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2 Commits

Author SHA1 Message Date
Peter Schiwy bb1946bb83 add create_viele_typen 2024-06-04 15:38:07 +02:00
Peter Schiwy 85f1840d7b refactoring delete models 2024-06-04 11:06:51 +02:00
11 changed files with 167 additions and 148 deletions

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@ -1,5 +1,5 @@
-- Add up migration script here
CREATE TABLE IF NOT EXISTS typen (
typ_id SERIAL PRIMARY KEY,
id SERIAL PRIMARY KEY,
name VARCHAR NOT NULL
);

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@ -1,5 +1,5 @@
-- Add up migration script here
CREATE TABLE IF NOT EXISTS hersteller (
hersteller_id SERIAL PRIMARY KEY,
id SERIAL PRIMARY KEY,
name VARCHAR NOT NULL
);

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@ -1,9 +1,9 @@
-- Add up migration script here
CREATE TABLE IF NOT EXISTS modelle (
modell_id SERIAL PRIMARY KEY,
id SERIAL PRIMARY KEY,
name VARCHAR NOT NULL,
typ_id SERIAL,
hersteller_id SERIAL,
CONSTRAINT fk_typ FOREIGN KEY(typ_id) REFERENCES typen(typ_id) ON DELETE NO ACTION ON UPDATE NO ACTION,
CONSTRAINT fk_hersteller FOREIGN KEY (hersteller_id) REFERENCES hersteller(hersteller_id) ON DELETE NO ACTION ON UPDATE NO ACTION
CONSTRAINT fk_typ FOREIGN KEY(typ_id) REFERENCES typen(id) ON DELETE NO ACTION ON UPDATE NO ACTION,
CONSTRAINT fk_hersteller FOREIGN KEY (hersteller_id) REFERENCES hersteller(id) ON DELETE NO ACTION ON UPDATE NO ACTION
)

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@ -1,71 +1,76 @@
use anyhow::Result;
use async_graphql::SimpleObject;
use async_graphql::{InputObject, SimpleObject};
use serde::{Deserialize, Serialize};
use sqlx::{FromRow, PgPool};
#[derive(SimpleObject, Debug, FromRow, Deserialize, Serialize, sqlx::Type)]
pub struct Hersteller {
/// Die Datenbank-ID
pub hersteller_id: i32,
pub id: i32,
/// Der Name eines Herstellers
name: String,
}
#[derive(InputObject, Debug)]
pub struct HerstellerCreateInput {
pub name: String,
}
#[derive(InputObject, Debug)]
pub struct HerstellerUpdateInput {
pub id: i32,
pub name: Option<String>,
}
impl Hersteller {
pub async fn create(pool: &PgPool, name: &str) -> Result<Hersteller> {
let row = sqlx::query!(
"INSERT INTO hersteller(name) VALUES ($1) RETURNING hersteller_id",
name
)
.fetch_one(pool)
.await?;
Ok(Hersteller {
hersteller_id: row.hersteller_id,
name: name.to_string(),
})
}
pub async fn read_one(pool: &PgPool, id: &i32) -> Result<Hersteller> {
let row = sqlx::query_as!(
Hersteller,
"SELECT * FROM hersteller WHERE hersteller_id = $1",
id
)
.fetch_one(pool)
.await?;
let row = sqlx::query_as!(Hersteller, "SELECT * FROM hersteller WHERE id = $1", id)
.fetch_one(pool)
.await?;
Ok(row)
}
pub async fn read_all(pool: &PgPool) -> Result<Vec<Hersteller>> {
let rows = sqlx::query_as!(Hersteller, "SELECT hersteller_id, name FROM hersteller")
let rows = sqlx::query_as!(Hersteller, "SELECT id, name FROM hersteller")
.fetch_all(pool)
.await?;
Ok(rows)
}
pub async fn update(pool: &PgPool, id: &i32, name: &str) -> Result<Hersteller> {
pub async fn create(pool: &PgPool, input: &HerstellerCreateInput) -> Result<Hersteller> {
let row = sqlx::query!(
"INSERT INTO hersteller(name) VALUES ($1) RETURNING id",
input.name
)
.fetch_one(pool)
.await?;
let result = Self::read_one(pool, &row.id).await?;
Ok(result)
}
pub async fn update(pool: &PgPool, input: &HerstellerUpdateInput) -> Result<Hersteller> {
sqlx::query!(
"UPDATE hersteller SET name=$1 WHERE hersteller_id = $2",
name,
id
"UPDATE hersteller SET name=$1 WHERE id = $2",
input.name,
input.id
)
.execute(pool)
.await?;
let t = Hersteller::read_one(pool, id).await?;
let t = Hersteller::read_one(pool, &input.id).await?;
Ok(t)
}
pub async fn delete(pool: &PgPool, id: &i32) -> Result<()> {
sqlx::query!("DELETE FROM hersteller WHERE hersteller_id = $1", id)
pub async fn delete(pool: &PgPool, id: &i32) -> Result<bool> {
let result = sqlx::query!("DELETE FROM hersteller WHERE id = $1", id)
.execute(pool)
.await?;
Ok(())
Ok(result.rows_affected() > 0)
}
}

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@ -5,10 +5,10 @@ use sqlx::{FromRow, PgPool};
use super::{hersteller::Hersteller, typ::Typ};
#[derive(SimpleObject, FromRow, Deserialize, Serialize)]
#[derive(SimpleObject, FromRow, Deserialize, Serialize, Debug)]
pub struct Modell {
/// Die Datenbank-ID
pub modell_id: i32,
pub id: i32,
/// Der Geräte-Typ z.B. Monitor
typ: Typ,
@ -20,16 +20,16 @@ pub struct Modell {
name: String,
}
#[derive(InputObject)]
#[derive(InputObject, Debug)]
pub struct ModellCreateInput {
pub name: String,
pub typ_id: i32,
pub hersteller_id: i32,
}
#[derive(InputObject)]
#[derive(InputObject, Debug)]
pub struct ModellUpdateInput {
pub modell_id: i32,
pub id: i32,
pub name: Option<String>,
pub typ_id: Option<i32>,
pub hersteller_id: Option<i32>,
@ -41,13 +41,13 @@ impl Modell {
Modell,
r#"
select
m.modell_id, m.name,
(t.typ_id, t.name) as "typ!: Typ",
(h.hersteller_id, h.name) as "hersteller!: Hersteller"
m.id, m.name,
(t.id, t.name) as "typ!: Typ",
(h.id, h.name) as "hersteller!: Hersteller"
from modelle as m
join typen as t using(typ_id)
join hersteller as h using(hersteller_id)
where m.modell_id = $1;
join typen as t on t.id = m.typ_id
join hersteller as h on h.id = m.hersteller_id
where m.id = $1;
"#,
id
)
@ -62,12 +62,12 @@ impl Modell {
Modell,
r#"
select
m.modell_id, m.name,
(t.typ_id, t.name) as "typ!: Typ",
(h.hersteller_id, h.name) as "hersteller!: Hersteller"
m.id, m.name,
(t.id, t.name) as "typ!: Typ",
(h.id, h.name) as "hersteller!: Hersteller"
from modelle as m
join typen as t using(typ_id)
join hersteller as h using(hersteller_id)
join typen as t on t.id = m.typ_id
join hersteller as h on h.id = m.hersteller_id
"#
)
.fetch_all(pool)
@ -77,36 +77,39 @@ impl Modell {
}
pub async fn create(pool: &PgPool, input: &ModellCreateInput) -> Result<Modell> {
let row = sqlx::query!(r#"INSERT INTO modelle(typ_id, hersteller_id, name) VALUES ($1, $2, $3) RETURNING modell_id"#, input.typ_id, input.hersteller_id, input.name
let row = sqlx::query!(
r#"INSERT INTO modelle(typ_id, hersteller_id, name) VALUES ($1, $2, $3) RETURNING id"#,
input.typ_id,
input.hersteller_id,
input.name
)
.fetch_one(pool)
.await?;
Self::read_one(pool, &row.modell_id).await
Self::read_one(pool, &row.id).await
}
pub async fn update(pool: &PgPool, input: &ModellUpdateInput) -> Result<Modell> {
sqlx::query!(
"UPDATE modelle SET name=COALESCE($1, name), typ_id=COALESCE($2, typ_id), hersteller_id=COALESCE($3, hersteller_id) WHERE modell_id = $4",
"UPDATE modelle SET name=COALESCE($1, name), typ_id=COALESCE($2, typ_id), hersteller_id=COALESCE($3, hersteller_id) WHERE id = $4",
input.name,
input.typ_id,
input.hersteller_id,
input.modell_id
input.id
)
.execute(pool)
.await?;
let t = Modell::read_one(pool, &input.modell_id).await?;
let t = Modell::read_one(pool, &input.id).await?;
Ok(t)
}
pub async fn delete(pool: &PgPool, id: &i32) -> Result<()> {
let result = sqlx::query!("DELETE FROM modelle WHERE modell_id = $1", id)
pub async fn delete(pool: &PgPool, id: &i32) -> Result<bool> {
let result = sqlx::query!("DELETE FROM modelle WHERE id = $1", id)
.execute(pool)
.await?;
println!("{:#?}", result);
Ok(())
Ok(result.rows_affected() > 0)
}
}

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@ -1,30 +1,30 @@
use anyhow::Result;
use async_graphql::SimpleObject;
use async_graphql::{InputObject, SimpleObject};
use serde::{Deserialize, Serialize};
use sqlx::{FromRow, PgPool, Type};
#[derive(SimpleObject, Debug, FromRow, Deserialize, Serialize, Type)]
pub struct Typ {
pub typ_id: i32,
pub id: i32,
/// Name eines Typs
pub name: String,
}
#[derive(InputObject, Debug)]
pub struct TypCreateInput {
pub name: String,
}
#[derive(InputObject, Debug)]
pub struct TypUpdateInput {
pub id: i32,
pub name: Option<String>,
}
impl Typ {
pub async fn create(pool: &PgPool, name: &str) -> Result<Typ> {
let row = sqlx::query!("INSERT INTO typen(name) VALUES ($1) RETURNING typ_id", name)
.fetch_one(pool)
.await?;
Ok(Typ {
typ_id: row.typ_id,
name: name.to_string(),
})
}
pub async fn read_one(pool: &PgPool, id: &i32) -> Result<Typ> {
let row = sqlx::query_as!(Typ, "SELECT * FROM typen WHERE typ_id = $1", id)
let row = sqlx::query_as!(Typ, "SELECT * FROM typen WHERE id = $1", id)
.fetch_one(pool)
.await?;
@ -32,28 +32,61 @@ impl Typ {
}
pub async fn read_all(pool: &PgPool) -> Result<Vec<Typ>> {
let rows = sqlx::query_as!(Typ, "SELECT typ_id, name FROM typen")
let rows = sqlx::query_as!(Typ, "SELECT id, name FROM typen")
.fetch_all(pool)
.await?;
Ok(rows)
}
pub async fn update(pool: &PgPool, id: &i32, name: &str) -> Result<Typ> {
sqlx::query!("UPDATE typen SET name=$1 WHERE typ_id = $2", name, id)
.execute(pool)
.await?;
pub async fn create(pool: &PgPool, input: TypCreateInput) -> Result<Typ> {
let row = sqlx::query!(
"INSERT INTO typen(name) VALUES ($1) RETURNING id",
input.name
)
.fetch_one(pool)
.await?;
let t = Typ::read_one(pool, id).await?;
let result = Self::read_one(pool, &row.id).await?;
Ok(result)
}
pub async fn create_many(pool: &PgPool, input: &[TypCreateInput]) -> Result<Typ> {
let mut v1: Vec<&str> = Vec::new();
input.iter().for_each(|typ| v1.push(&typ.name));
let row = sqlx::query_as(
r#"
INSERT INTO typen(name)
SELECT * FROM UNNEST($1)
RETURNING id, name"#,
)
.bind(&v1)
.fetch_one(pool)
.await?;
Ok(row)
}
pub async fn update(pool: &PgPool, input: TypUpdateInput) -> Result<Typ> {
sqlx::query!(
"UPDATE typen SET name=$1 WHERE id = $2",
input.name,
input.id
)
.execute(pool)
.await?;
let t = Typ::read_one(pool, &input.id).await?;
Ok(t)
}
pub async fn delete(pool: &PgPool, id: &i32) -> Result<()> {
sqlx::query!("DELETE FROM typen WHERE typ_id = $1", id)
pub async fn delete(pool: &PgPool, id: &i32) -> Result<bool> {
let result = sqlx::query!("DELETE FROM typen WHERE id = $1", id)
.execute(pool)
.await?;
Ok(())
Ok(result.rows_affected() > 0)
}
}

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@ -1,4 +1,4 @@
use crate::models::hersteller::Hersteller;
use crate::models::hersteller::{Hersteller, HerstellerCreateInput, HerstellerUpdateInput};
use async_graphql::{Context, FieldResult};
use sqlx::postgres::PgPool;
@ -7,28 +7,28 @@ pub struct HerstellerMutation;
#[async_graphql::Object]
impl HerstellerMutation {
async fn create_hersteller(&self, ctx: &Context<'_>, name: String) -> FieldResult<Hersteller> {
async fn create_hersteller(
&self,
ctx: &Context<'_>,
input: HerstellerCreateInput,
) -> FieldResult<Hersteller> {
let pool = ctx.data::<PgPool>()?;
let row = Hersteller::create(pool, &name).await?;
let row = Hersteller::create(pool, &input).await?;
Ok(row)
}
async fn delete_hersteller(&self, ctx: &Context<'_>, id: i32) -> FieldResult<bool> {
let pool = ctx.data::<PgPool>()?;
Hersteller::delete(pool, &id).await?;
Ok(true)
}
async fn update_hersteller(
&self,
ctx: &Context<'_>,
id: i32,
name: String,
input: HerstellerUpdateInput,
) -> FieldResult<Hersteller> {
let pool = ctx.data::<PgPool>()?;
let row = Hersteller::update(pool, &id, &name).await?;
let row = Hersteller::update(pool, &input).await?;
Ok(row)
}
async fn delete_hersteller(&self, ctx: &Context<'_>, id: i32) -> FieldResult<bool> {
let pool = ctx.data::<PgPool>()?;
Ok(Hersteller::delete(pool, &id).await?)
}
}

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@ -10,26 +10,24 @@ impl ModellMutation {
async fn create_modell(
&self,
ctx: &Context<'_>,
modell: ModellCreateInput,
input: ModellCreateInput,
) -> FieldResult<Modell> {
let pool = ctx.data::<PgPool>()?;
let row = Modell::create(pool, &modell).await?;
let row = Modell::create(pool, &input).await?;
Ok(row)
}
async fn update_modell(
&self,
ctx: &Context<'_>,
modell: ModellUpdateInput,
input: ModellUpdateInput,
) -> FieldResult<Modell> {
let pool = ctx.data::<PgPool>()?;
let row = Modell::update(pool, &modell).await?;
let row = Modell::update(pool, &input).await?;
Ok(row)
}
async fn delete_typ(&self, ctx: &Context<'_>, id: i32) -> FieldResult<bool> {
async fn delete_modell(&self, ctx: &Context<'_>, id: i32) -> FieldResult<bool> {
let pool = ctx.data::<PgPool>()?;
Modell::delete(pool, &id).await?;
Ok(true)
Ok(Modell::delete(pool, &id).await?)
}
}

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@ -1,4 +1,4 @@
use crate::models::typ::Typ;
use crate::models::typ::{Typ, TypCreateInput, TypUpdateInput};
use async_graphql::{Context, FieldResult};
use sqlx::postgres::PgPool;
@ -7,23 +7,31 @@ pub struct TypMutation;
#[async_graphql::Object]
impl TypMutation {
async fn create_typ(&self, ctx: &Context<'_>, name: String) -> FieldResult<Typ> {
async fn create_typ(&self, ctx: &Context<'_>, input: TypCreateInput) -> FieldResult<Typ> {
let pool = ctx.data::<PgPool>()?;
let row = Typ::create(pool, &name).await?;
let row = Typ::create(pool, input).await?;
Ok(row)
}
async fn create_viele_typen(
&self,
ctx: &Context<'_>,
input: Vec<TypCreateInput>,
) -> FieldResult<Typ> {
let pool = ctx.data::<PgPool>()?;
let row = Typ::create_many(pool, &input).await?;
Ok(row)
}
async fn update_typ(&self, ctx: &Context<'_>, input: TypUpdateInput) -> FieldResult<Typ> {
let pool = ctx.data::<PgPool>()?;
let row = Typ::update(pool, input).await?;
Ok(row)
}
async fn delete_typ(&self, ctx: &Context<'_>, id: i32) -> FieldResult<bool> {
let pool = ctx.data::<PgPool>()?;
Typ::delete(pool, &id).await?;
Ok(true)
}
async fn update_typ(&self, ctx: &Context<'_>, id: i32, name: String) -> FieldResult<Typ> {
let pool = ctx.data::<PgPool>()?;
let row = Typ::update(pool, &id, &name).await?;
Ok(row)
Ok(Typ::delete(pool, &id).await?)
}
}

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@ -10,17 +10,6 @@ pub struct HerstellerQuery {
#[Object(extends)]
impl HerstellerQuery {
// #[graphql(external)]
// async fn id(&self) -> &i32 {
// &self.id
// }
// async fn modell<'a>(&self, ctx: &'a Context<'_>) -> FieldResult<Vec<Modell>> {
// let pool = ctx.data::<PgPool>().unwrap();
// let rows = Modell::read_by_typ(pool, &self.id).await?;
// Ok(rows)
// }
async fn alle_hersteller<'a>(&self, ctx: &'a Context<'_>) -> FieldResult<Vec<Hersteller>> {
let pool = ctx.data::<PgPool>()?;
let rows = Hersteller::read_all(pool).await?;

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@ -10,16 +10,6 @@ pub struct TypQuery {
#[Object(extends)]
impl TypQuery {
// #[graphql(external)]
// async fn id(&self) -> &i32 {
// &self.id
// }
// async fn modell<'a>(&self, ctx: &'a Context<'_>) -> FieldResult<Vec<Modell>> {
// let pool = ctx.data::<PgPool>().unwrap();
// let rows = Modell::read_by_typ(pool, &self.id).await?;
// Ok(rows)
// }
async fn typen<'a>(&self, ctx: &'a Context<'_>) -> FieldResult<Vec<Typ>> {
let pool = ctx.data::<PgPool>()?;
let rows = Typ::read_all(pool).await?;
@ -31,11 +21,4 @@ impl TypQuery {
let row = Typ::read_one(pool, &id).await?;
Ok(row)
}
// #[graphql(entity)]
// async fn find_typ_by_id<'a>(&self, ctx: &'a Context<'_>, id: i32) -> FieldResult<Typ> {
// let pool = ctx.data::<PgPool>().unwrap();
// let row = Typ::read_one(pool, &id).await?;
// Ok(row)
// }
}