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An opinionated set of generated structs and functions for building low abstraction persistence (e.g. SQL)

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construct : Go generators for low abstraction persistence with PostgreSQL

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Overview

Got tired of too many abstractions over all the features PostgreSQL provides when using an ORM? But rolling your own persistence code is tedious and there's too much boilderplate? This is a code generator to generate a bunch of structs and functions to implement persistence code with a few line and keep all the power PostgreSQL provides.

Core ideas

  • Selecting JSON from the database allows for nested data and does most of the work that an ORM does on the read side. It can be used to flexibly load related data in an eager way (see example).
  • Querying the database without too much abstraction gives a lot of flexibility - where needed. Construct is paired with github.com/networkteam/qrb as a PostgreSQL focused query builder that supports querying JSON.
  • Not using the model itself for writes reduces a lot of complexity around dirty checking and other ORM features. It works well in an CQRS architecture where commands and queries are separated.
  • Database migrations often need more thought and are outside the scope of this tool. You can use github.com/pressly/goose or other solutions to manage your schema and migrations.

Install

Add the construct module to your project:

go get github.com/networkteam/construct/v2

It is a good idea to have a top-level tools.go file to import construct, so it will be kept in the go.mod file:

// +build tools
package myproject

import (
    _ "github.com/networkteam/construct/v2"
)

How does it work?

Your types declare database fields for reading and writing via struct tags

model/customer.go

package model

import "github.com/networkteam/construct/v2"

// Customer is just a struct, only struct tags are used in construct to generate code (no struct embedding needed) 
type Customer struct {
	ID   uuid.UUID `table_name:"customers" read_col:"customers.customer_id" write_col:"customer_id"` // The table_name tag is optional and can be specified at most once per struct
	Name string    `read_col:"customers.name,sortable" write_col:"name"`
	// Fields can be serialized as JSON by adding a "json" option to the "write_col" tag.
	// It works perfectly with a column of type jsonb in PostgreSQL.
	ContactPerson Contact `read_col:"customers.contact_person,sortable" write_col:"contact_person,json"`

	CreatedAt time.Time `read_col:"customers.created_at,sortable" write_col:"created_at"`
	UpdatedAt time.Time `read_col:"customers.updated_at,sortable"`

	// ProjectCount is not mapped to the table but used in the select for reading an aggregate count
	ProjectCount int
}

// Contact is an embedded type and doesn't need any tags
type Contact struct {
	FirstName  string
	MiddleName string
	LastName   string
}

Construct generates structs and functions that help to query JSON and insert / update data

Create a file that includes a go:generate directive to run construct for all types in your model package:

repository/mappings.go

package repository

//go:generate go run github.com/networkteam/construct/v2/cmd/construct my/project/model

Run the generator:

go generate ./repository

What is generated?

  • A default JsonBuildObject expression (e.g. customerDefaultJson) for selecting all read fields of the model via JSON. This is supposed to be enhanced with additional properties in the repository code.
  • A changeset struct (e.g. CustomerChangeSet) for each model that can be used to pass partial data to insert and update functions in a type-safe way.
  • A schema variable customer for the table (if table_name is set) and each field for referencing tables and columns in queries via the query builder.
  • A map of sortable fields, e.g. customerSortFields that can be used to implement flexible sorting.

This generated code helps to keep the repository code clean and type-safe. When adding a field to a model, there is no need to add it in several places in the repository code, it is just added to the model struct and construct will generate the rest (if your data is selected via JSON).

With qrb as the query builder, selecting nested JSON data is easy and does most of the work that is traditionally done via an ORM on the read side.

Roll your own persistence code for full control and low abstraction

Structure your persistence code as it fits the project. A very simple and working approach is to have a bunch of functions that operator on the target type for finding, inserting, updating and deleting. Add more complex queries as you like in the same way.

Construct will automatically generate identifier expressions of fields (read columns) via github.com/networkteam/qrb and a default json_build_object expression to select a model via JSON. This can be further modified to add additional properties.

repository/customer_repository.go

package repository

import (
  "context"

  "github.com/gofrs/uuid"
  "github.com/jackc/pgx/v5"
  "github.com/networkteam/construct/v2/constructpgx"
  "github.com/networkteam/qrb"
  "github.com/networkteam/qrb/builder"
  "github.com/networkteam/qrb/fn"
  "github.com/networkteam/qrb/qrbpgx"

  ".../myproject/model"
)

func FindCustomerByID(ctx context.Context, executor qrbpgx.Executor, id uuid.UUID) (model.Customer, error) {
  q := qrb.
    Select(customerJson()).
    // A schema type for read columns (and the table) is generated as qrb identifier expressions by construct
    From(customer).
    LeftJoin(project).On(project.CustomerID.Eq(customer.ID)).
    Where(customer.ID.Eq(qrb.Arg(id))).
    GroupBy(customer.ID)

  return constructpgx.ScanRow[model.Customer](
    qrbpgx.Build(q).WithExecutor(executor).QueryRow(ctx),
  )
}

// CustomerChangeSet is generated by construct for handling partially filled models
func InsertCustomer(ctx context.Context, executor qrbpgx.Executor, changeSet CustomerChangeSet) error {
  q := qrb.
    InsertInto(customer).
    // toMap is generated by construct 
    SetMap(changeSet.toMap())

  _, err := qrbpgx.Build(q).WithExecutor(executor).Exec(ctx)
  return err
}

func UpdateCustomer(ctx context.Context, executor qrbpgx.Executor, id uuid.UUID, changeSet CustomerChangeSet) error {
  q := qrb.
    Update(customer).
    Where(customer.ID.Eq(qrb.Arg(id))).
    SetMap(changeSet.toMap())

  return constructpgx.AssertRowsAffected("update", 1)(
    qrbpgx.Build(q).WithExecutor(executor).Exec(ctx),
  )
}

func customerJson() builder.JsonBuildObjectBuilder {
  // customerDefaultJson is generated by construct and is a JsonBuildObjectBuilder that can be further modified (immutable)
  return customerDefaultJson.
    // It's easy to set additional properties
    Prop("ProjectCount", fn.Count(project.ID))
}

License

MIT

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An opinionated set of generated structs and functions for building low abstraction persistence (e.g. SQL)

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