clear

ORM specialized to PostgreSQL only but with advanced features orm postgres sql database
0.9 Latest release released
anykeyh/clear
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Yacine Petitprez

clear

Clear

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Clear is an ORM built specifically for PostgreSQL in Crystal.

It's probably the most advanced ORM for PG on Crystal in term of features offered. It features Active Record pattern models, and a low-level SQL builder.

You can deal out of the box with jsonb, tsvectors, cursors, CTE, bcrypt password, array, uuid primary key, foreign constraints... and other things ! It also has a powerful DSL to construct where and having clauses.

The philosophy beneath is to please me (and you !) with emphasis made on business code readability and minimal setup.

The project is quite active and well maintened, too !

Resources

Why to use Clear ?

In few seconds, you want to use Clear if:

  • [X] You want an expressive ORM. Put straight your thought to your code !
  • [X] You'd like to use advanced Postgres features without hassle
  • [X] You are aware of the pros and cons of the Active Records pattern

You don't want to use Clear if:

  • [ ] You're not willing to use PostgreSQL
  • [ ] You're looking for a minimalist ORM / Data Mapper
  • [ ] You need something which doesn't evolve, with breaking changes. Clear is still in alpha but starting to mature !

Features

  • Active Record pattern based ORM
  • Expressiveness as mantra - even with advanced features like jsonb, regexp... -
  # Like ...
  Product.query.where{ ( type == "Book" ) & ( metadata.jsonb("author.full_name") == "Philip K. Dick" ) }
  # ^--- will use @> operator, to relay on your gin index. For real.

  Product.query.where{ ( products.type == "Book" ) & ( products.metadata.jsonb("author.full_name") != "Philip K. Dick" ) }
  # ^--- this time will use -> notation, because no optimizations possible :/

  # Or...
  User.query.where{ created_at.in? 5.days.ago .. 1.day.ago }

  # Or even...
  ORM.query.where{ ( description =~ /(^| )awesome($| )/i ) }.first!.name # Clear! :-)
  • Proper debug information
    • Log and colorize query. Show you the last query if your code crash !
    • If failing on compile for a good reason, give proper explaination (or at least try)
  • Migration system
  • Validation system
  • N+1 query avoidance strategy
  • Transaction, rollback & savepoint
  • Access to CTE, locks, cursors, scope, pagination, join, window, multi-connection and many others features
  • Model lifecycle/hooks
  • JSONB, UUID, FullTextSearch

Installation

In shards.yml

dependencies:
  clear:
    github: anykeyh/clear
    branch: master

Then:

  require "clear"

Model definition

Clear offers some mixins, just include them in your classes to clear them:

Column mapping


class User
  include Clear::Model

  column id : Int64, primary: true

  column email : String

  column first_name : String?
  column last_name : String?

  column encrypted_password : Crypto::Bcrypt::Password

  def password=(x)
    self.encrypted_password = Crypto::Bcrypt::Password.create(password)
  end
end

Column types

  • Number, String, Time, Boolean and Jsonb structures are already mapped.
  • Numeric (arbitrary precision number) is also supported
  • Array of primitives too. For other type of data, just create your own converter !
class Clear::Model::Converter::MyClassConversion
  def self.to_column(x) : MyClass?
    case x
    when String
      MyClass.from_string(x)
    when Slice(UInt8)
      MyClass.from_slice(x)
    else
      raise "Cannot convert from #{x.class} to MyClass"
    end
  end

  def self.to_db(x : UUID?)
    x.to_s
  end
end

Clear::Model::Converter.add_converter("MyClass", Clear::Model::Converter::MyClassConversion)
Column presence

Most of the ORM for Crystal are mapping column type as Type | Nil union. It makes sens so we allow selection of some columns only of a model. However, this have a caveats: columns are still accessible, and will return nil, even if the real value of the column is not null !

Moreover, most of the developers will enforce nullity only on their programming language level via validation, but not on the database, leading to inconsistency.

Therefore, we choose to throw exception whenever a column is accessed before it has been initialized and to enforce presence through the union system of Crystal.

Clear offers this through the use of column wrapper. Wrapper can be of the type of the column as in postgres, or in UNKNOWN state. This approach offers more flexibility:

User.query.select("last_name").each do |usr|
  puts usr.first_name #Will raise an exception, as first_name hasn't been fetched.
end

u = User.new
u.first_name_column.defined? #Return false
u.first_name_column.value("") # Call the value or empty string if not defined :-)
u.first_name = "bonjour"
u.first_name_column.defined? #Return true now !

Wrapper give also some pretty useful features:

u = User.new
u.email = "me@myaddress.com"
u.email_column.changed? # TRUE
u.email_column.revert
u.email_column.defined? # No more

Associations

Clear offers has_many, has_one, belongs_to and has_many through associations:

class Security::Action
  belongs_to role : Role
end

class Security::Role
  has_many user : User
end

class User
  include Clear::Model

  has_one user_info : UserInfo
  has_many posts : Post

  belongs_to role : Security::Role

  # Use of the standard keys (users_id <=> security_role_id)
  has_many actions : Security::Action, through: Security::Role
end

Querying

Clear offers a collection system for your models. The collection system takes origin to the lower API Clear::SQL, used to build requests.

Simple query

Fetch a model

To fetch one model:

# 1. Get the first user
User.query.first #Get the first user, ordered by primary key

# Get a specific user
User.find!(1) #Get the first user, or throw exception if not found.

# Usage of query provides a `find_by` kind of method:
u : User? = User.query.find{ email =~ /yacine/i }
Fetch multiple models

To prepare a collection, juste use Model#query. Collections include SQL::Select object, so all the low level API (where, join, group_by, lock...) can be used in this context.

# Get multiple users
User.query.where{ (id >= 100) & (id <= 200) }.each do |user|
  # Do something with user !
end

#In case you know there's millions of row, use a cursor to avoid memory issues !
User.query.where{ (id >= 1) & (id <= 20_000_000) }.each_cursor(batch: 100) do |user|
  # Do something with user; only 100 users will be stored in memory
  # This method is using pg cursor, so it's 100% transaction-safe
end
Aggregate functions

Call aggregate functions from the query is possible. For complex aggregation, I would recommend to use the SQL::View API (note: Not yet developed), and keep the model query for fetching models only

# count
user_on_gmail = User.query.where{ email.ilike "@gmail.com%" }.count #Note: count return is Int64
# min/max
max_id = User.query.where{ email.ilike "@gmail.com%" }.max("id", Int32)
# your own aggregate
weighted_avg = User.query.agg( "SUM(performance_weight * performance_score) / SUM(performance_weight)", Float64 )
Fetching associations

Associations are basically getter which create predefined SQL. To access to an association, just call it !

User.query.each do |user|
  puts "User #{user.id} posts:"
  user.posts.each do |post| #Works, but will trigger a request for each user.
    puts "• #{post.id}"
  end
end
Caching association for N+1 request

For every association, you can tell Clear to encache the results to avoid N+1 queries, using with_XXX on the collection:

# Will call two requests only.
User.query.with_posts.each do |user|
  puts "User #{user.id} posts:"
  user.posts.each do |post|
    puts "• #{post.id}"
  end
end

Note than Clear doesn't perform a join method, and the SQL produced will use the operator IN on the association.

In the case above:

  • The first request will be
  SELECT * FROM users;
  • Thanks to the cache, a second request will be called before fetching the users:
  SELECT * FROM posts WHERE user_id IN ( SELECT id FROM users )

I have plan in a late future to offer different query strategies for the cache (e.g. joins, unions...)

Associations caching examples

When you use the caching system of the association, using filters on association will invalidate the cache, and N+1 query will happens.

For example:

User.query.with_posts.each do |user|
  puts "User #{user.id} published posts:"
  # Here: The cache system will not work. The cache on association
  # is invalidated by the filter `where`.
  user.posts.where({published: true}).each do |post|
    puts "• #{post.id}"
  end
end

The way to fix it is to filter on the association itself:

User.query.with_posts(&.where({published: true})).each do |user|
  puts "User #{user.id} published posts:"
  # The posts collection of user is already encached with the published filter
  user.posts.each do |post|
    puts "• #{post.id}"
  end
end

Note than, of course in this example user.posts are not ALL the posts but only the published posts

Thanks to this system, we can stack it to encache long distance relations:

# Will cache users<=>posts & posts<=>category
# Total: 3 requests !
User.query.with_posts(&.with_category).each do |user|
  #...
end
Querying computed or foreign columns

In case you want columns computed by postgres, or stored in another table, you can use fetch_column. By default, for performance reasons, fetch_columns option is set to false.

users = User.query.select(email: "users.email",
  remark: "infos.remark").join("infos"){ infos.user_id == users.id }.to_a(fetch_columns: true)

# Now the column "remark" will be fetched into each user object.
# Access can be made using `[]` operator on the model.

users.each do |u|
  puts "email: `#{u.email}`, remark: `#{u["remark"]?}`"
end

Inspection & SQL logging

Inspection

inspect over model offers debugging insights:

  p # => #<Post:0x10c5f6720
          @attributes={},
          @cache=
           #<Clear::Model::QueryCache:0x10c6e8100
            @cache={},
            @cache_activation=Set{}>,
          @content_column=
           "...",
          @errors=[],
          @id_column=38,
          @persisted=true,
          @published_column=true,
          @read_only=false,
          @title_column="Lorem ipsum torquent inceptos"*,
          @user_id_column=5>

In this case, the * means a column is changed and the object is dirty and diverge from the database.

SQL Logging

One thing very important for a good ORM is to offer vision of the SQL called under the hood. Clear is offering SQL logging tools, with SQL syntax colorizing in your terminal.

For activation, simply setup the log to :debug level

::Log.builder.bind "clear.*", Log::Severity::Debug, Log::IOBackend.new

Save & validation

Save

Object can be persisted, saved, updated:

u = User.new
u.email = "test@example.com"
u.save! #Save or throw if unsavable (validation failed).

Columns can be checked & reverted:

u = User.new
u.email = "test@example.com"
u.email_column.changed? # < Return "true"
u.email_column.revert # Return to #undef.

Validation

Presence validator

Presence validator is done using the type of the column:

class User
  include Clear::Model

  column first_name : String # Must be present
  column last_name : String? # Can be null
end
NOT NULL DEFAULT ... CASE

There's a case when a column CAN be null inside Crystal, if not persisted, but CANNOT be null inside Postgres.

It's for example the case of the id column, which take value after saving !

In this case, you can write:

class User
    column id : Int64, primary: true, presence: false #id will be set using pg serial !
end

Thus, in all case this will fail:

u = User.new
u.id # raise error
Other validators

When you save your model, Clear will call first the presence validators, then call your custom made validators. All you have to do is to reimplement the validate method:

class MyModel
#...
  def validate
    # Your code goes here
  end
end

Validation fails if model#errors is not empty:

  class MyModel
    #...
    def validate
      if first_name_column.defined? && first_name != "ABCD" #< See below why `defined?` must be called.
        add_error("first_name", "must be ABCD!")
      end
    end
  end
Unique validator

Please use unique feature of postgres. Unique validator at crystal level is a non-go and lead to terrible race concurrency issues if your deploy on multiple nodes/pods. It's an anti-pattern and must be avoided at any cost.

The validation and the presence system

In the case you try validation on a column which has not been initialized, Clear will complain, telling you you cannot access to the column. Let's see an example here:

class MyModel
  #...
  def validate
    add_error("first_name", "should not be empty") if first_name == ""
  end
end

MyModel.new.save! #< Raise unexpected exception, not validation failure :(

This validator will raise an exception, because first_name has never been initialized. To avoid this, we have many way:

# 1. Check presence:

def validate
  if first_name_column.defined? #Ensure we have a value here.
    add_error("first_name", "should not be empty") if first_name == ""
  end
end

# 2. Use column object + default value
def validate
  add_error("first_name", "should not be empty") if first_name_column.value("") == ""
end

# 3. Use the helper macro `on_presence`
def validate
  on_presence(first_name) do
    add_error("first_name", "should not be empty") if first_name == ""
  end
end

#4. Use the helper macro `ensure_than`
def validate
  ensure_than(first_name, "should not be empty", &.!=(""))
end

#5. Use the `ensure_than` helper (but with block notation) !
def validate
  ensure_than(first_name, "should not be empty") do |column|
    column != ""
  end
end

I recommend the 4th method in most of the cases you will faces. Simple to write and easy to read !

Migration

Clear offers of course a migration system.

Migration should have an order column set. This number can be wrote at the end of the class itself:

class Migration1
  include Clear::Migration

  def change(dir)
    #...
  end
end

Using filename

Another way is to write down all your migrations one file per migration, and naming the file using the [number]_migration_description.cr pattern. In this case, the migration class name doesn't need to have a number at the end of the class name.

# in src/db/migrations/1234_create_table.cr
class CreateTable
  include Clear::Migration

  def change(dir)
    #...
  end
end

Migration examples

Migration must implement the method change(dir : Migration::Direction)

Direction is the current direction of the migration (up or down). It provides few methods: up?, down?, up(&block), down(&block)

You can create a table:

  def change(dir)
    create_table(:test) do |t|
      t.column :first_name, :string, index: true
      t.column :last_name, :string, unique: true

      t.index "lower(first_name || ' ' || last_name)", using: :btree

      t.timestamps
    end
  end

Constraints

I strongly encourage to use the foreign key constraints of postgres for your references:

  t.references to: "users", on_delete: "cascade", null: false

There's no plan to offer on Crystal level the on_delete feature, like dependent in ActiveRecord. That's a standard PG feature, just set it up in migration

Performances

Models add a layer of computation. Below is a sample with a very simple model (two integer column ), with fetching of 100k rows over 1M rows database, using --release flag:

| Method | | Total time | Speed | | --------------------------:|-------:|-----------------------|-------------:| | Simple load 100k | 12.04 | ( 83.03ms) (± 3.87%) | 2.28× slower | | With cursor | 8.26 | ( 121.0ms) (± 1.25%) | 3.32× slower | | With attributes | 10.30 | ( 97.12ms) (± 4.07%) | 2.67× slower | | With attributes and cursor | 7.55 | (132.52ms) (± 2.39%) | 3.64× slower | | SQL only | 27.46 | ( 36.42ms) (± 5.05%) | fastest |

  • Simple load 100k is using an array to fetch the 100k rows.
  • With cursor is querying 1000 rows at a time
  • With attribute setup a hash to deal with unknown attributes in the model (e.g. aggregates)
  • With attribute and cursor is doing cursored fetch with hash attributes created
  • SQL only build and execute SQL using SQL::Builder

As you can see, it takes around 100ms to fetch 100k rows for this simple model (SQL included). If for more complex model, it would take a bit more of time, I think the performances are quite reasonable, and tenfold or plus faster than Rails's ActiveRecord.

Licensing

This shard is provided under the MIT license.

Contribution

All contributions are welcome ! As a specialized ORM for PostgreSQL, be sure a great contribution on a very specific PG feature will be incorporated to this shard. I hope one day we will cover all the features of PG here !

Running Tests

In order to run the test suite, you will need to have the PostgresSQL service locally available via a socket for access with psql. psql will attempt to use the 'postgres' user to create the test database. If you are working with a newly installed database that may not have the postgres user, this can be created with createuser -s postgres.

Contributors ✨

Thanks goes to these wonderful people (emoji key):


Russ Smith

💻

Elias Perez

📖

Jeremy Woertink

💻

Anton Maminov

💻

remydev

📖

Jack Turnbull

🐛

Blacksmoke16

💻

luigi

💻

Matthias Zauner

🐛

Weston Ganger

📖

Pynix Wang

💻

Vici37

💻

Niklas Karoly

📖

Massimiliano Bertinetti

📖

batarian71

🎨

Yacine Petitprez

🚧

Alexandre

💻

This project follows the all-contributors specification. Contributions of any kind welcome!

clear:
  github: anykeyh/clear
  version: ~> 0.9
License MIT
Crystal 0.35.1

Authors

Dependencies 4

  • admiral master
    {'branch' => 'master', 'github' => 'jwaldrip/admiral.cr'}
  • generate master
    {'branch' => 'master', 'github' => 'anykeyh/generate.cr'}
  • inflector ~> 0.1.8
    {'github' => 'phoffer/inflector.cr', 'version' => '~> 0.1.8'}
  • pg master
    {'branch' => 'master', 'github' => 'will/crystal-pg'}

Development Dependencies 1

  • ameba master
    {'branch' => 'master', 'github' => 'veelenga/ameba'}
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