

    // Full ref
    mut_repo.set_git_ref_target("refs/heads/branch", RefTarget::normal(commit4.id().clone()));
    assert_eq!(
        resolve_symbol(mut_repo, "refs/heads/branch").unwrap(),
        vec![commit4.id().clone()]
    );

    // Qualified with only heads/
    mut_repo.set_git_ref_target("refs/heads/branch", RefTarget::normal(commit5.id().clone()));
    mut_repo.set_git_ref_target("refs/tags/branch", RefTarget::normal(commit4.id().clone()));
    // branch alone is not recognized
    insta::assert_debug_snapshot!(
        resolve_symbol(mut_repo, "branch").unwrap_err(), @r###"
    NoSuchRevision {
        name: "branch",
        candidates: [],
    }
    "###);
    // heads/branch does get resolved to the git ref refs/heads/branch
    assert_eq!(
        resolve_symbol(mut_repo, "heads/branch").unwrap(),
        vec![commit5.id().clone()]
    );

    // Unqualified tag name
    mut_repo.set_git_ref_target("refs/tags/tag", RefTarget::normal(commit4.id().clone()));
    assert_matches!(
        resolve_symbol(mut_repo, "tag"),
        Err(RevsetResolutionError::NoSuchRevision { .. })
    );

    // Unqualified remote-tracking branch name
    mut_repo.set_git_ref_target(
        "refs/remotes/origin/remote-branch",
        RefTarget::normal(commit2.id().clone()),
    );
    assert_matches!(
        resolve_symbol(mut_repo, "origin/remote-branch"),
        Err(RevsetResolutionError::NoSuchRevision { .. })
    );

    // Conflicted ref resolves to its "adds"
    assert_eq!(
        resolve_symbol(mut_repo, "refs/heads/conflicted").unwrap(),
        vec![commit1.id().clone(), commit3.id().clone()]
    );
}

fn resolve_commit_ids(repo: &dyn Repo, revset_str: &str) -> Vec<CommitId> {
    let settings = testutils::user_settings();
    let aliases_map = RevsetAliasesMap::default();
    let revset_extensions = RevsetExtensions::default();
    let context = RevsetParseContext::new(
        &aliases_map,
        settings.user_email(),
        &revset_extensions,
        None,
    );
    let expression = optimize(parse(revset_str, &context).unwrap());
    let symbol_resolver = DefaultSymbolResolver::new(repo, revset_extensions.symbol_resolvers());
    let expression = expression
        .resolve_user_expression(repo, &symbol_resolver)
        .unwrap();
    expression.evaluate(repo).unwrap().iter().collect()
}

fn resolve_commit_ids_in_workspace(
    repo: &dyn Repo,
    revset_str: &str,
    workspace: &Workspace,
    cwd: Option<&Path>,
) -> Vec<CommitId> {
    let settings = testutils::user_settings();
    let path_converter = RepoPathUiConverter::Fs {
        cwd: cwd.unwrap_or_else(|| workspace.workspace_root()).to_owned(),
        base: workspace.workspace_root().to_owned(),
    };
    let workspace_ctx = RevsetWorkspaceContext {
        path_converter: &path_converter,
        workspace_id: workspace.workspace_id(),
    };
    let aliases_map = RevsetAliasesMap::default();
    let extensions = RevsetExtensions::default();
    let context = RevsetParseContext::new(
        &aliases_map,
        settings.user_email(),
        &extensions,
        Some(workspace_ctx),
    );
    let expression = optimize(parse(revset_str, &context).unwrap());
    let symbol_resolver =
        DefaultSymbolResolver::new(repo, &([] as [&Box<dyn SymbolResolverExtension>; 0]));
    let expression = expression
        .resolve_user_expression(repo, &symbol_resolver)
        .unwrap();
    expression.evaluate(repo).unwrap().iter().collect()
}

#[test]
fn test_evaluate_expression_root_and_checkout() {
    let settings = testutils::user_settings();
    let test_workspace = TestWorkspace::init(&settings);
    let repo = &test_workspace.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let root_commit = repo.store().root_commit();
    let commit1 = write_random_commit(mut_repo, &settings);

    // Can find the root commit
    assert_eq!(
        resolve_commit_ids(mut_repo, "root()"),
        vec![root_commit.id().clone()]
    );

    // Can find the current working-copy commit
    mut_repo
        .set_wc_commit(WorkspaceId::default(), commit1.id().clone())
        .unwrap();
    assert_eq!(
        resolve_commit_ids_in_workspace(mut_repo, "@", &test_workspace.workspace, None),
        vec![commit1.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_heads() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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]);

    // Heads of an empty set is an empty set
    assert_eq!(resolve_commit_ids(mut_repo, "heads(none())"), vec![]);

    // Heads of the root is the root
    assert_eq!(
        resolve_commit_ids(mut_repo, "heads(root())"),
        vec![root_commit.id().clone()]
    );

    // Heads of a single commit is that commit
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("heads({})", commit2.id().hex())),
        vec![commit2.id().clone()]
    );

    // Heads of a parent and a child is the child
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("heads({} | {})", commit2.id().hex(), commit3.id().hex())
        ),
        vec![commit3.id().clone()]
    );

    // Heads of a grandparent and a grandchild is the grandchild (unlike Mercurial's
    // heads() revset, which would include both)
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("heads({} | {})", commit1.id().hex(), commit3.id().hex())
        ),
        vec![commit3.id().clone()]
    );

    // Heads should be sorted in reverse index position order
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("heads({} | {})", commit3.id().hex(), commit4.id().hex())
        ),
        vec![commit4.id().clone(), commit3.id().clone()]
    );

    // Heads of all commits is the set of visible heads in the repo
    assert_eq!(
        resolve_commit_ids(mut_repo, "heads(all())"),
        resolve_commit_ids(mut_repo, "visible_heads()")
    );
}

#[test]
fn test_evaluate_expression_roots() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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]);

    // Roots of an empty set is an empty set
    assert_eq!(resolve_commit_ids(mut_repo, "roots(none())"), vec![]);

    // Roots of the root is the root
    assert_eq!(
        resolve_commit_ids(mut_repo, "roots(root())"),
        vec![root_commit.id().clone()]
    );

    // Roots of a single commit is that commit
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("roots({})", commit2.id().hex())),
        vec![commit2.id().clone()]
    );

    // Roots of a parent and a child is the parent
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("roots({} | {})", commit2.id().hex(), commit3.id().hex())
        ),
        vec![commit2.id().clone()]
    );

    // Roots of a grandparent and a grandchild is the grandparent (unlike
    // Mercurial's roots() revset, which would include both)
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("roots({} | {})", commit1.id().hex(), commit3.id().hex())
        ),
        vec![commit1.id().clone()]
    );

    // Roots of all commits is the root commit
    assert_eq!(
        resolve_commit_ids(mut_repo, "roots(all())"),
        vec![root_commit.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_parents() {
    let settings = testutils::user_settings();
    let test_workspace = TestWorkspace::init(&settings);
    let repo = &test_workspace.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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, "root()-"), vec![]);

    // Can find parents of the current working-copy commit
    mut_repo
        .set_wc_commit(WorkspaceId::default(), commit2.id().clone())
        .unwrap();
    assert_eq!(
        resolve_commit_ids_in_workspace(mut_repo, "@-", &test_workspace.workspace, None,),
        vec![commit1.id().clone()]
    );

    // Can find parents of a merge commit
    assert_eq!(
        resolve_commit_ids(mut_repo, &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,
            &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,
            &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,
            &format!("({} | {})-", commit4.id().hex(), commit5.id().hex())
        ),
        vec![commit3.id().clone(), commit2.id().clone()]
    );

    // Can find parents of parents, which may be optimized to single query
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("{}--", commit4.id().hex())),
        vec![commit1.id().clone(), root_commit.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("({} | {})--", commit4.id().hex(), commit5.id().hex())
        ),
        vec![commit1.id().clone(), root_commit.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("({} | {})--", commit4.id().hex(), commit2.id().hex())
        ),
        vec![commit1.id().clone(), root_commit.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_children() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .write()
        .unwrap();
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .write()
        .unwrap();
    let commit4 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .write()
        .unwrap();
    let commit5 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit3.id().clone(), commit4.id().clone()])
        .write()
        .unwrap();
    let commit6 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit5.id().clone()])
        .write()
        .unwrap();

    // Can find children of the root commit
    assert_eq!(
        resolve_commit_ids(mut_repo, "root()+"),
        vec![commit1.id().clone()]
    );

    // Children of all commits in input are returned, including those already in the
    // input set
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("({} | {})+", commit1.id().hex(), commit2.id().hex())
        ),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone()
        ]
    );

    // Children shared among commits in input are not repeated
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("({} | {})+", commit3.id().hex(), commit4.id().hex())
        ),
        vec![commit5.id().clone()]
    );

    // Can find children of children, which may be optimized to single query
    assert_eq!(
        resolve_commit_ids(mut_repo, "root()++"),
        vec![commit4.id().clone(), commit2.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("(root() | {})++", commit1.id().hex())),
        vec![
            commit5.id().clone(),
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
        ]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("({} | {})++", commit4.id().hex(), commit2.id().hex())
        ),
        vec![commit6.id().clone(), commit5.id().clone()]
    );

    // Empty root
    assert_eq!(resolve_commit_ids(mut_repo, "none()+"), vec![]);
}

#[test]
fn test_evaluate_expression_ancestors() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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, "::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, &format!("::{}", commit4.id().hex())),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit.id().clone(),
        ]
    );

    // Can find ancestors of parents or parents of ancestors, which may be optimized
    // to single query
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("::({}-)", commit4.id().hex()),),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit.id().clone(),
        ]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("(::({}|{}))-", commit3.id().hex(), commit2.id().hex()),
        ),
        vec![
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit.id().clone(),
        ]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("::(({}|{})-)", commit3.id().hex(), commit2.id().hex()),
        ),
        vec![
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit.id().clone(),
        ]
    );

    // Can find last n ancestors of a commit
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("ancestors({}, 0)", commit2.id().hex())),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("ancestors({}, 1)", commit3.id().hex())),
        vec![commit3.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("ancestors({}, 3)", commit3.id().hex())),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
        ]
    );
}

#[test]
fn test_evaluate_expression_range() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    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, "root()..root()"), vec![]);

    // Linear range
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &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,
            &format!("{}..{}", commit3.id().hex(), commit1.id().hex())
        ),
        vec![]
    );

    // Range including a merge
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("{}..{}", commit1.id().hex(), commit4.id().hex())
        ),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone()
        ]
    );

    // Range including merge ancestors: commit4-- == root | commit2
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("{}--..{}", commit4.id().hex(), commit3.id().hex())
        ),
        vec![commit3.id().clone()]
    );

    // Sibling commits
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("{}..{}", commit2.id().hex(), commit3.id().hex())
        ),
        vec![commit3.id().clone()]
    );

    // Left operand defaults to root()
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("..{}", commit2.id().hex())),
        vec![commit2.id().clone(), commit1.id().clone()]
    );

    // Right operand defaults to visible_heads()
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("{}..", commit2.id().hex())),
        vec![commit4.id().clone(), commit3.id().clone()]
    );

    assert_eq!(
        resolve_commit_ids(mut_repo, ".."),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
        ]
    );
}

#[test]
fn test_evaluate_expression_dag_range() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit_id = repo.store().root_commit_id().clone();
    let mut tx = repo.start_transaction(&settings);
    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, "root()::root()"),
        vec![root_commit_id.clone()]
    );

    // Linear range
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &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,
            &format!("{}::{}", commit2.id().hex(), commit4.id().hex())
        ),
        vec![]
    );

    // Empty root
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("none()::{}", commit5.id().hex())),
        vec![],
    );

    // Multiple root, commit1 shouldn't be hidden by commit2
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!(
                "({}|{})::{}",
                commit1.id().hex(),
                commit2.id().hex(),
                commit3.id().hex()
            )
        ),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone()
        ]
    );

    // Including a merge
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &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 ancestors only from one side
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("{}::{}", commit2.id().hex(), commit5.id().hex())
        ),
        vec![
            commit5.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
        ]
    );

    // Full range meaning all()
    assert_eq!(
        resolve_commit_ids(mut_repo, "::"),
        vec![
            commit5.id().clone(),
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit_id.clone(),
        ]
    );
}

#[test]
fn test_evaluate_expression_connected() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit_id = repo.store().root_commit_id().clone();
    let mut tx = repo.start_transaction(&settings);
    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]);

    // Connecting an empty set yields an empty set
    assert_eq!(resolve_commit_ids(mut_repo, "connected(none())"), vec![]);

    // Can connect just the root commit
    assert_eq!(
        resolve_commit_ids(mut_repo, "connected(root())"),
        vec![root_commit_id.clone()]
    );

    // Can connect linearly
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!(
                "connected({} | {})",
                root_commit_id.hex(),
                commit2.id().hex()
            )
        ),
        vec![commit2.id().clone(), commit1.id().clone(), root_commit_id]
    );

    // Siblings don't get connected
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("connected({} | {})", commit2.id().hex(), commit4.id().hex())
        ),
        vec![commit4.id().clone(), commit2.id().clone()]
    );

    // Including a merge
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("connected({} | {})", 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 ancestors only from one side
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("connected({} | {})", commit2.id().hex(), commit5.id().hex())
        ),
        vec![
            commit5.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
        ]
    );
}

#[test]
fn test_evaluate_expression_reachable() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    // Construct 3 separate subgraphs off the root commit.
    // 1 is a chain, 2 is a merge, 3 is a pyramidal monstrosity
    let graph1commit1 = write_random_commit(mut_repo, &settings);
    let graph1commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph1commit1.id().clone()])
        .write()
        .unwrap();
    let graph1commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph1commit2.id().clone()])
        .write()
        .unwrap();
    let graph2commit1 = write_random_commit(mut_repo, &settings);
    let graph2commit2 = write_random_commit(mut_repo, &settings);
    let graph2commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph2commit1.id().clone(), graph2commit2.id().clone()])
        .write()
        .unwrap();
    let graph3commit1 = write_random_commit(mut_repo, &settings);
    let graph3commit2 = write_random_commit(mut_repo, &settings);
    let graph3commit3 = write_random_commit(mut_repo, &settings);
    let graph3commit4 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph3commit1.id().clone(), graph3commit2.id().clone()])
        .write()
        .unwrap();
    let graph3commit5 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph3commit2.id().clone(), graph3commit3.id().clone()])
        .write()
        .unwrap();
    let graph3commit6 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph3commit3.id().clone()])
        .write()
        .unwrap();
    let graph3commit7 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![graph3commit4.id().clone(), graph3commit5.id().clone()])
        .write()
        .unwrap();

    // Domain is respected.
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!(
                "reachable({}, all() ~ ::{})",
                graph1commit2.id().hex(),
                graph1commit1.id().hex()
            )
        ),
        vec![graph1commit3.id().clone(), graph1commit2.id().clone(),]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!(
                "reachable({}, all() ~ ::{})",
                graph1commit2.id().hex(),
                graph1commit3.id().hex()
            )
        ),
        vec![]
    );

    // Each graph is identifiable from any node in it.
    for (i, commit) in [&graph1commit1, &graph1commit2, &graph1commit3]
        .iter()
        .enumerate()
    {
        assert_eq!(
            resolve_commit_ids(
                mut_repo,
                &format!("reachable({}, all() ~ root())", commit.id().hex())
            ),
            vec![
                graph1commit3.id().clone(),
                graph1commit2.id().clone(),
                graph1commit1.id().clone(),
            ],
            "commit {}",
            i + 1
        );
    }

    for (i, commit) in [&graph2commit1, &graph2commit2, &graph2commit3]
        .iter()
        .enumerate()
    {
        assert_eq!(
            resolve_commit_ids(
                mut_repo,
                &format!("reachable({}, all() ~ root())", commit.id().hex())
            ),
            vec![
                graph2commit3.id().clone(),
                graph2commit2.id().clone(),
                graph2commit1.id().clone(),
            ],
            "commit {}",
            i + 1
        );
    }

    for (i, commit) in [
        &graph3commit1,
        &graph3commit2,
        &graph3commit3,
        &graph3commit4,
        &graph3commit5,
        &graph3commit6,
        &graph3commit7,
    ]
    .iter()
    .enumerate()
    {
        assert_eq!(
            resolve_commit_ids(
                mut_repo,
                &format!("reachable({}, all() ~ root())", commit.id().hex())
            ),
            vec![
                graph3commit7.id().clone(),
                graph3commit6.id().clone(),
                graph3commit5.id().clone(),
                graph3commit4.id().clone(),
                graph3commit3.id().clone(),
                graph3commit2.id().clone(),
                graph3commit1.id().clone(),
            ],
            "commit {}",
            i + 1
        );
    }

    // Test a split of the pyramidal monstrosity.
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!(
                "reachable({}, all() ~ ::{})",
                graph3commit4.id().hex(),
                graph3commit5.id().hex()
            )
        ),
        vec![
            graph3commit7.id().clone(),
            graph3commit4.id().clone(),
            graph3commit1.id().clone(),
        ]
    );
}

#[test]
fn test_evaluate_expression_descendants() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let root_commit_id = repo.store().root_commit_id().clone();
    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .write()
        .unwrap();
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .write()
        .unwrap();
    let commit4 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .write()
        .unwrap();
    let commit5 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit3.id().clone(), commit4.id().clone()])
        .write()
        .unwrap();
    let commit6 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit5.id().clone()])
        .write()
        .unwrap();

    // The descendants of the root commit are all the commits in the repo
    assert_eq!(
        resolve_commit_ids(mut_repo, "root()::"),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit_id,
        ]
    );

    // Can find descendants of a specific commit
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("{}::", commit2.id().hex())),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
        ]
    );

    // Can find descendants of children or children of descendants, which may be
    // optimized to single query
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("({}+)::", commit1.id().hex())),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
        ]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("({}++)::", commit1.id().hex())),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit3.id().clone(),
        ]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("(({}|{})::)+", commit4.id().hex(), commit2.id().hex()),
        ),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit3.id().clone(),
        ]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("(({}|{})+)::", commit4.id().hex(), commit2.id().hex()),
        ),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit3.id().clone(),
        ]
    );

    // Can find next n descendants of a commit
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("descendants({}, 0)", commit2.id().hex())),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("descendants({}, 1)", commit3.id().hex())),
        vec![commit3.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("descendants({}, 3)", commit3.id().hex())),
        vec![
            commit6.id().clone(),
            commit5.id().clone(),
            commit3.id().clone(),
        ]
    );
}

#[test]
fn test_evaluate_expression_none() {
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    // none() is empty (doesn't include the checkout, for example)
    assert_eq!(resolve_commit_ids(repo.as_ref(), "none()"), vec![]);
}

#[test]
fn test_evaluate_expression_all() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();
    let root_commit_id = repo.store().root_commit_id().clone();
    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(&[&commit1]);
    let commit4 = graph_builder.commit_with_parents(&[&commit2, &commit3]);

    assert_eq!(
        resolve_commit_ids(mut_repo, "all()"),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
            root_commit_id,
        ]
    );
}

#[test]
fn test_evaluate_expression_visible_heads() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    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(&[&commit1]);

    assert_eq!(
        resolve_commit_ids(mut_repo, "visible_heads()"),
        vec![commit3.id().clone(), commit2.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_git_refs() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);
    let commit3 = write_random_commit(mut_repo, &settings);
    let commit4 = write_random_commit(mut_repo, &settings);

    // Can get git refs when there are none
    assert_eq!(resolve_commit_ids(mut_repo, "git_refs()"), vec![]);
    // Can get a mix of git refs
    mut_repo.set_git_ref_target(
        "refs/heads/branch1",
        RefTarget::normal(commit1.id().clone()),
    );
    mut_repo.set_git_ref_target("refs/tags/tag1", RefTarget::normal(commit2.id().clone()));
    assert_eq!(
        resolve_commit_ids(mut_repo, "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_target("refs/tags/tag2", RefTarget::normal(commit2.id().clone()));
    assert_eq!(
        resolve_commit_ids(mut_repo, "git_refs()"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // Can get git refs when there are conflicted refs
    mut_repo.set_git_ref_target(
        "refs/heads/branch1",
        RefTarget::from_legacy_form(
            [commit1.id().clone()],
            [commit2.id().clone(), commit3.id().clone()],
        ),
    );
    mut_repo.set_git_ref_target(
        "refs/tags/tag1",
        RefTarget::from_legacy_form(
            [commit2.id().clone()],
            [commit3.id().clone(), commit4.id().clone()],
        ),
    );
    mut_repo.set_git_ref_target("refs/tags/tag2", RefTarget::absent());
    assert_eq!(
        resolve_commit_ids(mut_repo, "git_refs()"),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone()
        ]
    );
}

#[test]
fn test_evaluate_expression_git_head() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);

    // Can get git head when it's not set
    assert_eq!(resolve_commit_ids(mut_repo, "git_head()"), vec![]);
    mut_repo.set_git_head_target(RefTarget::normal(commit1.id().clone()));
    assert_eq!(
        resolve_commit_ids(mut_repo, "git_head()"),
        vec![commit1.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_branches() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);
    let commit3 = write_random_commit(mut_repo, &settings);
    let commit4 = write_random_commit(mut_repo, &settings);

    // Can get branches when there are none
    assert_eq!(resolve_commit_ids(mut_repo, "branches()"), vec![]);
    // Can get a few branches
    mut_repo.set_local_branch_target("branch1", RefTarget::normal(commit1.id().clone()));
    mut_repo.set_local_branch_target("branch2", RefTarget::normal(commit2.id().clone()));
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches()"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // Can get branches with matching names
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches(branch1)"),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches(branch)"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches(exact:branch1)"),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"branches(glob:"Branch?")"#),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"branches(glob-i:"Branch?")"#),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // Can silently resolve to an empty set if there's no matches
    assert_eq!(resolve_commit_ids(mut_repo, "branches(branch3)"), vec![]);
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches(exact:ranch1)"),
        vec![]
    );
    // Two branches pointing to the same commit does not result in a duplicate in
    // the revset
    mut_repo.set_local_branch_target("branch3", RefTarget::normal(commit2.id().clone()));
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches()"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // Can get branches when there are conflicted refs
    mut_repo.set_local_branch_target(
        "branch1",
        RefTarget::from_legacy_form(
            [commit1.id().clone()],
            [commit2.id().clone(), commit3.id().clone()],
        ),
    );
    mut_repo.set_local_branch_target(
        "branch2",
        RefTarget::from_legacy_form(
            [commit2.id().clone()],
            [commit3.id().clone(), commit4.id().clone()],
        ),
    );
    mut_repo.set_local_branch_target("branch3", RefTarget::absent());
    assert_eq!(
        resolve_commit_ids(mut_repo, "branches()"),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone()
        ]
    );
}

#[test]
fn test_evaluate_expression_remote_branches() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;
    let tracking_remote_ref = |target| RemoteRef {
        target,
        state: RemoteRefState::Tracking,
    };
    let normal_tracking_remote_ref =
        |id: &CommitId| tracking_remote_ref(RefTarget::normal(id.clone()));

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = write_random_commit(mut_repo, &settings);
    let commit2 = write_random_commit(mut_repo, &settings);
    let commit3 = write_random_commit(mut_repo, &settings);
    let commit4 = write_random_commit(mut_repo, &settings);
    let commit_git_remote = write_random_commit(mut_repo, &settings);

    // Can get branches when there are none
    assert_eq!(resolve_commit_ids(mut_repo, "remote_branches()"), vec![]);
    // Branch 1 is untracked on remote origin
    mut_repo.set_remote_branch(
        "branch1",
        "origin",
        RemoteRef {
            target: RefTarget::normal(commit1.id().clone()),
            state: RemoteRefState::New,
        },
    );
    // Branch 2 is tracked on remote private
    mut_repo.set_remote_branch(
        "branch2",
        "private",
        normal_tracking_remote_ref(commit2.id()),
    );
    // Git-tracking branches aren't included
    mut_repo.set_remote_branch(
        "branch",
        git::REMOTE_NAME_FOR_LOCAL_GIT_REPO,
        normal_tracking_remote_ref(commit_git_remote.id()),
    );
    // Can get a few branches
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches()"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // Can get branches with matching names
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches(branch1)"),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches(branch)"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches(exact:branch1)"),
        vec![commit1.id().clone()]
    );
    // Can get branches from matching remotes
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches("", origin)"#),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches("", ri)"#),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches("", exact:origin)"#),
        vec![commit1.id().clone()]
    );
    // Can get branches with matching names from matching remotes
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches(branch1, ri)"),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches(branch, private)"#),
        vec![commit2.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches(exact:branch1, exact:origin)"#),
        vec![commit1.id().clone()]
    );
    // Can filter branches by tracked and untracked
    assert_eq!(
        resolve_commit_ids(mut_repo, "tracked_remote_branches()"),
        vec![commit2.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "untracked_remote_branches()"),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "untracked_remote_branches(branch1, origin)"),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "tracked_remote_branches(branch2, private)"),
        vec![commit2.id().clone()]
    );
    // Can silently resolve to an empty set if there's no matches
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches(branch3)"),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches("", upstream)"#),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches(branch1, private)"#),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches(exact:ranch1, exact:origin)"#),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, r#"remote_branches(exact:branch1, exact:orig)"#),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "tracked_remote_branches(branch1)"),
        vec![]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "untracked_remote_branches(branch2)"),
        vec![]
    );
    // Two branches pointing to the same commit does not result in a duplicate in
    // the revset
    mut_repo.set_remote_branch(
        "branch3",
        "origin",
        normal_tracking_remote_ref(commit2.id()),
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches()"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // The commits don't have to be in the current set of heads to be included.
    mut_repo.remove_head(commit2.id());
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches()"),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    // Can get branches when there are conflicted refs
    mut_repo.set_remote_branch(
        "branch1",
        "origin",
        tracking_remote_ref(RefTarget::from_legacy_form(
            [commit1.id().clone()],
            [commit2.id().clone(), commit3.id().clone()],
        )),
    );
    mut_repo.set_remote_branch(
        "branch2",
        "private",
        tracking_remote_ref(RefTarget::from_legacy_form(
            [commit2.id().clone()],
            [commit3.id().clone(), commit4.id().clone()],
        )),
    );
    mut_repo.set_remote_branch("branch3", "origin", RemoteRef::absent());
    assert_eq!(
        resolve_commit_ids(mut_repo, "remote_branches()"),
        vec![
            commit4.id().clone(),
            commit3.id().clone(),
            commit2.id().clone()
        ]
    );
}

#[test]
fn test_evaluate_expression_latest() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let mut write_commit_with_committer_timestamp = |sec: i64| {
        let builder = create_random_commit(mut_repo, &settings);
        let mut committer = builder.committer().clone();
        committer.timestamp.timestamp = MillisSinceEpoch(sec * 1000);
        builder.set_committer(committer).write().unwrap()
    };
    let commit1_t3 = write_commit_with_committer_timestamp(3);
    let commit2_t2 = write_commit_with_committer_timestamp(2);
    let commit3_t2 = write_commit_with_committer_timestamp(2);
    let commit4_t1 = write_commit_with_committer_timestamp(1);

    // Pick the latest entry by default (count = 1)
    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(all())"),
        vec![commit1_t3.id().clone()],
    );

    // Should not panic with count = 0 or empty set
    assert_eq!(resolve_commit_ids(mut_repo, "latest(all(), 0)"), vec![]);
    assert_eq!(resolve_commit_ids(mut_repo, "latest(none())"), vec![]);

    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(all(), 1)"),
        vec![commit1_t3.id().clone()],
    );

    // Tie-breaking: pick the later entry in position
    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(all(), 2)"),
        vec![commit3_t2.id().clone(), commit1_t3.id().clone()],
    );

    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(all(), 3)"),
        vec![
            commit3_t2.id().clone(),
            commit2_t2.id().clone(),
            commit1_t3.id().clone(),
        ],
    );

    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(all(), 4)"),
        vec![
            commit4_t1.id().clone(),
            commit3_t2.id().clone(),
            commit2_t2.id().clone(),
            commit1_t3.id().clone(),
        ],
    );

    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(all(), 5)"),
        vec![
            commit4_t1.id().clone(),
            commit3_t2.id().clone(),
            commit2_t2.id().clone(),
            commit1_t3.id().clone(),
            mut_repo.store().root_commit_id().clone(),
        ],
    );

    // Should not panic if count is larger than the candidates size
    assert_eq!(
        resolve_commit_ids(mut_repo, "latest(~root(), 5)"),
        vec![
            commit4_t1.id().clone(),
            commit3_t2.id().clone(),
            commit2_t2.id().clone(),
            commit1_t3.id().clone(),
        ],
    );
}

#[test]
fn test_evaluate_expression_merges() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    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, "merges()"),
        vec![commit5.id().clone(), commit4.id().clone(),]
    );
    // Searches only among candidates if specified
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("::{} & merges()", commit5.id().hex())),
        vec![commit5.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_description() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let commit1 = create_random_commit(mut_repo, &settings)
        .set_description("commit 1")
        .write()
        .unwrap();
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .set_description("commit 2")
        .write()
        .unwrap();
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .set_description("commit 3")
        .write()
        .unwrap();

    // Can find multiple matches
    assert_eq!(
        resolve_commit_ids(mut_repo, "description(commit)"),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone()
        ]
    );
    // Can find a unique match
    assert_eq!(
        resolve_commit_ids(mut_repo, "description(\"commit 2\")"),
        vec![commit2.id().clone()]
    );
    // Searches only among candidates if specified
    assert_eq!(
        resolve_commit_ids(mut_repo, "visible_heads() & description(\"commit 2\")"),
        vec![]
    );
}

#[test]
fn test_evaluate_expression_author() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let timestamp = Timestamp {
        timestamp: MillisSinceEpoch(0),
        tz_offset: 0,
    };
    let commit1 = create_random_commit(mut_repo, &settings)
        .set_author(Signature {
            name: "name1".to_string(),
            email: "email1".to_string(),
            timestamp: timestamp.clone(),
        })
        .write()
        .unwrap();
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .set_author(Signature {
            name: "name2".to_string(),
            email: "email2".to_string(),
            timestamp: timestamp.clone(),
        })
        .write()
        .unwrap();
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .set_author(Signature {
            name: "name3".to_string(),
            email: "email3".to_string(),
            timestamp,
        })
        .write()
        .unwrap();

    // Can find multiple matches
    assert_eq!(
        resolve_commit_ids(mut_repo, "author(name)"),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone()
        ]
    );
    // Can find a unique match by either name or email
    assert_eq!(
        resolve_commit_ids(mut_repo, "author(\"name2\")"),
        vec![commit2.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "author(\"email3\")"),
        vec![commit3.id().clone()]
    );
    // Can match case‐insensitively
    assert_eq!(
        resolve_commit_ids(mut_repo, "author(substring-i:Name)"),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
        ]
    );
    // Searches only among candidates if specified
    assert_eq!(
        resolve_commit_ids(mut_repo, "visible_heads() & author(\"name2\")"),
        vec![]
    );
    // Filter by union of pure predicate and set
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("root().. & (author(name1) | {})", commit3.id().hex())
        ),
        vec![commit3.id().clone(), commit1.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_mine() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let timestamp = Timestamp {
        timestamp: MillisSinceEpoch(0),
        tz_offset: 0,
    };
    let commit1 = create_random_commit(mut_repo, &settings)
        .set_author(Signature {
            name: "name1".to_string(),
            email: "email1".to_string(),
            timestamp: timestamp.clone(),
        })
        .write()
        .unwrap();
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .set_author(Signature {
            name: "name2".to_string(),
            email: settings.user_email(),
            timestamp: timestamp.clone(),
        })
        .write()
        .unwrap();
    // Can find a unique match
    assert_eq!(
        resolve_commit_ids(mut_repo, "mine()"),
        vec![commit2.id().clone()]
    );
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .set_author(Signature {
            name: "name3".to_string(),
            // Test that matches are case‐insensitive
            email: settings.user_email().to_ascii_uppercase(),
            timestamp,
        })
        .write()
        .unwrap();
    // Can find multiple matches
    assert_eq!(
        resolve_commit_ids(mut_repo, "mine()"),
        vec![commit3.id().clone(), commit2.id().clone()]
    );
    // Searches only among candidates if specified
    assert_eq!(
        resolve_commit_ids(mut_repo, "visible_heads() & mine()"),
        vec![commit3.id().clone()],
    );
    // Filter by union of pure predicate and set
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("root().. & (mine() | {})", commit1.id().hex())
        ),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone()
        ]
    );
}

#[test]
fn test_evaluate_expression_committer() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let timestamp = Timestamp {
        timestamp: MillisSinceEpoch(0),
        tz_offset: 0,
    };
    let commit1 = create_random_commit(mut_repo, &settings)
        .set_committer(Signature {
            name: "name1".to_string(),
            email: "email1".to_string(),
            timestamp: timestamp.clone(),
        })
        .write()
        .unwrap();
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .set_committer(Signature {
            name: "name2".to_string(),
            email: "email2".to_string(),
            timestamp: timestamp.clone(),
        })
        .write()
        .unwrap();
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .set_committer(Signature {
            name: "name3".to_string(),
            email: "email3".to_string(),
            timestamp,
        })
        .write()
        .unwrap();

    // Can find multiple matches
    assert_eq!(
        resolve_commit_ids(mut_repo, "committer(name)"),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone()
        ]
    );
    // Can find a unique match by either name or email
    assert_eq!(
        resolve_commit_ids(mut_repo, "committer(\"name2\")"),
        vec![commit2.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "committer(\"email3\")"),
        vec![commit3.id().clone()]
    );
    // Can match case‐insensitively
    assert_eq!(
        resolve_commit_ids(mut_repo, "committer(substring-i:Name)"),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone(),
        ]
    );
    // Searches only among candidates if specified
    assert_eq!(
        resolve_commit_ids(mut_repo, "visible_heads() & committer(\"name2\")"),
        vec![]
    );
}

#[test]
fn test_evaluate_expression_union() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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,
            &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,
            &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,
            &format!(
                "(::{} ~ ::{}) | {}",
                commit4.id().hex(),
                commit2.id().hex(),
                commit5.id().hex(),
            )
        ),
        vec![
            commit5.id().clone(),
            commit4.id().clone(),
            commit3.id().clone()
        ]
    );
}

#[test]
fn test_evaluate_expression_machine_generated_union() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    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]);

    // This query shouldn't trigger stack overflow. Here we use "x::y" in case
    // we had optimization path for trivial "commit_id|.." expression.
    let revset_str = iter::repeat(format!("({}::{})", commit1.id().hex(), commit2.id().hex()))
        .take(5000)
        .join("|");
    assert_eq!(
        resolve_commit_ids(mut_repo, &revset_str),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_intersection() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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,
            &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,
            &format!("{} & {}", commit4.id().hex(), commit2.id().hex())
        ),
        vec![]
    );
}

#[test]
fn test_evaluate_expression_difference() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let root_commit = repo.store().root_commit();
    let mut tx = repo.start_transaction(&settings);
    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 from all
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("~::{}", commit5.id().hex())),
        vec![commit4.id().clone(), commit3.id().clone()]
    );

    // Difference between ancestors
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("::{} ~ ::{}", commit4.id().hex(), commit5.id().hex())
        ),
        vec![commit4.id().clone(), commit3.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("::{} ~ ::{}", commit5.id().hex(), commit4.id().hex())
        ),
        vec![commit5.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("~::{} & ::{}", commit4.id().hex(), commit5.id().hex())
        ),
        vec![commit5.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!("::{} ~ ::{}", commit4.id().hex(), commit2.id().hex())
        ),
        vec![commit4.id().clone(), commit3.id().clone()]
    );

    // Associativity
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &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,
            &format!(
                "(::{} ~ ::{}) ~ (::{} ~ ::{})",
                commit4.id().hex(),
                commit1.id().hex(),
                commit3.id().hex(),
                commit1.id().hex(),
            )
        ),
        vec![commit4.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_filter_combinator() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let root_commit_id = repo.store().root_commit_id();
    let commit1 = create_random_commit(mut_repo, &settings)
        .set_description("commit 1")
        .write()
        .unwrap();
    let commit2 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit1.id().clone()])
        .set_description("commit 2")
        .write()
        .unwrap();
    let commit3 = create_random_commit(mut_repo, &settings)
        .set_parents(vec![commit2.id().clone()])
        .set_description("commit 3")
        .write()
        .unwrap();

    // Not intersected with a set node
    assert_eq!(
        resolve_commit_ids(mut_repo, "~description(1)"),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            root_commit_id.clone(),
        ],
    );
    assert_eq!(
        resolve_commit_ids(mut_repo, "description(1) | description(2)"),
        vec![commit2.id().clone(), commit1.id().clone()],
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            "description(commit) ~ (description(2) | description(3))",
        ),
        vec![commit1.id().clone()],
    );

    // Intersected with a set node
    assert_eq!(
        resolve_commit_ids(mut_repo, "root().. & ~description(1)"),
        vec![commit3.id().clone(), commit2.id().clone()],
    );
    assert_eq!(
        resolve_commit_ids(
            mut_repo,
            &format!(
                "{}.. & (description(1) | description(2))",
                commit1.id().hex(),
            )
        ),
        vec![commit2.id().clone()],
    );
}

#[test]
fn test_evaluate_expression_file() {
    let settings = testutils::user_settings();
    let test_workspace = TestWorkspace::init(&settings);
    let repo = &test_workspace.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    let added_clean_clean = RepoPath::from_internal_string("added_clean_clean");
    let added_modified_clean = RepoPath::from_internal_string("added_modified_clean");
    let added_modified_removed = RepoPath::from_internal_string("added_modified_removed");
    let tree1 = create_tree(
        repo,
        &[
            (added_clean_clean, "1"),
            (added_modified_clean, "1"),
            (added_modified_removed, "1"),
        ],
    );
    let tree2 = create_tree(
        repo,
        &[
            (added_clean_clean, "1"),
            (added_modified_clean, "2"),
            (added_modified_removed, "2"),
        ],
    );
    let tree3 = create_tree(
        repo,
        &[
            (added_clean_clean, "1"),
            (added_modified_clean, "2"),
            // added_modified_removed,
        ],
    );
    let commit1 = mut_repo
        .new_commit(
            &settings,
            vec![repo.store().root_commit_id().clone()],
            tree1.id(),
        )
        .write()
        .unwrap();
    let commit2 = mut_repo
        .new_commit(&settings, vec![commit1.id().clone()], tree2.id())
        .write()
        .unwrap();
    let commit3 = mut_repo
        .new_commit(&settings, vec![commit2.id().clone()], tree3.id())
        .write()
        .unwrap();
    let commit4 = mut_repo
        .new_commit(&settings, vec![commit3.id().clone()], tree3.id())
        .write()
        .unwrap();

    let resolve = |file_path: &RepoPath| -> Vec<CommitId> {
        let mut_repo = &*mut_repo;
        let expression = RevsetExpression::filter(RevsetFilterPredicate::File(
            FilesetExpression::prefix_path(file_path.to_owned()),
        ));
        let revset = expression.evaluate_programmatic(mut_repo).unwrap();
        revset.iter().collect()
    };

    assert_eq!(resolve(added_clean_clean), vec![commit1.id().clone()]);
    assert_eq!(
        resolve(added_modified_clean),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    assert_eq!(
        resolve(added_modified_removed),
        vec![
            commit3.id().clone(),
            commit2.id().clone(),
            commit1.id().clone()
        ]
    );

    // file() revset:
    assert_eq!(
        resolve_commit_ids_in_workspace(
            mut_repo,
            r#"file("repo/added_clean_clean")"#,
            &test_workspace.workspace,
            Some(test_workspace.workspace.workspace_root().parent().unwrap()),
        ),
        vec![commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids_in_workspace(
            mut_repo,
            r#"file("added_clean_clean"|"added_modified_clean")"#,
            &test_workspace.workspace,
            Some(test_workspace.workspace.workspace_root()),
        ),
        vec![commit2.id().clone(), commit1.id().clone()]
    );
    assert_eq!(
        resolve_commit_ids_in_workspace(
            mut_repo,
            &format!(r#"{}:: & file("added_modified_clean")"#, commit2.id().hex()),
            &test_workspace.workspace,
            Some(test_workspace.workspace.workspace_root()),
        ),
        vec![commit2.id().clone()]
    );

    // empty() revset, which is identical to ~file(".")
    assert_eq!(
        resolve_commit_ids(mut_repo, &format!("{}:: & empty()", commit1.id().hex())),
        vec![commit4.id().clone()]
    );
}

#[test]
fn test_evaluate_expression_conflict() {
    let settings = testutils::user_settings();
    let test_workspace = TestWorkspace::init(&settings);
    let repo = &test_workspace.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();

    // Create a few trees, including one with a conflict in `file1`
    let file_path1 = RepoPath::from_internal_string("file1");
    let file_path2 = RepoPath::from_internal_string("file2");
    let tree1 = create_tree(repo, &[(file_path1, "1"), (file_path2, "1")]);
    let tree2 = create_tree(repo, &[(file_path1, "2"), (file_path2, "2")]);
    let tree3 = create_tree(repo, &[(file_path1, "3"), (file_path2, "1")]);
    let tree4 = tree2.merge(&tree1, &tree3).unwrap();

    let mut create_commit = |parent_ids, tree_id| {
        mut_repo
            .new_commit(&settings, parent_ids, tree_id)
            .write()
            .unwrap()
    };
    let commit1 = create_commit(vec![repo.store().root_commit_id().clone()], tree1.id());
    let commit2 = create_commit(vec![commit1.id().clone()], tree2.id());
    let commit3 = create_commit(vec![commit2.id().clone()], tree3.id());
    let commit4 = create_commit(vec![commit3.id().clone()], tree4.id());

    // Only commit4 has a conflict
    assert_eq!(
        resolve_commit_ids(mut_repo, "conflict()"),
        vec![commit4.id().clone()]
    );
}

#[test]
fn test_reverse_graph_iterator() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    // Tests that merges, forks, direct edges, indirect edges, and "missing" edges
    // are correct in reversed graph. "Missing" edges (i.e. edges to commits not
    // in the input set) won't be part of the reversed graph. Conversely, there
    // won't be missing edges to children not in the input.
    //
    //  F
    //  |\
    //  D E
    //  |/
    //  C
    //  |
    //  b
    //  |
    //  A
    //  |
    // root
    let mut tx = repo.start_transaction(&settings);
    let mut graph_builder = CommitGraphBuilder::new(&settings, tx.mut_repo());
    let commit_a = graph_builder.initial_commit();
    let commit_b = graph_builder.commit_with_parents(&[&commit_a]);
    let commit_c = graph_builder.commit_with_parents(&[&commit_b]);
    let commit_d = graph_builder.commit_with_parents(&[&commit_c]);
    let commit_e = graph_builder.commit_with_parents(&[&commit_c]);
    let commit_f = graph_builder.commit_with_parents(&[&commit_d, &commit_e]);
    let repo = tx.commit("test");

    let revset = revset_for_commits(
        repo.as_ref(),
        &[&commit_a, &commit_c, &commit_d, &commit_e, &commit_f],
    );
    let commits = ReverseGraphIterator::new(revset.iter_graph()).collect_vec();
    assert_eq!(commits.len(), 5);
    assert_eq!(commits[0].0, *commit_a.id());
    assert_eq!(commits[1].0, *commit_c.id());
    assert_eq!(commits[2].0, *commit_d.id());
    assert_eq!(commits[3].0, *commit_e.id());
    assert_eq!(commits[4].0, *commit_f.id());
    assert_eq!(
        commits[0].1,
        vec![GraphEdge::indirect(commit_c.id().clone())]
    );
    assert_eq!(
        commits[1].1,
        vec![
            GraphEdge::direct(commit_e.id().clone()),
            GraphEdge::direct(commit_d.id().clone()),
        ]
    );
    assert_eq!(commits[2].1, vec![GraphEdge::direct(commit_f.id().clone())]);
    assert_eq!(commits[3].1, vec![GraphEdge::direct(commit_f.id().clone())]);
    assert_eq!(commits[4].1, vec![]);
}

#[test]
fn test_no_such_revision_suggestion() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();
    let commit = write_random_commit(mut_repo, &settings);

    for branch_name in ["foo", "bar", "baz"] {
        mut_repo.set_local_branch_target(branch_name, RefTarget::normal(commit.id().clone()));
    }

    assert_matches!(resolve_symbol(mut_repo, "bar"), Ok(_));
    assert_matches!(
        resolve_symbol(mut_repo, "bax"),
        Err(RevsetResolutionError::NoSuchRevision { name, candidates })
        if name == "bax" && candidates == vec!["bar".to_string(), "baz".to_string()]
    );
}

#[test]
fn test_revset_containing_fn() {
    let settings = testutils::user_settings();
    let test_repo = TestRepo::init();
    let repo = &test_repo.repo;

    let mut tx = repo.start_transaction(&settings);
    let mut_repo = tx.mut_repo();
    let commit_a = write_random_commit(mut_repo, &settings);
    let commit_b = write_random_commit(mut_repo, &settings);
    let commit_c = write_random_commit(mut_repo, &settings);
    let commit_d = write_random_commit(mut_repo, &settings);
    let repo = tx.commit("test");

    let revset = revset_for_commits(repo.as_ref(), &[&commit_b, &commit_d]);

    let revset_has_commit = revset.containing_fn();
    assert!(!revset_has_commit(commit_a.id()));
    assert!(revset_has_commit(commit_b.id()));
    assert!(!revset_has_commit(commit_c.id()));
    assert!(revset_has_commit(commit_d.id()));
}