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README.md
dodb.cr
DODB stands for Document Oriented DataBase.
Objective
The objective is to get rid of DBMS when storing simple files directly on the file-system is enough.
Overview
A brief summary:
- no SQL
- objects are serialized (currently in JSON)
- indexes (simple soft links on the FS) can be created to improve significantly searches in the db
Limitations
TODO: speed tests, elaborate on the matter.
DODB is not compatible with projects:
- having an absolute priority on speed However, DODB is efficient in most cases with the right indexes.
- having relational data
Installation
Add the following to your shard.yml
.
You may want to add version informations to avoid unexpected breakages.
dependencies:
dodb:
git: https://git.karchnu.fr/WeirdOS/dodb.cr
Basic usage
# Database creation
db = DODB::DataBase(Thing).new "path/to/storage/directory"
# Adding an element to the db
db << Thing.new
# Reaching all objects in the db
db.each do |thing|
pp! thing
end
Basic API
Create the database
The DB creation is simply creating a few directories on the file-system.
db = DODB::DataBase(Thing).new "path/to/storage/directory"
Adding a new object
db << Thing.new
Sorting the objects
To speed-up searches in the DB, we can sort them, based on their attributes for example. There are 3 sorting methods:
- index, 1-1 relations, an attribute value is bound to a single object (an identifier)
- partition, 1-n relations, an attribute value may be related to several objects (the color of a car, for instance)
- tags, n-n relations, each object may have several tags, each tag may be related to several objects
Let's take an example.
require "uuid"
class Car
include JSON::Serializable
property id : String
property color : String
def initialize(@color)
@id = UUID.random.to_s
end
end
We want to store cars
in a database and index them on their id
attribute:
cars = DODB::DataBase(Car).new "path/to/storage/directory"
# We give a name to the index, then the code to extract the id from a Car instance
cars_by_id = cars.new_index "id", &.id
After adding a few objects in the database, here the index in action on the file-system:
$ tree storage/
storage
├── data
│ ├── 0000000000.json
│ ├── 0000000001.json
│ ├── 0000000002.json
│ ├── 0000000003.json
│ ├── 0000000004.json
│ └── 0000000005.json
├── indices
│ └── by_id
│ ├── 6e109b82-25de-4250-9c67-e7e8415ad5a7.json -> ../../data/0000000003.json
│ ├── 2080131b-97d7-4300-afa9-55b93cdfd124.json -> ../../data/0000000000.json
│ ├── 2118bf1c-e413-4658-b8c1-a08925e20945.json -> ../../data/0000000005.json
│ ├── b53fab8e-f394-49ef-b939-8a670abe278b.json -> ../../data/0000000004.json
│ ├── 7e918680-6bc2-4f29-be7e-3d2e9c8e228c.json -> ../../data/0000000002.json
│ └── 8b4e83e3-ef95-40dc-a6e5-e6e697ce6323.json -> ../../data/0000000001.json
We have 5 objects in the DB, each of them have a unique ID attribute, each attribute is related to a single object.
Getting an object by their ID is as simple as cat storage/indices/by_id/<id>.json
.
Now we want to sort cars based on their color
attribute.
This time, we use a partition
, because the relation between the attribute (color) and the object (car) is 1-n
:
cars_by_colors = things.new_partition "color", &.color
On the file-system, this translates to:
$ tree storage/
...
├── partitions
│ └── by_color
│ ├── blue
│ │ ├── 0000000000.json -> ../../../data/0000000000.json
│ │ └── 0000000004.json -> ../../../data/0000000004.json
│ ├── red
│ │ ├── 0000000001.json -> ../../../data/0000000001.json
│ │ ├── 0000000002.json -> ../../../data/0000000002.json
│ │ └── 0000000003.json -> ../../../data/0000000003.json
│ └── violet
│ └── 0000000005.json -> ../../../data/0000000005.json
Now the attribute correspond to a directory (blue, red, violet, etc.) containing a symlink for each related object.
Finally, we want to sort cars based on the keywords
attribute.
This is a n-n relation, each car may have several keywords, each keyword may be related to several cars.
cars_by_keyword = cars.new_tags "keyword", &.keywords
On the file-system, this translates to:
$ tree storage/
...
└── tags
└── by_keyword
└── other-tags
├── average
│ ├── data
│ │ └── 0000000004.json -> ../../../../..//data/0000000004.json
...
├── dirty
│ ├── data
│ │ └── 0000000005.json -> ../../../../..//data/0000000005.json
...
├── elegant
│ ├── data
│ │ ├── 0000000000.json -> ../../../../..//data/0000000000.json
│ │ └── 0000000003.json -> ../../../../..//data/0000000003.json
...
This is very similar to partitions, but there is a bit more complexity here since we eventually search for a car matching a combination of keywords.
TODO: explanations about our tag-based search and an example.
Updating an object
In our last example we had a Car
class, we stored its instances in cars
and we could identify each instance by its id
with the index car_by_id
.
Now, we want to update a car:
# we find a car we want to modify
car = cars_by_id "86a07924-ab3a-4f46-a975-e9803acba22d"
# we modify it
car.color = "Blue"
# update
cars_by_id.update "86a07924-ab3a-4f46-a975-e9803acba22d", car
Or, in the case the object may not yet exist:
cars_by_id.update_or_create "86a07924-ab3a-4f46-a975-e9803acba22d", car
Removing an object
cars_by_id.delete "86a07924-ab3a-4f46-a975-e9803acba22d", car
cars_by_class.delete "red"
cars_by_class.delete "red", do |car|
car.name == "Corvet" || car.keywords.empty
end
Complete example
require "dodb"
# First, we define what we’ll want to store.
# It *has* to be serializable through JSON, as everything in DODB is stored in JSON directly on the file-system.
class Car
include JSON::Serializable
property name : String # unique to each instance (1-1 relations)
property color : String # a simple attribute (1-n relations)
property keywords : Array(String) # tags about a car, example: "shiny" (n-n relations)
def initialize(@name, @color, @keywords)
end
end
#####################
# Database creation #
#####################
cars = DODB::DataBase(Car).new "./bin/storage"
##########################
# Database configuration #
##########################
# There are several ways to index things in DODB.
# We give a name to the index, then the code to extract the name from a Car instance
# (1-1 relations: in this example, names are indexes = they are UNIQUE identifiers)
cars_by_name = cars.new_index "name", &.name
# We want quick searches for cars based on their color
# (1-n relations: a car only has one color, but a color may refer to many cars)
cars_by_color = cars.new_partition "color", &.color
# We also want to search cars on their keywords
# (n-n relations: a car may be described with many keywords and a keyword may be applied to many cars)
cars_by_keyword = cars.new_tags "keyword", &.keywords
##########
# Adding #
##########
cars << Car.new "Corvet", "red", [ "shiny", "impressive", "fast", "elegant" ]
cars << Car.new "SUV", "red", [ "solid", "impressive" ]
cars << Car.new "Mustang", "red", [ "shiny", "impressive", "elegant" ]
cars << Car.new "Bullet-GT", "red", [ "shiny", "impressive", "fast", "elegant" ]
cars << Car.new "GTI", "blue", [ "average" ]
cars << Car.new "Deudeuch", "violet", [ "dirty", "slow", "only french will understand" ]
# The DB can be accessed as a simple array
cars.each do |car|
pp! car
end
################
# Searching... #
################
# based on an index (print the only car named "Corvet")
pp! cars_by_name.get "Corvet"
# based on a partition (print all red cars)
pp! cars_by_color.get "red"
# based on a tag
pp! cars_by_keyword.get "fast"
############
# Updating #
############
car = cars_by_name.get "Corvet"
car.color = "blue"
cars_by_name.update "Corvet", car
# we have a car
# and add it to the DB, not knowing in advance if it was already there
car = Car.new "Mustang", "red", [] of String
cars_by_name.update_or_create car.name, car
###############
# Deleting... #
###############
# based on a name
cars_by_name.delete "Deudeuch"
# based on their color
cars_by_color.delete "red"
# based on their color (but not only)
cars_by_color.delete "blue", &.name.==("GTI")
## TAG-based deletion, soon.
# # based on a keyword
# cars_by_keyword.delete "solid"
# # based on a keyword (but not only)
# cars_by_keyword.delete "fast", &.name.==("Corvet")