Seaography is a GraphQL framework for building GraphQL resolvers using SeaORM entities. It ships with a CLI tool that can generate ready-to-compile Rust GraphQL servers from existing MySQL, Postgres and SQLite databases.
- Quick and easy to get started
- Generates readable code
- Extensible project structure
- Based on popular async libraries: async-graphql and SeaORM
- Relational query (1-to-1, 1-to-N)
- Pagination for queries and relations (1-N)
- Filtering with operators (e.g. gt, lt, eq)
- Order by any column
- Guard fields, queries or relations
- Rename fields
- Mutations (create, update, delete)
(Right now there is no mutation, but it's on our plan!)
Seaography | SeaORM |
---|---|
1.1 | 1.1 |
1.0 | 1.0 |
0.12 | 0.12 |
0.3 | 0.10 |
cargo install sea-orm-cli@^1.0.0 # used to generate entities
cargo install seaography-cli@^1.0.0
Setup the sakila sample database.
cd examples/mysql
sea-orm-cli generate entity -o src/entities -u mysql://user:[email protected]/sakila --seaography
seaography-cli ./ src/entities mysql://user:[email protected]/sakila seaography-mysql-example
cargo run
Go to http://localhost:8000/ and try out the following queries:
{
film(pagination: { page: { limit: 10, page: 0 } }, orderBy: { title: ASC }) {
nodes {
title
description
releaseYear
actor {
nodes {
firstName
lastName
}
}
}
}
}
{
store(filters: { storeId: { eq: 1 } }) {
nodes {
storeId
address {
address
address2
}
staff {
firstName
lastName
}
}
}
}
{
customer(
filters: { active: { eq: 0 } }
pagination: { page: { page: 2, limit: 3 } }
) {
nodes {
customerId
lastName
email
}
paginationInfo {
pages
current
}
}
}
{
customer(
filters: { active: { eq: 0 } }
pagination: { cursor: { limit: 3, cursor: "Int[3]:271" } }
) {
nodes {
customerId
lastName
email
}
pageInfo {
hasPreviousPage
hasNextPage
endCursor
}
}
}
Find all inactive customers, include their address, and their payments with amount greater than 7 ordered by amount the second result
{
customer(
filters: { active: { eq: 0 } }
pagination: { cursor: { limit: 3, cursor: "Int[3]:271" } }
) {
nodes {
customerId
lastName
email
address {
address
}
payment(
filters: { amount: { gt: "7" } }
orderBy: { amount: ASC }
pagination: { page: { limit: 1, page: 1 } }
) {
nodes {
paymentId
amount
}
paginationInfo {
pages
current
}
pageInfo {
hasPreviousPage
hasNextPage
}
}
}
pageInfo {
hasPreviousPage
hasNextPage
endCursor
}
}
}
{
film(
filters: { rating: { eq: NC17 } }
pagination: { page: { page: 1, limit: 5 } }
) {
nodes {
filmId
rating
}
}
}
Setup the sakila sample database.
cd examples/postgres
sea-orm-cli generate entity -o src/entities -u postgres://user:pw@localhost/sakila --seaography
seaography-cli ./ src/entities postgres://user:pw@localhost/sakila seaography-postgres-example
cargo run
cd examples/sqlite
sea-orm-cli generate entity -o src/entities -u sqlite://sakila.db --seaography
seaography-cli ./ src/entities sqlite://sakila.db seaography-sqlite-example
cargo run
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 dual licensed as above, without any additional terms or conditions.
Seaography is a community driven project. We welcome you to participate, contribute and together build for Rust's future.