A method is performed at an electronic device with a touch-sensitive display and one or more cameras. While device displays a first camera interface, which includes a first camera preview and a first capture affordance for capturing photos with the one or more cameras, the device detects an input that includes movement of a contact across the first camera preview on the touch-sensitive display. In response, the device replaces display of the first camera interface with a second camera interface, which includes a second camera preview and a second capture affordance for initiating capture of video content with the one or more cameras.

Methods and systems are disclosed for enabling item selection in a widget. An example method comprises receiving at an electronic device, from a server, code instructing the electronic device to display a widget having a grid comprising one or more cells configured for point-and-click selection. The method further comprises displaying the grid in accordance with the received code and sending information associated with a currently selected cell to an assistive system on the electronic device. The method further comprises configuring the electronic device for keystroke operation of the widget. The method further comprises identifying a non-entry keystroke, and in response, determining a new cell associated with the grid, selecting the new cell, and sending information associated with the new cell to the assistive system for output to the user. The method further comprises identifying an entry keystroke and, responsive thereto, sending information associated with the new cell to the server.

An information processing apparatus capable of newly displaying an object for text to display text in an enlarged view in accordance with a user operation. The information processing apparatus includes a display control unit configured to display a text input dialogue at a predetermined position in a display area of the information processing apparatus, a determination unit configured to determine whether or not the object for text extends off the display area, and a moving unit configured to move, in a case when it is determined that the object for text extends off the display area, the text input dialogue from the predetermined position in a direction opposite to a direction in which the object for text is displayed, with respect to the text input dialogue. The display control unit, the determination unit, and the moving unit are implemented by at least one processor of the information processing apparatus.

A method for scrolling through a representation of data that is too large to be presented legibly in its entirety within confines of a display is disclosed. The method includes presenting a section of the representation on the display. A portion of the representation is selected, using the section presented on the display, for scrolling on. The presentation of the section presented on the display is modified to include additional representation based on the portion selected. The additional content is to be presented in a non-linear fashion. Input from a user interface associated with movement through the additional content is received. The movement is to provide non-linear scrolling through the additional content. Apparatus for performing the method is also disclosed.

A multi-window user interface (UI) on a control device such as a tablet computer communicates commands to a display controller, which may be implemented by a game console. The controller controls presentation on a large screen display according to the commands. The control device may always present a multi-window UI which the control device can command to have mimicked on the display, with the UI also being configured to cause a single video to be presented whole screen on the display while the multi-window UI remains presented on the control device. The video feeds that populate the multi-window UI are of the same content but of lower resolution than those which are presented on the display. A movable window on the control device can be dragged and dropped to cause a corresponding magnifying focus on the display over the corresponding portion of video in focus on the control device.

A computer-implemented method for selecting a graphical element displayed on a touch-sensitive display. The method comprises displaying a graphical element on the touch-sensitive display; detecting a first location of a first user interaction on the touch-sensitive display; displaying a window on the display, the window comprising a pointer for selecting a graphical element; rendering in the window an area surrounding the first location of the first user interaction; detecting a second user interaction on the touch-sensitive display; detecting a move of the second user interaction on the touch-sensitive display; and moving the pointer within the window according to the move of the second user interaction.

In an implementation, a presentation program includes a hotspot feature that allows a point in a slide to be designated as a hotspot. Supplemental content may then be associated with the hotspot such that, when the hotspot is invoked in a slide presentation, the supplemental content is surfaced.

A medical imaging system (100) includes a user interface (110) and a magnifying view engine (130). The user interface displays a view of a medical image on a display device (114) and to provide a moveable indicator (116) identifying a moveable point positioned in the displayed medical image. The magnifying view engine (130) generates a localized enlargement of a region of interest within the displayed medical image in response to selection of an existing end point or an existing contour in the displayed medical image according to a first input by one or more input devices and indicated by a current position of the moveable indicator.

A computer-implemented self-learning method to generate a personalized virtual aisle via a remote acquisition mechanism associated with an entity comprises the step of accessing, using an online structure, an image database to retrieve a plurality of images. Each of the plurality of images represents an item offered by the entity. The method includes using the online structure to scale each of the plurality of images in proportion to an actual size of the item being represented by the images. The method comprises creating, using the online structure and a set of rules, a plurality of aisle blocks. The method includes dynamically grouping the plurality of aisle blocks based on each of a historical record of a patron and the set of rules to create the virtual aisle. The method comprises displaying the virtual aisle on an output accessible to the patron.

A computer-implemented method and system for implementing a user interface (UI) tool for a touchscreen computer device displays a UI tool on a display of the touchscreen computer device. The UI tool is initially offset from a position of an object touching the surface of the display. The user controls the UI tool using the object. A command is executed, which operates on an entity indicated by the UI tool.