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feat(clients): add nim-allographer client with BaraDB driver support
- Pure Nim wire protocol client (async + sync, no C FFI)
- Query Builder: fluent API, SQL generator, execution, transactions
- Schema Builder: create/alter/drop tables, column operations
- Connection pool with aging and timeout handling
- ORM integration via compile-time DB_BARADB switch
- Tests: test_open, test_query
- Documentation: README.md, PLAN_BARADB.md
2026-05-21 15:49:11 +03:00

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Markdown

Example: Query Builder for RDB
===
[back](../../README.md)
## index
<!--ts-->
* [Example: Query Builder for RDB](#example-query-builder-for-rdb)
* [index](#index)
* [Create Connection](#create-connection)
* [SELECT](#select)
* [return JsonNode](#return-jsonnode)
* [return Object](#return-object)
* [get](#get)
* [first](#first)
* [find](#find)
* [columns](#columns)
* [join](#join)
* [where](#where)
* [orWhere](#orwhere)
* [whereBetween](#wherebetween)
* [whereNotBetween](#wherenotbetween)
* [whereIn](#wherein)
* [whereNotIn](#wherenotin)
* [whereNull](#wherenull)
* [groupBy_having](#groupby_having)
* [orderBy](#orderby)
* [limit_offset](#limit_offset)
* [paginate](#paginate)
* [fastPaginate](#fastpaginate)
* [INSERT](#insert)
* [Return ID Insert](#return-id-insert)
* [UPDATE](#update)
* [DELETE](#delete)
* [Plain Response](#plain-response)
* [Raw SQL](#raw-sql)
* [Prepared Statement](#prepared-statement)
* [Aggregates](#aggregates)
* [Transaction](#transaction)
<!-- Created by https://github.com/ekalinin/github-markdown-toc -->
<!-- Added by: root, at: Mon Jul 17 07:46:13 UTC 2023 -->
<!--te-->
---
## Create Connection
```nim
import allographer/connection
let maxConnections = 95
let timeout = 30
# Using connection URL (Recommended)
let rdb = dbOpen(PostgreSQL, "postgresql://user:password@localhost:5432/database", maxConnections, timeout)
# Optional pool aging controls
# let rdb = dbOpen(
# PostgreSQL,
# "postgresql://user:password@localhost:5432/database",
# maxConnections,
# timeout,
# maxConnectionLifetime = 300,
# maxConnectionIdleTime = 300,
# )
# Using positional arguments
# let rdb = dbOpen(PostgreSQL, "database", "user", "password", "localhost", 5432, maxConnections, timeout)
# SQLite
# let rdb = dbOpen(SQLite3, "/path/to/db.sqlite3", maxConnections, timeout)
# let rdb = dbOpen(SQLite3, ":memory:", maxConnections, timeout)
# MySQL / MariaDB
# let rdb = dbOpen(MySQL, "mysql://user:password@localhost:3306/database", maxConnections, timeout)
# let rdb = dbOpen(MariaDB, "mariadb://user:password@localhost:3306/database", maxConnections, timeout)
```
## SELECT
[to index](#index)
When it returns following table
|id|float|char|datetime|null|is_admin|
|---|---|---|---|---|---|
|1|3.14|char|2019-01-01 12:00:00.1234||1|
### return JsonNode
```nim
import allographer/query_builder
echo rdb.table("test")
.select("id", "float", "char", "datetime", "null", "is_admin")
.get()
.await
```
```nim
>> @[
{
"id": 1, # JInt
"float": 3.14, # JFloat
"char": "char", # JString
"datetime": "2019-01-01 12:00:00.1234", # JString
"null": null # JNull
"is_admin": true # JBool
}
]
```
### return Object
If object is defined and set arg for `orm`, response will be an object as ORM
```nim
import allographer/query_builder
type Typ = ref object
id: int
float: float
char: string
datetime: string
null: string
is_admin: bool
var rows = rdb.table("test")
.select("id", "float", "char", "datetime", "null", "is_admin")
.get()
.orm(Typ)
.await
```
```nim
echo rows[0].id
>> 1 # int
echo rows[0].float
>> 3.14 # float
echo rows[0].char
>> "char" # string
echo rows[0].datetime
>> "2019-01-01 12:00:00.1234" # string
echo rows[0].null
>> "" # string
echo rows[0].is_admin
>> true # bool
```
If DB response is empty, `get` return empty seq, `find` and `first` return optional object.
```nim
let response = await rdb.table("test").get().orm(Typ).await
assert response.len == 0
let response = await rdb.raw("select * from users").get().orm(Typ).await
assert response.len == 0
let response = await rdb.table("test").find(1).orm(Typ).await
assert response.type == Option[Typ]
assert response.isSome == false
let response = await rdb.table("test").first().orm(Typ).await
assert response.type == Option[Typ]
assert response.isSome == false
```
### get
Retrieving all row from a table
```nim
let users = rdb.table("users").get().await
for user in users:
echo user["name"]
```
### first
Retrieving a single row from a table. This returns `Option[JsonNode]`
```nim
let user = rdb
.table("users")
.where("name", "=", "John")
.first()
.await
if user.isSome:
echo user.get["name"]
```
### find
Retrieve a single row by its primary key. This returns `Option[JsonNode]`
```nim
let user = rdb.table("users").find(1).await
if user.isSome:
echo user.get["name"]
```
If the column name of a promary key is not "id", specify this in 2nd arg of `find`
```nim
let user = rdb.table("users").find(1, "user_id").await
if user.isSome:
echo user.get["name"]
```
### columns
Retrieve columns from table.
```nim
let columns = rdb.table("users").columns().await
columns == @["id", "name", "email"]
```
### join
```nim
let users = rdb
.table("users")
.select("users.id", "contacts.phone", "orders.price")
.join("contacts", "users.id", "=", "contacts.user_id")
.join("orders", "users.id", "=", "orders.user_id")
.get()
.await
```
### where
```nim
let users = rdb.table("users").where("age", ">", 25).get().await
```
### orWhere
```nim
let users = rdb
.table("users")
.where("age", ">", 25)
.orWhere("name", "=", "John")
.get()
.await
```
### whereBetween
```nim
let users = rdb
.table("users")
.whereBetween("age", [25, 35])
.get()
.await
```
### whereNotBetween
```nim
let users = rdb
.table("users")
.whereNotBetween("age", [25, 35])
.get()
.await
```
### whereIn
```nim
let users = rdb
.table("users")
.whereIn("id", @[1, 2, 3])
.get()
.await
```
### whereNotIn
```nim
let users = rdb
.table("users")
.whereNotIn("id", @[1, 2, 3])
.get()
.await
```
### whereNull
```nim
let users = rdb
.table("users")
.whereNull("updated_at")
.get()
.await
```
### groupBy_having
```nim
let users = rdb
.table("users")
.group_by("count")
.having("count", ">", 100)
.get()
.await
```
### orderBy
```nim
let users = rdb
.table("users")
.orderBy("name", Desc)
.get()
.await
```
2nd arg of `orderBy` is Enum. `Desc` or `Asc`
### limit_offset
```nim
let users = rdb
.table("users")
.offset(10)
.limit(5)
.get()
.await
```
### paginate
```nim
rdb.table("users").delete(2).await
let users = rdb
.table("users")
.select("id", "name")
.paginate(3, 1)
.await
```
arg1... Numer of items per page
arg2... Numer of page(option)(1 is set by default)
```nim
echo users
>> {
"count":3,
"currentPage":[
{"id":1,"name":"user1"},
{"id":3,"name":"user3"},
{"id":4,"name":"user4"}
],
"hasMorePages":true,
"lastPage":3,
"nextPage":2,
"perPage":3,
"previousPage":1,
"total":9
}
```
|ATTRIBUTE|DESCRIPTION|
|---|---|
|count|number of results on the current page|
|currentPage|results of current page|
|hasMorePages|Returns `True` if there is more pages else `False`|
|lastPage|The number of the last page|
|nextPage|The number of the next page if it exists else equel to lastPage|
|perPage|The number of results per page|
|previousPage|The number of the previous page if it exists else 1|
|total|The total number of results|
### fastPaginate
It run faster than `paginate()` because it doesn't use `offset`.
|sample URL|usage|result items|
|---|---|---|
|/users?items=5|`fastPaginate(5)`|1,2,3,4,5|
|/users?items=5&since=6|`fastPaginateNext(5, 6)`|6,7,8,9,10|
|/users?items=5&until=5|`fastPaginateBack(5, 5)`|1,2,3,4,5|
```nim
proc fastPaginate(this:Rdb, display:int, key="id", order:Order=Asc): JsonNode
```
- display...Numer of items per page.
- key...Name of a primary key column (option). default is `id`.
- order...Asc or Desc (option). default is `Asc`.
```nim
proc fastPaginateNext(this:Rdb, display:int, id:int, key="id", order:Order=Asc): JsonNode
proc fastPaginateBack(this:Rdb, display:int, id:int, key="id", order:Order=Asc): JsonNode
```
- display...Numer of items per page.
- id...Value of primary key. It should be larger than 0.
- key...Name of a primary key column (option). default is `id`.
- order...Asc or Desc (option). default is `Asc`.
```nim
var users = rdb.table("users").select("id", "name").fastPaginate(3).await
>> {
"previousId":0,
"hasPreviousId": false,
"currentPage":[
{"id":1,"name":"user1"},
{"id":2,"name":"user2"},
{"id":3,"name":"user3"},
],
"nextId":4,
"hasNextId": true
}
```
```nim
users = rdb.table("users")
.select("id", "name")
.fastPaginateNext(3, users["nextId"].getInt)
.await
>> {
"previousId":4,
"hasPreviousId": true,
"currentPage":[
{"id":5,"name":"user5"},
{"id":6,"name":"user6"},
{"id":7,"name":"user7"}
],
"nextId":8,
"hasNextId": true
}
```
```nim
users = rdb.table("users")
.select("id", "name")
.fastPaginateBack(3, users["previousId"].getInt)
.await
>> {
"previousId":0,
"hasPreviousId": false,
"currentPage":[
{"id":1,"name":"user1"},
{"id":2,"name":"user2"},
{"id":3,"name":"user3"},
],
"nextId":4,
"hasNextId": true
}
```
order Desc
```nim
echo rdb.table("users")
.select("id", "name")
.fastPaginateNext(3, 5, order=Desc)
.await
>> {
"previousId":6,
"hasPreviousId":true,
"currentPage":[
{"id":5,"name":"user5"},
{"id":4,"name":"user4"},
{"id":3,"name":"user3"}
],
"nextId":2,
"hasNextId":true
}
```
paginate with `join` and `where`
```nim
echo rdb.table("users")
.select("users.id", "users.name", "users.auth_id")
.join("auth", "auth.id", "=", "users.auth_id")
.where("auth.id", "=", 2)
.fastPaginate(3, key="users.id")
.await
>> {
"previousId":0,
"hasPreviousId":false,
"currentPage":[
{"id":4,"name":"user4","auth_id":2},
{"id":6,"name":"user6","auth_id":2},
{"id":8,"name":"user8","auth_id":2}
],
"nextId":8,
"hasNextId":true
}
```
## INSERT
[to index](#index)
```nim
import allographer/query_builder
rdb.table("users").insert(%*{
"name": "John",
"email": "John@gmail.com"
})
.await
>> INSERT INTO users (name, email) VALUES ("John", "John@gmail.com")
```
```nim
import allographer/query_builder
rdb.table("users").insert(
@[
%*{"name": "John", "email": "John@gmail.com", "address": "London"},
%*{"name": "Paul", "email": "Paul@gmail.com", "address": "London"},
%*{"name": "George", "email": "George@gmail.com", "address": "London"},
]
)
.await
>> INSERT INTO users (name, email, address) VALUES ("John", "John@gmail.com", "London"), ("Paul", "Paul@gmail.com", "London"), ("George", "George@gmail.com", "London")
```
```nim
import allographer/query_builder
echo rdb.table("users").insert(
@[
%*{"name": "John", "email": "John@gmail.com", "address": "London"},
%*{"name": "Paul", "email": "Paul@gmail.com", "address": "London"},
%*{"name": "George", "birth_date": "1943-02-25", "address": "London"},
]
)
.await
>> INSERT INTO users (name, email, address) VALUES ("John", "John@gmail.com", "London")
>> INSERT INTO users (name, email, address) VALUES ("Paul", "Paul@gmail.com", "London")
>> INSERT INTO users (name, birth_date, address) VALUES ("George", "1960-1-1", "London")
```
### Return ID Insert
```nim
import allographer/query_builder
echo rdb.table("users").insertId(%*{
"name": "John",
"email": "John@gmail.com"
})
.await
>> INSERT INTO users (name, email) VALUES ("John", "John@gmail.com")
>> 1 # ID of new row is return
```
```nim
import allographer/query_builder
echo rdb.table("users").insertId(
@[
%*{"name": "John", "email": "John@gmail.com", "address": "London"},
%*{"name": "Paul", "email": "Paul@gmail.com", "address": "London"},
%*{"name": "George", "email": "George@gmail.com", "address": "London"},
]
)
.await
>> INSERT INTO users (name, email, address) VALUES ("John", "John@gmail.com", "London"), ("Paul", "Paul@gmail.com", "London"), ("George", "George@gmail.com", "London")
>> @[1, 2] # Seq of ID of new row is return
```
```nim
import allographer/query_builder
echo rdb.table("users").insertId(
@[
%*{"name": "John", "email": "John@gmail.com", "address": "London"},
%*{"name": "Paul", "email": "Paul@gmail.com", "address": "London"},
%*{"name": "George", "birth_date": "1943-02-25", "address": "London"},
]
)
.await
>> INSERT INTO users (name, email, address) VALUES ("John", "John@gmail.com", "London")
>> INSERT INTO users (name, email, address) VALUES ("Paul", "Paul@gmail.com", "London")
>> INSERT INTO users (name, birth_date, address) VALUES ("George", "1960-1-1", "London")
>> @[1, 2, 3] # Seq of ID of new row is return
```
## UPDATE
[to index](#index)
```nim
import allographer/query_builder
rdb
.table("users")
.where("id", "=", 100)
.update(%*{"name": "Mick", "address": "NY"})
.await
>> UPDATE users SET name = "Mick", address = "NY" WHERE id = 100
```
## DELETE
[to index](#index)
```nim
import allographer/query_builder
rdb
.table("users")
.delete(1)
.await
>> DELETE FROM users WHERE id = 1
```
If column name of primary key is not exactory "id", you can specify it's name.
```nim
import allographer/query_builder
rdb
.table("users")
.delete(1, key="user_id")
.await
>> DELETE FROM users WHERE user_id = 1
```
```nim
import allographer/query_builder
rdb
.table("users")
.where("address", "=", "London")
.delete()
.await
>> DELETE FROM users WHERE address = "London"
```
## Plain Response
[to index](#INDEX)
`Plain` response doesn't have it's column name but it run faster than `JsonNode` response
```nim
echo rdb.table("users").get().await
>> @[
%*{"id": 1, "name": "user1", "email": "user1@gmail.com"},
%*{"id": 2, "name": "user2", "email": "user2@gmail.com"},
%*{"id": 3, "name": "user3", "email": "user3@gmail.com"}
]
echo rdb.table("users").getPlain().await
>> @[
@["1", "user1", "user1@gmail.com"],
@["2", "user2", "user2@gmail.com"],
@["3", "user3", "user3@gmail.com"],
]
```
```nim
echo rdb.table("users").find(1).await
>> %*{"id": 1, "name": "user1", "email": "user1@gmail.com"}
echo rdb.table("users").findPlain(1).await
>> @["1", "user1", "user1@gmail.com"]
```
```nim
echo rdb.table("users").first().await
>> %*{"id": 1, "name": "user1", "email": "user1@gmail.com"}
echo rdb.table("users").firstPlain().await
>> @["1", "user1", "user1@gmail.com"]
```
## Raw SQL
[to index](#INDEX)
```nim
import allographer/query_builder
let sql = """
SELECT ProductName
FROM Product
WHERE Id IN (SELECT ProductId
FROM OrderItem
WHERE Quantity > 100)
"""
echo rdb.raw(sql).get().await
echo rdb.raw(sql).getPlain().await
echo rdb.raw(sql).first().await
echo rdb.raw(sql).firstPlain().await
```
```nim
let sql = "UPDATE users SET name = ? where id = ?"
rdb.raw(sql, "John", "1").exec().await
```
## Prepared Statement
[to index](#index)
```nim
import allographer/query_builder
let selectStmt = rdb.prepare("""SELECT "id", "name" FROM "users" WHERE "id" = ?""")
let updateStmt = rdb.prepare("""UPDATE "users" SET "name" = ? WHERE "id" = ?""")
let row = await selectStmt.first(@["1"])
await updateStmt.exec(@["John", "1"])
# close() is logical close.
await selectStmt.close()
await updateStmt.close()
```
SurrealDB では server-side prepare ではなく、`LET` を使った client-side template reuse として同じ API を提供します。
In PostgreSQL, a context API can be used to ensure multiple operations use the same connection.
```nim
await rdb.withConn(
proc(ctx: PostgresPreparedContext): Future[void] {.async.} =
discard await selectStmt.first(ctx, @["1"])
await updateStmt.exec(ctx, @["John", "1"])
)
```
In PostgreSQL, APIs to physically clear the prepared statement cache are also available.
```nim
await rdb.flushStmt("""SELECT "id", "name" FROM "users" WHERE "id" = ?""")
await rdb.clearStmtCache()
```
## Aggregates
[to index](#index)
Except of `count`, these functions return `Option` type.
```nim
import allographer/query_builder
echo rdb.table("users").count().await
>> 10 # int
let response = await rdb.table("users").max("name").await
if response.isSome:
echo response.get
>> "user9" # string
let response = await rdb.table("users").max("id").await
if response.isSome:
echo response.get
>> "10" # string
let response = await rdb.table("users").min("name").await
if response.isSome:
echo response.get
>> "user1" # string
let response = await rdb.table("users").min("id").await
if response.isSome:
echo response.get
>> "1" # string
let response = await rdb.table("users").avg("id").await
if response.isSome:
echo response.get
>> 5.5 # float
let response = await rdb.table("users").sum("id").await
if response.isSome:
echo response.get
>> 55.0 # float
```
## Transaction
[to index](#index)
```nim
transaction:
var user = rdb.table("users").select("id").where("name", "=", "user3").first().await
if user.isSome:
var id = user.get["id"].getInt()
echo id
user = rdb.table("users").select("name", "email").find(id).await
if user.isSome:
echo user.get
```
If all code in transaction block success, `COMMIT` is run otherwise `ROLLBACK`