Dbee
Dbee arose out of a need for an ad-hoc reporting solution that included:
- serializable queries
- serializable data modeling
- de-coupling from our main ORM (ActiveRecord)
- Rails 5.2.1 and above compatibility
Dbee provides very simple Data Modeling and Query API's and as such it is not meant to replace a traditional ORM or your data persistence layer, but compliment them. This library's goal is to output the SQL statement needed and nothing more.
Other solutions considered:
- Squeel - Was in production use up until Rails 5, then saw compatibility issues.
- BabySqueel - Tested with some success up until Rails 5.2.1, then saw compatibility issues.
Both of these solutions ended up closely coupling our domain data layer to ad-hoc reporting layer. One of the primary motivations for this library was to completely de-couple the data modeling from persistence modeling.
Installation
This specific library is the core modeling component of the Dbee framework, but by itself, it is not completely usable. You will need to provide a SQL generator which understands how to convert the data and query modeling to actual SQL. This library comes with a stub: Dbee::Providers::NullProvider, while the main reference implementation is split out into its own library: dbee-active_record. Together these two libraries comprise a complete solution. Refer to the other library for more information on installation.
To install through Rubygems:
gem install dbee
You can also add this to your Gemfile:
bundle add dbee
Examples
The Data Model API
Consider the following simple pseudo-schema:
TABLE practices (
id:integer,
active:boolean (nullable),
name:string
)
TABLE patients (
id:integer,
practice_id:integer,
first:string,
middle:string,
last:string,
chart_number:string
)
TABLE notes (
id:integer,
patient_id:integer,
note_type:string,
contents:string
)
TABLE phones (
id:integer,
patient_id:integer,
phone_number_type:string,
number:string
)
Note: Do not think too much into the merits of the above schema, it is a contrived and simplified example.
In this example: a practice has many patients, a patient has many notes, and a patient also has many phones. It is important to note, though, that a patient can only have one unique phone number per phone number type (such as home, cell, fax, work, etc.)
There are two ways to model this schema using Dbee:
- code-first
- configuration-first
Code-First Data Modeling (With Inflection)
Code-first data modeling involves creating sub-classes of Dbee::Base that describes the tables and associations. We could model the above example as:
module ReadmeDataModels
class PhoneNumber < Dbee::Base
table :phones
parent :patient
end
class Note < Dbee::Base
parent :patient
end
class Patient < Dbee::Base
child :notes
child :work_phone_number, model: 'ReadmeDataModels::PhoneNumber',
static: { name: :phone_number_type, value: 'work' }
child :cell_phone_number, model: 'ReadmeDataModels::PhoneNumber',
static: { name: :phone_number_type, value: 'cell' }
child :fax_phone_number, model: 'ReadmeDataModels::PhoneNumber',
static: { name: :phone_number_type, value: 'fax' }
end
class Practice < Dbee::Base
child :patients
end
end
The two DSL methods: parent/child are very similar to ActiveRecord's belongs_to/has_many, respectively. Options for these methods are:
- model: class constant, string, or symbol to use as associated data model. If omitted, the model name will be the relative, singular, and camelized version of the association name.
- foreign_key: name of the key on the child table. If omitted for child then it will resolve as singular, underscored, de-modulized class name suffixed with '_id'. If omitted for parent it will resolve to 'id'.
- primary_key: name of the key on the parent table. If omitted for child then it will resolve as 'id'. If omitted for parent then it will resolve as the singular, underscored, de-modulized name of the relationship suffixed with '_id'
Customizing Inflection Rules
Inflection is provided via the Dry::Inflector gem. There are options to add custom grammar rules which you can then pass into Dbee. For example:
Dbee.inflector = Dry::Inflector.new do |inflections|
inflections.plural 'virus', 'viruses' # specify a rule for #pluralize
inflections.singular 'thieves', 'thief' # specify a rule for #singularize
inflections.uncountable 'dry-inflector' # add an exception for an uncountable word
end
Code-First Data Modeling (Without Inflection)
You can use the raw association method you wish to fully control the entire referencing configuration.
module ReadmeDataModels
class PhoneNumber < Dbee::Base
table :phones
association :patient, model: 'ReadmeDataModels::Patient', constraints: {
type: :reference, name: :patient_id, parent: :id
}
end
class Note < Dbee::Base
association :patient, model: 'ReadmeDataModels::Patient', constraints: {
type: :reference, name: :patient_id, parent: :id
}
end
class Patient < Dbee::Base
association :notes, model: 'ReadmeDataModels::Note', constraints: {
type: :reference, name: :patient_id, parent: :id
}
association :work_phone_number, model: 'ReadmeDataModels::PhoneNumber', constraints: [
{ type: :reference, name: :patient_id, parent: :id },
{ type: :static, name: :phone_number_type, value: 'work' }
]
association :cell_phone_number, model: 'ReadmeDataModels::PhoneNumber', constraints: [
{ type: :reference, name: :patient_id, parent: :id },
{ type: :static, name: :phone_number_type, value: 'cell' }
]
association :fax_phone_number, model: 'ReadmeDataModels::PhoneNumber', constraints: [
{ type: :reference, name: :patient_id, parent: :id },
{ type: :static, name: :phone_number_type, value: 'fax' }
]
end
class Practice < Dbee::Base
association :patients, model: Patient, constraints: {
type: :reference, name: :practice_id, parent: :id
}
end
end
The two code-first examples above should be technically equivalent.
Configuration-First Data Modeling
You can choose to alternatively describe your data model using configuration. The YAML below is equivalent to the Ruby sub-classes above:
practice:
table: practices
relationships:
patients:
model: patient
constraints:
- type: reference
name: practice_id
parent: id
patient:
table: patients
relationships:
notes:
model: note
constraints:
- type: reference
name: patient_id
parent: id
work_phone_number:
model: phone_number
constraints:
- type: reference
name: patient_id
parent: id
- type: static
name: phone_number_type
value: work
cell_phone_number:
model: phone_number
constraints:
- type: reference
name: patient_id
parent: id
- type: static
name: phone_number_type
value: cell
fax_phone_number:
model: phone_number
constraints:
- type: reference
name: patient_id
parent: id
- type: static
name: phone_number_type
value: fax
note:
table: notes
phone_number:
table: phones
It is up to you to determine which modeling technique to use as both are equivalent. Technically speaking, the code-first DSL is nothing more than syntactic sugar on top of Dbee::Schema and Dbee::Model. Also note that prior to version three of this project, a more hierarchical tree based model configuration was used. See Tree Based Model Backward Compatibility below for more information on this.
Table Partitioning
You can leverage the model partitioners for hard-coding partitioning by column=value. The initial use-case for this was to mirror how ActiveRecord deals with (Single Table Inheritance)[https://api.rubyonrails.org/v6.0.0/classes/ActiveRecord/Base.html#class-ActiveRecord::Base-label-Single+table+inheritance]. Here is a basic example of how to partition an animals table for different subclasses:
Code-first:
class Animal < Dbee::Base
end
class Dog < Animal
partitioner :type, 'Dog'
end
class Cat < Animal
partitioner :type, 'Cat'
end
Configuration-first:
Dogs:
name: dog
table: animals
partitioners:
- name: type
value: Dog
Cats:
name: cat
table: animals
partitioners:
- name: type
value: Cat
The Query API
The Query API (Dbee::Query) is a simplified and abstract way to model an SQL query. A Query has the following components:
- fields (SELECT)
- from (FROM)
- filters (WHERE)
- sorters (ORDER BY)
- limit (LIMIT/TAKE)
One very important concept is that all joins are LEFT OUTER JOIN's. This is an intentional simplification for our key application domain: configurable custom reporting.
Key Paths
You use key paths in order to identify columns. All key paths are relative to the main data model.
Sample Queries
Get all practices:
query = {
from: 'practice',
fields: [
{ key_path: 'id' },
{ key_path: 'active' },
{ key_path: 'name' }
]
}
Get all practices, limit to 2, offset by 3, and sort by name (descending) then id (ascending):
query = {
from: 'practice',
fields: [
{ key_path: 'id' },
{ key_path: 'active' },
{ key_path: 'name' }
],
sorters: [
{ key_path: 'name', direction: :descending },
{ key_path: 'id' }
],
limit: 2,
offset: 3
}
Get top 5 active practices and patient whose name start with 'Sm':
query = {
from: 'practice',
fields: [
{ key_path: 'name', display: 'Practice Name' },
{ key_path: 'patients.first', display: 'Patient First Name' },
{ key_path: 'patients.middle', display: 'Patient Middle Name' },
{ key_path: 'patients.last', display: 'Patient Last Name' },
],
filters: [
{ type: :equals, key_path: 'active', value: true },
{ type: :starts_with, key_path: 'patients.last', value: 'Sm' },
],
limit: 5
}
Get practice IDs, patient IDs, names, and cell phone numbers that starts with '555':
query = {
from: 'practice',
fields: [
{ key_path: 'id', display: 'Practice ID #' },
{ key_path: 'patients.id', display: 'Patient ID #' },
{ key_path: 'patients.first', display: 'Patient First Name' },
{ key_path: 'patients.middle', display: 'Patient Middle Name' },
{ key_path: 'patients.last', display: 'Patient Last Name' },
{ key_path: 'patients.cell_phone_numbers.phone_number', display: 'Patient Cell #' },
],
filters: [
{ type: :equals, key_path: 'active', value: true },
{
type: :starts_with,
key_path: 'patients.cell_phone_numbers.phone_number',
value: '555'
},
]
}
Executing a Query
You execute a Query against a Data Model, using a Provider. The sample provider: Dbee::Providers::NullProvider is just meant as a stand-in. You will need to plug in a custom provider for real-world use. See the reference ActiveRecord plugin implementation here.
Here are some sample executions based off the preceding examples:
Base Case
If a query has no fields then it is implied you would like all fields on the root table. For example:
require 'dbee/providers/active_record_provider'
class Practice < Dbee::Base; end
provider = Dbee::Providers::ActiveRecordProvider.new
query = { from: 'practice' }
sql = Dbee.sql(Practice, query, provider)
It equivalent to saying: SELECT practices.* FROM practices. This helps to establish a deterministic base-case: it returns the same implicit columns that is independent of sql joins (sorters and/or filters may require sql joins.)
Code-First Execution
require 'dbee/providers/active_record_provider'
class Practice < Dbee::Base; end
provider = Dbee::Providers::ActiveRecordProvider.new
query = {
from: 'practice',
fields: [
{ key_path: 'id' },
{ key_path: 'active' },
{ key_path: 'name' }
]
}
sql = Dbee.sql(Practice, query, provider)
Configuration-First Execution
require 'dbee/providers/active_record_provider'
provider = Dbee::Providers::ActiveRecordProvider.new
model = {
practice: { table: 'practices' }
}
query = {
from: 'practice',
fields: [
{ key_path: 'id' },
{ key_path: 'active' },
{ key_path: 'name' }
]
}
sql = Dbee.sql(model, query, provider)
The above examples showed how to use a plugin provider, see the plugin provider's documentation for more information about its options and use.
Aggregation
Fields can be configured to use aggregation by setting its aggregator attribute. For example, say we wanted to count the number of patients per practice:
Data Model:
practice:
table: practices
relationships:
patients:
model: patient
constraints:
- type: reference
name: practice_id
parent: id
patient:
table: patients
Query:
query = {
from: 'practice',
fields: [
{
key_path: 'id',
display: 'Practice ID #',
},
{
key_path: 'name',
display: 'Practice Name',
},
{
key_path: 'patients.id',
display: 'Total Patients',
aggregator: :count
},
]
An example of a materialized result would be something akin to:
| Practice ID # | Practice Name | Total Patients |
|---|---|---|
| 1 | Families Choice | 293 |
| 2 | Awesome Choice | 2305 |
| 3 | Best Value | 1200 |
A complete list of aggregator values can be found by inspecting the Dbee::Query::Field::Aggregator constant.
Field/Column Level Filtering & Pivoting
Fields can also have filters which provide post-filtering (on the select-level instead of at query-level.) This can be used in conjunction with aggregate functions to provide pivoting. For example:
Data/Schema Example:
patients:
| id | first | last |
|---|---|---|
| 1 | frank | rizzo |
patient_fields:
| id | patient_id | key | value |
|---|---|---|---|
| 1 | 1 | dob | 1900-01-01 |
| 2 | 1 | drivers_license | ABC123 |
Model Configuration:
patients:
relationships:
- patient_fields:
constraints:
- type: reference
parent: id
name: patient_id
patient_fields:
Query:
query = {
from: 'patients',
fields: [
{
key_path: 'id',
display: 'ID #'
},
{
key_path: 'first',
display: 'First Name'
},
{
aggregator: :max,
key_path: 'patient_fields.value',
display: 'Date of Birth',
filters: [
{
key_path: 'patient_fields.key',
value: 'dob'
}
]
},
{
aggregator: :max,
key_path: 'patient_fields.value',
display: 'Drivers License #',
filters: [
{
key_path: 'patient_fields.key',
value: 'drivers_license'
}
]
}
}
}
Executing the query above against the data and model would yield:
| ID # | First Name | Date of Birth | Drivers License # |
|---|---|---|---|
| 1 | frank | 1900-01-01 | ABC123 |
Tree Based Model Backward Compatibility
In version three of this gem, the representation of configuration based models was changed to be more of a graph structure than the previous tree structure. For backwards compatibility, it is still possible to pass this older tree based structure as the first argument Dbee.sql. The practices example would be represented this way in the old structure:
# Deprecated tree based model configuration:
name: practice
table: practices
models:
- name: patients
constraints:
- type: reference
name: practice_id
parent: id
models:
- name: notes
constraints:
- type: reference
name: patient_id
parent: id
- name: work_phone_number
table: phones
constraints:
- type: reference
name: patient_id
parent: id
- type: static
name: phone_number_type
value: work
- name: cell_phone_number
table: phones
constraints:
- type: reference
name: patient_id
parent: id
- type: static
name: phone_number_type
value: cell
- name: fax_phone_number
table: phones
constraints:
- type: reference
name: patient_id
parent: id
- type: static
name: phone_number_type
value: fax
Also note to further maintain backwards compatibility, queries issued against tree based models do not need the "from" attribute to be defined. This is because the from/starting point of the query can be inferred as the model at the root of the tree.
Contributing
Development Environment Configuration
Basic steps to take to get this repository compiling:
- Install Ruby (check dbee.gemspec for versions supported)
- Install bundler (gem install bundler)
- Clone the repository (git clone [email protected]:bluemarblepayroll/dbee.git)
- Navigate to the root folder (cd dbee)
- Install dependencies (bundle)
Running Tests
To execute the test suite run:
bundle exec rspec spec --format documentation
Alternatively, you can have Guard watch for changes:
bundle exec guard
Also, do not forget to run Rubocop:
bundle exec rubocop
Publishing
Note: ensure you have proper authorization before trying to publish new versions.
After code changes have successfully gone through the Pull Request review process then the following steps should be followed for publishing new versions:
- Merge Pull Request into master
- Update
version.rbusing semantic versioning - Install dependencies:
bundle - Update
CHANGELOG.mdwith release notes - Commit & push master to remote and ensure CI builds master successfully
- Run
bundle exec rake release, which will create a git tag for the version, push git commits and tags, and push the.gemfile to rubygems.org.
Code of Conduct
Everyone interacting in this codebase, issue trackers, chat rooms and mailing lists is expected to follow the code of conduct.
License
This project is MIT Licensed.