@wunderlink/streamsql
v0.9.0
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Streaming SQL ORM
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streamsql
A streaming, backend agnostic SQL ORM heavily inspired by levelup
Install
$ npm install streamsql
You will also need to install either mysql
or sqlite3
depending on which driver you plan on using:
# EITHER: mysql driver
$ npm install mysql
# OR: sqlite3 driver
$ npm install sqlite3
API
Base
- base.connect()
DB
- db.table()
- relationships
Table
- table.put()
- table.get()
- table.getOne()
- table.getAll()
- table.del()
- table.createReadStream()
- table.createKeyStream()
- table.createWriteStream()
base.connect(options)
Establish a database connection
options.driver
can either be mysql
or sqlite3
.
Super Important Note
streamsql
loads drivers on demand and does not include them as production dependencies. You will need to have either one mysql
(tested against 2.0.0-alpha9
) or sqlite3
(tested against 2.1.19
) in your package.json in addition to streamsql
.
mysql options
See the documentation for the mysql module for full details. The options
object will be passed over to that.
const streamsql = require('streamsql')
const db = streamsql.connect({
driver: 'mysql',
user: process.env['DB_USER'],
password: process.env['DB_PASSWORD'],
database: 'music'
})
sqlite3 options
Takes just one option, opts.filename
. This can be set to :memory:
for an in-memory database.
const streamsql = require('streamsql')
const db = streamsql.connect({
driver: 'sqlite3',
filename: ':memory:',
})
Returns a db
object
db.table(localName, definition)
Registers a table against the internal table cache. Note, this does not create the table in the database (nor does it run any SQL at all).
localName
is the name the table will be registered under. You can use this later with connection.table()
to get a handle for the table.
definition
primaryKey
: the primary key for the table. Defaults toid
tableName
: the name of the table in the actual database. Defaults tolocalName
fields
: an array representing all the fields this table has. Example:['id', 'first_name', 'last_name', 'created_at']
methods
: (optional) methods to add to a row object as it gets emitted from the database (when using the defaultconstructor
).this
in the function context will be a reference to the row. Example:
db.table('friendship', {
fields: [ 'id', 'screen_name', 'friend' ],
methods: {
hifive: function hifive() {
return this.screen_name + ' deserves a hifive!'
}
}
})
constructor
: (optional) method to call when creating a row object as it gets emitted from the database. The default constructor should be sufficient for most scenarios, which returns the data combined with any givenmethods
. Example:
function Friendship (data) {
this.id = data.id
this.screen_name = data.screen_name
this.friend = data.friend
}
Friendship.prototype.hifive = function () {
return this.screen_name + ' deserves a hifive!'
}
db.table('friendship', {
fields: [ 'id', 'screen_name', 'friend' ],
constructor: Friendship
})
options.relationships
You can define relationships on the data coming out createReadStream
, get
or getOne
. hasOne
relationships will translate to JOIN
s at the SQL layer, and hasMany
will perform an additional query.
options.relationships
is an object, keyed by property. The property name will be used when attaching the foreign rows to the main row.
type
: Either"hasOne"
or"hasMany"
.foreign
: Definition for the right side of the join.table
: The name of the table. This should be the name you used to register the table withdb.table
.as
: How to alias the table when performing the join. This is mostly useful when doing a self-join on a table so you don't get an ambiguity error. Defaults to the name of the table.key
: The foreign key to use.
local
: Definition for the left side of the join. If you're just joining on a key normally found in the current table, this can be a string. If you are doing a cascading join (i.e., joining against a field acquired from a different join) you can use an object here:table
: The name of the table. Important if you aliased the table withas
, use the alias here.key
: Key to use
via
: Used for many-to-many relationships, where a third table is required to maintain data associations:table
: The name of the linking table, as registered withdb.table
.local
: The key in the linking table associated with the local table.foreign
: The key in the linking table associated with the foreign table.
optional
: Whether or not the relationship is optional (INNER vs LEFT join). Defaults tofalse
.
The results of the fulfilled relationship will be attached to the main row by their key in the relationships
object. All foreign items will have their methods as you defined them when setting up the table with db.table
, or use their configured constructor
where applicable.
Example
band
table
id | name | founded | disbanded
---|---------------|---------|-----------
1 | Squirrel Bait | 1983 | 1988
2 | Slint | 1986 | 1992
album
table
id | bandId | name | released
---|--------|---------------|----------
1 | 1 | Squirrel Bait | 1985
2 | 1 | Skag Heaven | 1987
3 | 2 | Tweez | 1989
4 | 2 | Spiderland | 1991
member
table
id | firstName | lastName
---|-----------|----------
1 | Brian | McMahon
2 | David | Pajo
3 | Todd | Brashear
4 | Britt | Walford
bandMember
table
id | bandId | memberId
---|--------|----------
1 | 1 | 1
2 | 1 | 4
3 | 2 | 1
4 | 2 | 2
5 | 2 | 3
6 | 2 | 4
const band = db.table('band', {
fields: [ 'name', 'founded', 'disbanded' ],
relationships: {
albums: {
type: 'hasMany',
local: 'id',
foreign: { table: 'album', key: 'bandId' }
},
members: {
type: 'hasMany',
local: 'id',
foreign: { table: 'member', key: 'id' },
via: { table: 'bandMember', local: 'bandId', foreign: 'memberId' }
}
}
})
const album = db.table('album', {
fields: [ 'bandId', 'name', 'released' ]
})
const member = db.table('member', {
fields: [ 'firstName', 'lastName' ],
relationships: {
bands: {
type: 'hasMany',
local: 'id',
foreign: { table: 'band', key: 'id' },
via: { table: 'bandMember', local: 'memberId', foreign: 'bandId' }
}
}
})
const bandMember = db.table('bandMember', {
fields: [ 'bandId', 'memberId' ]
})
// NOTE: for efficiency, relationships are not automatically populated.
// You must pass { relationships: `true` } to fulfill the relationships
// defined on the table at time of `get` or `createReadStream`
band.get({}, {
debug: true,
relationships: true
}, function (err, rows) {
console.dir(rows)
})
Will result in:
[ { id: 1,
name: 'Squirrel Bait',
founded: 1983,
disbanded: 1988,
albums:
[ { id: 1, bandId: 1, name: 'Squirrel Bait', released: 1985 },
{ id: 2, bandId: 1, name: 'Skag Heaven', released: 1987 } ],
members:
[ { id: 1, firstName: 'Brian', lastName: 'McMahon' },
{ id: 4, firstName: 'Britt', lastName: 'Walford' } ] },
{ id: 2,
name: 'Slint',
founded: 1986,
disbanded: 1992,
albums:
[ { id: 3, bandId: 2, name: 'Tweez', released: 1989 },
{ id: 4, bandId: 2, name: 'Spiderland', released: 1991 } ],
members:
[ { id: 1, firstName: 'Brian', lastName: 'McMahon' },
{ id: 2, firstName: 'David', lastName: 'Pajo' },
{ id: 3, firstName: 'Todd', lastName: 'Brashear' },
{ id: 4, firstName: 'Britt', lastName: 'Walford' } ] } ]
Returns a table
object.
db.table(localName)
Return a previously registered table. If the table is not in the internal cache, db.table
will throw an error.
Returns a table
object.
table.put(row, [options, [callback]])
Inserts or updates a single row. If callback
is not provided, returns a promise.
An insert will always be attempted first. If the insert fails with an duplicate entry error (as tested by the specific driver implementation) and the row contains the table's primaryKey, an update will be attempted
callback
will receive two arguments: err
, result
. Result should have three properties, row
, sql
, and insertId
. This behavior can be changed with the uniqueKey
option, see below.
If the result of a put()
is an update, the result will have affectedRows
instead of insertId
.
options
uniqueKey
: This option changes the way aput()
turns into anupdate()
. Instead of checking for a duplicate primary key error, it will check for duplicate unique key errors. For example, if you have a table withUNIQUE KEY (
firstName,
lastName)
, you can do:users.put({ firstName: 'John', lastName: 'Doe', age: 33, }, {uniqueKey: ['John', 'Doe']})
table.get(conditions, [options, [callback]])
table.getOne(conditions, [options, [callback]])
table.getAll([options, [callback]])
Gets all, some, or one row from the table. If callback
is not provided omitted, returns a promise.
Example:
// Get all rows, promise style...
const getAlbums = albums.getAll()
getAlbums.then(function(albums){
// do stuff with albums
}).error(function(err){
// handle errors
})
// ...or use callback style
albums.getAll(function(error, albums){
if (error) {
// handle errors
return;
}
// do stuff with albums
})
conditions
conditions
can be in any number of forms depending on how you're trying to select things
Simple, uses =
for comparison:
albums.get({ artist: 'Hookworms' }, function(err, rows){ ... })
Explicit comparison operation:
albums.get({
artist: {
value: 'Hookworms',
operation: '=',
},
release_year: {
operation: '<=',
value: 2012
}
}, function(err, rows){ ... })
Implicit in
comparison:
albums.get({
artist: [
'My Bloody Valentine',
'Slowdive',
'Ride'
]
}, function(err, rows){ ... })
Multiple conditions on a single column:
albums.get({
artist: 'David Bowie',
release_year: [{
operation: '>=',
value: 1976
}, {
operation: '<='
value: 1978
}]
}, function(err, rows){ ... })
**Simple OR
queries
All of the examples above are inclusive – the where statement is joined with AND
– so the row must match all of the parameters to be included. However, by passing in multiple conditions in an array, it is possible to generate an OR
query.
albums.get([
{
artist: ['Queen', 'Pink Floyd'],
release_year: 1975
},
{
artist: ['Electric Light Orchestra', 'Led Zeppelin'],
release_year: 1973
}
], function(err, rows){ ... })
Raw sql
There's a final option that lets you do whatever you want. Note, you can use $table
as a placeholder for the current table so you don't have to hardcode it.
albums.get([
'SELECT `release_date` AS `date` FROM $table WHERE `title` = ? AND `artist`= ?',
['Siamese Dream', 'The Smashing Pumpkins']
], function(err, rows){ ... })
options
include
: Rows to select from the database. Any rows not in this list will not be included. Note, the primary key will always be included. By default, everything listed intable.fields
will be included.exclude
: Rows in this list will not be selected from the database. If bothinclude
andexclude
are defined,include
is always preferredrelationships
: Either boolean or a set of relationship definition.relationshipsDepth
: Depth of relationships to fulfil; the default is1
- that is, only the relationships of the requested object are returned.-1
will attempt to retrieve as many relationships as is reasonably possible.sort
: Can be one of three forms:- Implicit ascending, single column: {sort: 'artist'}
- Implicit ascending, multiple rows: {sort: ['artist', 'release_date']
- Explicit: {sort: { artist: 'desc', release_date: 'asc'}}
limit
andpage
: How many rows and which page of results to get. Example:{limit: 25, page: 3}
includeTotal
: Instead of returning an array of rows, return an object that includesrows
andtotal
, which represents the total amount of rows. This is useful when usinglimit
andpage
.debug
: When set to true, the generated SQL statement will be printed tostderr
.
table.del(conditions, options, [callback])
Deletes rows from the database. If callback
is omitted, returns a promise.
Be careful – you can truncate an entire table with this command.
garbage.del({}, function(err){
// garbage is now empty.
})
conditions
: see aboveoptions
:limit
: maximum number of rows to delete
table.createReadStream(conditions, options)
Create a ReadStream for the table.
conditions
: see aboveoptions
: see above
pause() and resume()
pause()
and resume()
will attempt to operate on the underlying connection when applicable, such as with the mysql driver)
Events
data
: Receives one argument,row
.error
: If there is an error, it will be emitted here.end
: When the stream is complete.
table.createKeyStream(conditions)
Emits a data
event for each row with just the primary key of that row.
See above for definition of conditions
table.createWriteStream(options)
Creates a WriteStream to the table.
The write()
method on the stream takes row data. When a row is successfully written, a meta
event is emitted and passed a meta
object containing row
, sql
and insertId
An internal buffer is not kept, so all calls to write()
s will return false
to signal a ReadStream to pause()
. Once a row has been succesfully stored, a drain
event will be emitted.
If options.ignoreDupes
, any duplicate key errors will be ignored instead of emitting an error
event. Ignored rows will be emitted as dupe
events.
Example
const ws = band.createWriteStream()
ws.on('error', function (err) {
console.log('Oh my!', err)
})
ws.on('close', function () {
console.log('Done!')
})
ws.write({ name: 'Brian', instrument: 'bass', food: 'burritos' })
ws.write({ name: 'Jeremy', instrument: 'drums', food: 'cheese' })
ws.write({ name: 'Travis', instrument: 'tambourine', food: 'tofu' })
ws.end()
License
MIT
Copyright (c) 2013 Brian J. Brennan
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.