Methods, systems, and non-transitory machine-readable mediums for ranking on an absolute scale include displaying, on an electronic display, a first handle, a second handle, and an interactor, determining a value of the first handle and a value of the second handle based on their respective positions on the interactor, in response to a user dragging the first and second handles on the interactor, and determining a rank of the first and second handles based on the values of the first and second handles, in response to the user dragging the first and second handles on the interactor.

Three-dimensional models (or avatars) may be defined based on imaging data captured from a customer. The avatars may be based on a virtual mannequin having one or more dimensions in common with the customer, a body template corresponding to the customer, or imaging data captured from the customer. The avatars are displayed on displays or in user interfaces and used for any purpose, such as to depict how clothing will appear or behave while being worn by a customer alone or with other clothing. Customers may drag-and-drop images of clothing onto the avatars. One or more of the avatars may be displayed on any display, such as a monitor or a virtual reality headset, which may depict the avatars in a static or dynamic mode. Images of avatars and clothing may be used to generate print catalogs depicting the appearance or behavior of the clothing while worn by the customer.

Disclosed are systems, methods, and non-transitory computer-readable storage media for managing content item collections. For example, in embodiment, a client device may receive first user input selecting a content item collection. The client device may generate a graphical user interface for presenting the content item collection. The content item collection may include one or more tiles. Each tile may correspond to a content item embedded into the content item collection and stored by a content management system. The client device may present the content item collection including the one or more tiles. The client device may present, within each of the one or more tiles, an image representing the corresponding content item.

Disclosed are systems, methods, and non-transitory computer-readable storage media for managing content item collections. For example, in embodiment, a client device may receive first user input selecting a content item collection. The client device may generate a graphical user interface for presenting the content item collection. The content item collection may include one or more tiles. Each tile may correspond to a content item embedded into the content item collection and stored by a content management system. The client device may present the content item collection including the one or more tiles. The client device may present, within each of the one or more tiles, an image representing the corresponding content item.

A whiteboard template can include multiple regions that are associated with different data sources. Each region can be associated with a different data source and can present objects based upon logical representations stored in an associated data source. Logical representations of objects in a region can include links to other objects in other regions associated with other data sources. When an object is moved between regions, transformations can be applied to the logical representation associated with the object. If the object is linked to other objects, the transformation can be propagated to the logical representations of the linked objects. In this manner, a single movement of an object between regions in a template can result in the updating of multiple objects and associated data sources, the updating of the visual properties of objects in multiple regions, and updating the visual properties of the regions themselves.

A whiteboard template can include multiple regions that are associated with different data sources. Each region can be associated with a different data source and can present objects based upon logical representations stored in an associated data source. Logical representations of objects in a region can include links to other objects in other regions associated with other data sources. When an object is moved between regions, transformations can be applied to the logical representation associated with the object. If the object is linked to other objects, the transformation can be propagated to the logical representations of the linked objects. In this manner, a single movement of an object between regions in a template can result in the updating of multiple objects and associated data sources, the updating of the visual properties of objects in multiple regions, and updating the visual properties of the regions themselves.

An image display device includes: an operation receiver that receives an operation to select and move, as a movement source icon, at least one of a plurality of icon images displayed on a display screen; and a hardware processor that, once the operation receiver receives the operation, changes a display position of the movement source icon while assuming that a first position of the movement source icon is selected on the display screen.

An image display device includes: an operation receiver that receives an operation to select and move, as a movement source icon, at least one of a plurality of icon images displayed on a display screen; and a hardware processor that, once the operation receiver receives the operation, changes a display position of the movement source icon while assuming that a first position of the movement source icon is selected on the display screen.

Techniques for changing the presentation of information on a user interface based on presence are described. In an example, a computer system determines, based on an image sensor associated with the system, a first presence of a first user relative to a computing device. The computer system also determines an identifier of the first user. The identifier is associated with operating the computing device. The operating comprises a presentation of the user interface by the computing device. The computer system also determines, based on the image sensor, a second presence of a second person relative to the computing device. The computer system causes an update to the user interface based on the second presence.

Techniques for changing the presentation of information on a user interface based on presence are described. In an example, a computer system determines, based on an image sensor associated with the system, a first presence of a first user relative to a computing device. The computer system also determines an identifier of the first user. The identifier is associated with operating the computing device. The operating comprises a presentation of the user interface by the computing device. The computer system also determines, based on the image sensor, a second presence of a second person relative to the computing device. The computer system causes an update to the user interface based on the second presence.