An example method of displaying a data visualization includes displaying a plurality of selectable fields and receiving user selections of two different fields from the plurality of selectable fields. The method also includes generating, in accordance with the received user selections, data marks to be displayed in a data visualization, each data mark corresponding to a respective retrieved tuple of data from a multidimensional database, where (i) each data mark has an x-position defined according to data for a first field in the respective tuple and (ii) each data mark has a y-position defined according to data for a second field in the respective tuple. The method also includes displaying the data visualization that includes the generated data marks.

An example method of displaying a data visualization includes displaying a graphical user interface that includes three distinct regions, and receiving user actions to associate two different fields with two different shelves. The method also includes generating, in accordance with the received user actions, data marks to be displayed in a data visualization, each data mark corresponding to a respective retrieved tuple of data from a multidimensional database, where (i) each data mark has an x-position defined according to data for a first field in the respective tuple and (ii) each data mark has a y-position defined according to data for a second field in the respective tuple. The method also includes displaying a data visualization that includes the generated data marks.

A method and apparatus for processing packets in a network are disclosed. For example, the method scans one or more packets representing a content that is being transferred via the network, where the scanning acquires one or more content elements. The method then builds a keyterm index from the one or more content elements, and stores the keyterm index in a repository. A query handler then responds to queries in accordance with the keyterm index.

A user provides an annotation, such as text or graphics, in relation to a resource available on a computer network. The annotation is automatically stored and/or retrieved without requiring separate action from the user to accomplish the storage or retrieval. An annotation interface may receive the annotation from the user. The annotation is then stored in association with the user and the network address of the resource. The user's annotation may be later retrieved and displayed to the user based on the network address of the resource. In one specific embodiment, a browser toolbar receives and displays user annotations associated with Web sites or Web pages to which the user has navigated. Preferably, the annotation interface remains available to the user throughout the time in which the resource is provided. Further controls may enable the user to make an annotation publicly available to others, and to receive annotations from others.

A content administration system receives user identification information from a terminal device via the Internet. The content administration system then specifies content administration information storage means corresponding to the received user identification information. The content administration system acquires object path information correlated to sharing permission information from a content administration information storage means of another unspecified user. The content administration system then acquires an icon image from the icon image storage means. The content administration system then makes display control information for the content administration screen containing the icon leading to the object based on the acquired icon image and the acquired object path information. The content administration system transmits the made display control information to the terminal device via the Internet. As a result, an administrator of a web site does not have to add a content path corresponding to an HTML file when adding content to a web site administered by themselves or when sharing content with another web site.

A user provides an annotation, such as text or graphics, in relation to a resource available on a computer network. The annotation is automatically stored and/or retrieved without requiring separate action from the user to accomplish the storage or retrieval. An annotation interface may receive the annotation from the user. The annotation is then stored in association with the user and the network address of the resource. The user's annotation may be later retrieved and displayed to the user based on the network address of the resource. In one specific embodiment, a browser toolbar receives and displays user annotations associated with Web sites or Web pages to which the user has navigated. Preferably, the annotation interface remains available to the user throughout the time in which the resource is provided. Further controls may enable the user to make an annotation publicly available to others, and to receive annotations from others.

The invention provides a system and method for file synchronization. One embodiment of the system of this invention includes a software program stored on a computer readable medium. The software program can be executed by a computer processor to receive a file from a server; store the file as a cached file in a cache; determine if the cached file has been modified; and if the cached file has been modified, communicate the cached file directly to the database.

An exemplary method of displaying a data visualization includes retrieving a dataset that includes a plurality of fields and displaying a graphical user interface with a plurality of shelves. The method further includes receiving user actions to: (i) associate a first field with a first shelf, and (ii) associate a second field with a second shelf; displaying, in accordance with the received user actions, a data visualization, where each data mark has a first size defined according to a default position of a displayed slidable affordance; and receiving an additional user action that moves the slidable affordance from the default position to a user-defined position. In response to receiving the additional user action, the method further includes updating the data visualization, where each data mark included in the updated data visualization has a second size, different from the first size, defined according to the user-defined position of the slidable affordance.

An exemplary method of displaying a data visualization includes displaying a graphical user interface that includes three distinct regions, and receiving user actions to associate three different fields with three different shelves, including a shelf that defines colors of data marks. The method also includes generating, in accordance with the received user actions, data marks to be displayed in a data visualization, each data mark corresponding to a respective retrieved tuple of data from a multidimensional database, where (i) each data mark has an x-position defined according to data for a first field in the respective tuple, (ii) each data mark has a y-position defined according to data for a second field in the respective tuple, and (iii) each data mark has a color assigned according to data for a third field in the respective tuple. The method also includes displaying a data visualization that includes the generated data marks.

A method is performed at a computer. The computer retrieves a dataset having a plurality of fields, including a first field and a second field. The computer displays a graphical user interface, including a first region displaying the plurality of fields from the dataset, a second region having a plurality of shelves determined according to a user-selected data visualization type, and a third region for displaying one or more data visualizations. The computer receives user actions to drop the first field on a first shelf and to drop the second field on a second shelf. The first and second shelves define positional attributes of data marks. The computer displays a data visualization in the third region. Each data mark has a position in the data visualization determined according to the first shelf, a data value for the first field, the second shelf, and a data value for the second field.