velr 0.2.22

Velr embedded property-graph database (Rust driver, beta)
Documentation

Velr

Velr is an embedded property-graph database from Velr.ai, written in Rust, built on top of SQLite3 (persisting to a standard SQLite database file) and queried using the openCypher language.

This crate provides the Rust binding for Velr. It links against a bundled native runtime with a C ABI, implemented in Rust.

For the main Velr public entry point, see velr-ai/velr.
For the Velr website, see velr.ai.

Community

We’d love to have you join the Velr community.


Release status

This release is alpha.

  • The API and query support are still evolving.
  • openCypher coverage is already substantial, but some features are still missing.
  • During the 0.2.x series, we do not guarantee database migration or on-disk database compatibility between releases.
  • Velr 0.2.14 includes a breaking on-disk storage change; existing databases from earlier releases must be recreated by re-importing the source data.
  • Starting with the 0.3.x series, we intend to guarantee internal database compatibility within the branch.

Schema version 5 compatibility

This release's current on-disk schema is version 5. Supported older databases can be opened with Velr::open or Velr::open_readonly without changing the file. Reads continue to work on those databases, but writes (CREATE, MERGE, SET, DELETE, DETACH DELETE, and other mutating queries) are only available after migrating to schema version 5. This is intentional: migration is an explicit maintenance operation, not a side effect of opening a database.

Velr is already usable for real workflows and representative use cases, but rough edges remain and the API is not yet stable.

Velr 1.0 is focused on strong openCypher compatibility.
Vector search, time-series, and federation are planned as post-1.0 capabilities.


Installation

Add to Cargo.toml:

[dependencies]
velr = "0.2"

Enable Arrow IPC support (binding Arrow arrays + exporting result tables as Arrow IPC):

[dependencies]
velr = { version = "0.2", features = ["arrow-ipc"] }

Quick start

use velr::{Velr, CellRef};

fn main() -> velr::Result<()> {
    // Open in-memory DB (pass Some("path.db") for file-backed)
    let db = Velr::open(None)?;

    db.run("CREATE (:Person {name:'Keanu Reeves', born:1964})")?;

    let mut t = db.exec_one("MATCH (p:Person) RETURN p.name AS name, p.born AS born")?;

    println!("{:?}", t.column_names());

    t.for_each_row(|row| {
        match row[0] {
            CellRef::Text(bytes) => println!("name={}", std::str::from_utf8(bytes).unwrap()),
            _ => {}
        }
        match row[1] {
            CellRef::Integer(i) => println!("born={i}"),
            _ => {}
        }
        Ok(())
    })?;

    Ok(())
}

Opening an existing database read-only

Use Velr::open_readonly(path) for viewers, agents, and other read paths that should not initialize or migrate the database:

use velr::Velr;

fn main() -> velr::Result<()> {
    let db = Velr::open_readonly("mygraph.db")?;
    let mut table = db.exec_one("MATCH (n) RETURN count(n) AS count")?;

    table.for_each_row(|row| {
        println!("{:?}", row[0]);
        Ok(())
    })?;

    Ok(())
}

open_readonly requires an existing file-backed database at a supported Velr schema version. It does not create files, run schema DDL, or migrate older databases. Older supported databases, such as schema version 3 or 4 databases opened by a schema version 5 runtime, remain available for reads. Writes and features that require schema version 5 fail with a normal query error until the database is explicitly migrated.


Schema migration

Velr does not migrate supported older databases automatically on open. Use the driver migration API, or run MIGRATE DATABASE, from maintenance code when you intend to update the on-disk schema. See the release-status note above for the schema version 5 read/write compatibility behavior.

use velr::{MigrationStatus, Velr};

fn main() -> velr::Result<()> {
    let db = Velr::open(Some("mygraph.db"))?;

    if db.needs_migration()? {
        let report = db.migrate()?;
        match report.status {
            MigrationStatus::Migrated => {
                println!(
                    "migrated schema {} -> {} via {:?}",
                    report.from_version, report.to_version, report.steps
                );
            }
            MigrationStatus::AlreadyCurrent => {}
        }
    }

    Ok(())
}

The equivalent Cypher command is useful for scripts and tools that already work through query execution:

let db = Velr::open(Some("mygraph.db"))?;
let mut report = db.exec_one("MIGRATE DATABASE")?;
println!("{:?}", report.column_names());

Introspection

Use SHOW CURRENT GRAPH SHAPE to inspect the observed schema of the graph. It reports the shape present in stored data: node labels, relationship types, properties, observed value types, and counts. It is an observed shape surface, not a declared GQL graph type.

SHOW CURRENT GRAPH SHAPE is available on schema version 5 databases. Older supported databases can still be opened for reads, but must be migrated explicitly before this command is valid. Schema version 5 maintains this inventory through the write planner instead of persistent graph-shape triggers.

The default projection returns element_kind, element_name, property_name, observed_type, owner_count, present_count, and missing_count. YIELD * exposes the full row shape, including surface, source_label, target_label, required, storage_class, and tag.

let db = Velr::open(Some("mygraph.db"))?;

let mut shape = db.exec_one(
    "SHOW CURRENT GRAPH SHAPE
     YIELD element_kind, element_name, property_name, observed_type, owner_count
     WHERE element_kind = 'node_property'
     RETURN element_name, property_name, observed_type, owner_count",
)?;

shape.for_each_row(|row| {
    println!("{row:?}");
    Ok(())
})?;

Use YIELD to compose the command with WHERE and RETURN. Plain SHOW CURRENT GRAPH SHAPE returns the default projection; YIELD * exposes the full current row shape.


Query language support

Velr supports most of openCypher, but some features are not yet implemented.

Notable current limitations:

  • Driver-level query parameters (for example $name)
  • The query planner does not yet use indexes in all cases where expected.

Streaming multiple result tables

A single exec() can yield multiple result tables (e.g. multiple statements):

let db = Velr::open(None)?;
let mut stream = db.exec(
    "MATCH (m:Movie {title:'The Matrix'}) RETURN m.title AS title;
     MATCH (m:Movie {title:'Inception'})  RETURN m.released AS year"
)?;

while let Some(mut table) = stream.next_table()? {
    println!("{:?}", table.column_names());
    table.for_each_row(|row| {
        println!("{row:?}");
        Ok(())
    })?;
}

Transactions and savepoints

Velr supports transactions together with two kinds of savepoints:

  • Scoped savepoints via savepoint(), which return a guard
  • Named savepoints via savepoint_named(name), which remain active in the transaction until released or the transaction ends

Calling rollback_to(name) rolls back to the named savepoint, discards any newer named savepoints, and keeps the target savepoint active.

Scoped savepoint

let db = Velr::open(None)?;

let tx = db.begin_tx()?;
tx.run("CREATE (:Temp {k:'outer'})")?;

{
    let sp = tx.savepoint()?;
    tx.run("CREATE (:Temp {k:'inner'})")?;
    sp.rollback()?; // rollback to the scoped savepoint
}

tx.commit()?;

Named savepoints

let db = Velr::open(None)?;

let tx = db.begin_tx()?;

tx.savepoint_named("before_write1")?;
tx.run("CREATE (:Temp {k:'a'})")?;

tx.savepoint_named("before_write2")?;
tx.run("CREATE (:Temp {k:'b'})")?;

tx.rollback_to("before_write1")?;
tx.run("CREATE (:Temp {k:'c'})")?;

tx.release_savepoint("before_write1")?;
tx.commit()?;

release_savepoint(name) currently releases the most recent active named savepoint.

Dropping an active transaction without commit() will roll it back automatically.


Explain plans

Velr can produce an explain trace for a query, which is useful when you want to inspect how a openCypher query is planned and translated internally.

Use Velr::explain to build a trace without executing the query:

use velr::Velr;

fn main() -> velr::Result<()> {
    let db = Velr::open(None)?;

    let trace = db.explain("MATCH (n) RETURN n")?;

    println!("plans: {}", trace.plan_count()?);
    println!("{}", trace.to_compact_string()?);

    Ok(())
}

The returned ExplainTrace can be inspected programmatically or rendered as a compact string for logging, debugging, tests, or documentation.


Arrow IPC (optional)

With features = ["arrow-ipc"] you can:

  • Bind Arrow arrays as a logical table (bind_arrow, bind_arrow_chunks)
  • Export a result table as an Arrow IPC file (to_arrow_ipc_file())
#[cfg(feature = "arrow-ipc")]
fn arrow_example() -> velr::Result<()> {
    use arrow2::array::{Array, Utf8Array};

    let db = Velr::open(None)?;

    let cols = vec!["name".to_string()];
    let arrays: Vec<Box<dyn Array>> = vec![
        Utf8Array::<i64>::from(vec![Some("Alice"), Some("Bob")]).boxed(),
    ];

    db.bind_arrow("_people", cols, arrays)?;
    db.run("UNWIND BIND('_people') AS r CREATE (:Person {name:r.name})")?;

    let mut t = db.exec_one("MATCH (p:Person) RETURN p.name AS name ORDER BY name")?;
    let ipc = t.to_arrow_ipc_file()?;

    println!("IPC bytes: {}", ipc.len());
    Ok(())
}

Supported functions

Velr currently supports these openCypher functions and constructors:

Graph and path

  • id()
  • type()
  • labels()
  • keys()
  • properties()
  • length()
  • nodes()
  • relationships()

Lists and predicates

  • size()
  • head()
  • last()
  • tail()
  • reverse()
  • range()
  • all()
  • any()
  • none()
  • single()

Strings and conversion

  • coalesce()
  • toInteger()
  • toString()
  • toLower()
  • trim()
  • substring()
  • split()

Numeric

  • abs()
  • ceil()
  • rand()
  • sign()
  • sqrt()

Temporal

  • date()
  • time()
  • localtime()
  • datetime()
  • localdatetime()
  • duration()
  • datetime.fromepoch()
  • datetime.fromepochmillis()
  • date.realtime(), date.transaction(), date.statement()
  • time.realtime(), time.transaction(), time.statement()
  • localtime.realtime(), localtime.transaction(), localtime.statement()
  • datetime.realtime(), datetime.transaction(), datetime.statement()
  • localdatetime.realtime(), localdatetime.transaction(), localdatetime.statement()

Aggregates

  • count()
  • sum()
  • avg()
  • min()
  • max()
  • collect()
  • percentileDisc()
  • percentileCont()

Platform support

This crate links against a bundled native runtime. Cargo selects one platform-specific velr-runtime-* crate for the current build target, so user installation stays:

[dependencies]
velr = "0.2"

Currently bundled targets:

  • macOS universal (arm64 + x86_64)
  • Linux x86_64
  • Linux aarch64
  • Windows x86_64

Licensing

  • The Rust binding source code in this package is licensed under MIT.
  • The bundled native runtime binaries may be used and freely redistributed in unmodified form under the terms of LICENSE.runtime.

See LICENSE and LICENSE.runtime for the full license texts.