Awesome
Extensible SQL Lexer and Parser for Rust
This crate contains a lexer and parser for SQL that conforms with the ANSI/ISO SQL standard and other dialects. This crate is used as a foundation for SQL query engines, vendor-specific parsers, and various SQL analysis.
Example
To parse a simple SELECT
statement:
use sqlparser::dialect::GenericDialect;
use sqlparser::parser::Parser;
let sql = "SELECT a, b, 123, myfunc(b) \
FROM table_1 \
WHERE a > b AND b < 100 \
ORDER BY a DESC, b";
let dialect = GenericDialect {}; // or AnsiDialect, or your own dialect ...
let ast = Parser::parse_sql(&dialect, sql).unwrap();
println!("AST: {:?}", ast);
This outputs
AST: [Query(Query { ctes: [], body: Select(Select { distinct: false, projection: [UnnamedExpr(Identifier("a")), UnnamedExpr(Identifier("b")), UnnamedExpr(Value(Long(123))), UnnamedExpr(Function(Function { name: ObjectName(["myfunc"]), args: [Identifier("b")], over: None, distinct: false }))], from: [TableWithJoins { relation: Table { name: ObjectName(["table_1"]), alias: None, args: [], with_hints: [] }, joins: [] }], selection: Some(BinaryOp { left: BinaryOp { left: Identifier("a"), op: Gt, right: Identifier("b") }, op: And, right: BinaryOp { left: Identifier("b"), op: Lt, right: Value(Long(100)) } }), group_by: [], having: None }), order_by: [OrderByExpr { expr: Identifier("a"), asc: Some(false) }, OrderByExpr { expr: Identifier("b"), asc: None }], limit: None, offset: None, fetch: None })]
Features
The following optional crate features are available:
serde
: Adds Serde support by implementingSerialize
andDeserialize
for all AST nodes.visitor
: Adds aVisitor
capable of recursively walking the AST tree.
Syntax vs Semantics
This crate provides only a syntax parser, and tries to avoid applying
any SQL semantics, and accepts queries that specific databases would
reject, even when using that Database's specific Dialect
. For
example, CREATE TABLE(x int, x int)
is accepted by this crate, even
though most SQL engines will reject this statement due to the repeated
column name x
.
This crate avoids semantic analysis because it varies drastically between dialects and implementations. If you want to do semantic analysis, feel free to use this project as a base.
SQL compliance
SQL was first standardized in 1987, and revisions of the standard have been published regularly since. Most revisions have added significant new features to the language, and as a result no database claims to support the full breadth of features. This parser currently supports most of the SQL-92 syntax, plus some syntax from newer versions that have been explicitly requested, plus some MSSQL, PostgreSQL, and other dialect-specific syntax. Whenever possible, the online SQL:2016 grammar is used to guide what syntax to accept.
Unfortunately, stating anything more specific about compliance is difficult. There is no publicly available test suite that can assess compliance automatically, and doing so manually would strain the project's limited resources. Still, we are interested in eventually supporting the full SQL dialect, and we are slowly building out our own test suite.
If you are assessing whether this project will be suitable for your needs, you'll likely need to experimentally verify whether it supports the subset of SQL that you need. Please file issues about any unsupported queries that you discover. Doing so helps us prioritize support for the portions of the standard that are actually used. Note that if you urgently need support for a feature, you will likely need to write the implementation yourself. See the Contributing section for details.
Command line
This crate contains a CLI program that can parse a file and dump the results as JSON:
$ cargo run --features json_example --example cli FILENAME.sql [--dialectname]
Users
This parser is currently being used by the DataFusion query engine, LocustDB, Ballista, GlueSQL, and Opteryx.
If your project is using sqlparser-rs feel free to make a PR to add it to this list.
Design
The core expression parser uses the Pratt Parser design, which is a top-down operator-precedence (TDOP) parser, while the surrounding SQL statement parser is a traditional, hand-written recursive descent parser. Eli Bendersky has a good tutorial on TDOP parsers, if you are interested in learning more about the technique.
We are a fan of this design pattern over parser generators for the following reasons:
- Code is simple to write and can be concise and elegant
- Performance is generally better than code generated by parser generators
- Debugging is much easier with hand-written code
- It is far easier to extend and make dialect-specific extensions compared to using a parser generator
Supporting custom SQL dialects
This is a work in progress, but we have some notes on writing a custom SQL parser.
Contributing
Contributions are highly encouraged! However, the bandwidth we have to maintain this crate is fairly limited.
Pull requests that add support for or fix a bug in a feature in the SQL standard, or a feature in a popular RDBMS, like Microsoft SQL Server or PostgreSQL, will likely be accepted after a brief review.
The current maintainers do not plan for any substantial changes to this crate's API at this time. And thus, PRs proposing major refactors are not likely to be accepted.
Please be aware that, while we hope to review PRs in a reasonably timely fashion, it may take a while. In order to speed the process, please make sure the PR passes all CI checks, and includes tests demonstrating your code works as intended (and to avoid regressions). Remember to also test error paths.
PRs without tests will not be reviewed or merged. Since the CI
ensures that cargo test
, cargo fmt
, and cargo clippy
, pass you
will likely want to run all three commands locally before submitting
your PR.
If you are unable to submit a patch, feel free to file an issue instead. Please try to include:
- some representative examples of the syntax you wish to support or fix;
- the relevant bits of the SQL grammar, if the syntax is part of SQL:2016; and
- links to documentation for the feature for a few of the most popular databases that support it.
If you need support for a feature, you will likely need to implement it yourself. Our goal as maintainers is to facilitate the integration of various features from various contributors, but not to provide the implementations ourselves, as we simply don't have the resources.
Licensing
All code in this repository is licensed under the Apache Software License 2.0.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be licensed as above, without any additional terms or conditions.