debian-mirror-gitlab/doc/development/work_items_widgets.md
2023-06-20 00:43:36 +05:30

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Work items widgets

Frontend architecture

Widgets for work items are heavily inspired by Frontend widgets. You can expect some differences, because work items are architecturally different from issuables.

GraphQL (Vue Apollo) constitutes the core of work items widgets' stack.

Retrieve widget information for work items

To display a work item page, the frontend must know which widgets are available on the work item it is attempting to display. To do so, it needs to fetch the list of widgets, using a query like this:

query WorkItem($workItemId: ID!) {
  workItem(workItemId: $id) @client {
    id
    type
    widgets {
      nodes {
        type
      }
    }
  }
}

GraphQL queries and mutations

GraphQL queries and mutations are work item agnostic. Work item queries and mutations should happen at the widget level, so widgets are standalone reusable components. The work item query and mutation should support any work item type and be dynamic. They should allow you to query and mutate any work item attribute by specifying a widget identifier.

In this query example, the description widget uses the query and mutation to display and update the description of any work item:

query {
  workItem(input: {
    workItemId: "gid://gitlab/AnyWorkItem/2207",
    widgetIdentifier: "description",
  }) {
    id
    type
    widgets {
      nodes {
        ... on DescriptionWidget {
          contentText
        }
      }
    }
  }
}

Mutation example:

mutation {
  updateWorkItem(input: {
    workItemId: "gid://gitlab/AnyWorkItem/2207",
    widgetIdentifier: "description",
    value: "the updated description"
  }) {
    workItem {
      id
      description
    }
  }
}

Widget responsibility and structure

A widget is responsible for displaying and updating a single attribute, such as title, description, or labels. Widgets must support any type of work item. To maximize component reusability, widgets should be field wrappers owning the work item query and mutation of the attribute it's responsible for.

A field component is a generic and simple component. It has no knowledge of the attribute or work item details, such as input field, date selector, or dropdown list.

Widgets must be configurable to support various use cases, depending on work items. When building widgets, use slots to provide extra context while minimizing the use of props and injected attributes.

Examples

We have a dropdown list component for use as reference.

Any work item widget can wrap the dropdown list. The widget has knowledge of the attribute it mutates, and owns the mutation for it. Multiple widgets can use the same field component. For example:

  • Title and description widgets use the input field component.
  • Start and end date use the date selector component.
  • Labels, milestones, and assignees selectors use the dropdown list.

Some frontend widgets already use the dropdown list. Use them as a reference for work items widgets development:

  • ee/app/assets/javascripts/boards/components/assignee_select.vue
  • ee/app/assets/javascripts/boards/components/milestone_select.vue

Mapping widgets to work item types

All Work Item types share the same pool of predefined widgets and are customized by which widgets are active on a specific type. Because we plan to allow users to create new Work Item types and define a set of widgets for them, mapping of widgets for each Work Item type is stored in database. Mapping of widgets is stored in widget_definitions table and it can be used for defining widgets both for default Work Item types and also in future for custom types. More details about expected database table structure can be found in this issue description.

Adding new widget to a work item type

Because information about what widgets are assigned to each work item type is stored in database, adding new widget to a work item type needs to be done through a database migration. Also widgets importer (lib/gitlab/database_importers/work_items/widgets_importer.rb) should be updated.

Structure of widget definitions table

Each record in the table defines mapping of a widget to a work item type. Currently only "global" definitions (definitions with NULL namespace_id) are used. In next iterations we plan to allow customization of these mappings. For example table below defines that:

  • Weight widget is enabled for work item types 0 and 1
  • in namespace 1 Weight widget is renamed to MyWeight. When user renames widget's name, it makes sense to rename all widget mappings in the namespace - because name attribute is denormalized, we have to create namespaced mappings for all work item types for this widget type.
  • Weight widget can be disabled for specific work item types (in namespace 3 it's disabled for work item type 0, while still left enabled for work item type 1)
ID Namespace_id Work_item_type_id Widget_type_enum Position Name Disabled
1 0 1 1 Weight false
2 1 1 1 Weight false
3 1 0 1 0 MyWeight false
4 1 1 1 0 MyWeight false
5 2 0 1 1 Other Weight false
6 3 0 1 1 Weight true

Backend architecture

You can update widgets using custom fine-grained mutations (for example, WorkItemCreateFromTask) or as part of the workItemCreate or workItemUpdate mutations.

Widget callbacks

When updating the widget together with the work item's mutation, backend code should be implemented using callback classes that inherit from Issuable::Callbacks::Base. These classes have callback methods that are named similar to ActiveRecord callbacks and behave similarly.

Callback classes with the same name as the widget are automatically used. For example, Issuable::Callbacks::Milestone is called when the work item has the milestone widget. To use a different class, you can override the callback_class class method.

Available callbacks

  • after_initialize is called after the work item is initialized by the BuildService and before the work item is saved by the CreateService and UpdateService. This callback runs outside the creation or update database transaction.
  • after_update_commit is called after the DB update transaction is committed by the UpdateService.
  • after_save_commit is called after the creation or DB update transaction is committed by the CreateService or UpdateService.