Disclosed are various embodiments for sharing documents among users of an enterprise as well as with users external to an enterprise. A document is identified and document components extracted from the document. A browser representation is generated that, when rendered or interpreted by a browser, causes the browser to generate a user interface that presents at least a portion of the document as the document would be viewed by a native viewer.

Disclosed are various embodiments for sharing documents among users of an enterprise as well as with users external to an enterprise. A document is identified and document components extracted from the document. A browser representation is generated that, when rendered or interpreted by a browser, causes the browser to generate a user interface that presents at least a portion of the document as the document would be viewed by a native viewer.

Implementations generally relate to extended schemas. In some implementations, a method includes displaying a first extensible markup language schema definition (XSD) schema, where the first XSD schema includes a plurality of XSD elements arranged in a tree structure. The method further includes receiving a selection of at least one XSD element of the plurality of XSD elements. The method further includes displaying one or more XSD extension selections associated with the at least one XSD element. The method further includes receiving at least one XSD extension selection of the one or more XSD extension selections. The method further includes appending in the tree structure at least one XSD extension element based on the at least one XSD extension selection.

Implementations generally relate to extended schemas. In some implementations, a method includes displaying a first extensible markup language schema definition (XSD) schema, where the first XSD schema includes a plurality of XSD elements arranged in a tree structure. The method further includes receiving a selection of at least one XSD element of the plurality of XSD elements. The method further includes displaying one or more XSD extension selections associated with the at least one XSD element. The method further includes receiving at least one XSD extension selection of the one or more XSD extension selections. The method further includes appending in the tree structure at least one XSD extension element based on the at least one XSD extension selection.

An HTML file transmitted to a client device is configured to call JavaScript code, where the JavaScript code is configured to call a requestAnimationFrame browser application programming interface (API) with an argument identifying a callback function. The callback function is configurable to cause the web browser to: 1) reset a first Cascading Style Sheets (CSS) animation of a first DOM element, the first CSS animation being configured to cause the first DOM element to transition from a hidden state to a visible state during a first time duration specified by a first animation-duration property of the first element using a specific set of CSS properties; and 2) call the requestAnimationFrame browser API with the argument identifying the callback function. Thus, the first DOM element remains hidden as long as the browser performs frame refreshes at an optimal rate. However, when the browser's main thread is busy, the first DOM element transitions to a visible state.

An HTML file transmitted to a client device is configured to call JavaScript code, where the JavaScript code is configured to call a requestAnimationFrame browser application programming interface (API) with an argument identifying a callback function. The callback function is configurable to cause the web browser to: 1) reset a first Cascading Style Sheets (CSS) animation of a first DOM element, the first CSS animation being configured to cause the first DOM element to transition from a hidden state to a visible state during a first time duration specified by a first animation-duration property of the first element using a specific set of CSS properties; and 2) call the requestAnimationFrame browser API with the argument identifying the callback function. Thus, the first DOM element remains hidden as long as the browser performs frame refreshes at an optimal rate. However, when the browser's main thread is busy, the first DOM element transitions to a visible state.

Web content display devices of various size, orientation, and other capabilities may be flexibly positioned on retail shelving or in other locations within a retail store or other space. A display device may be configured to display various information, including information served directly from a pre-existing web location such as a retail store product page, or a pre-existing advertising platform or interface. Web content requests and responses are managed by an adaptive content interface configured on the web content display device or a remote server. The interface is configured to identify a subset of web content within a response and automatically reorganize, restyle, and/or revise the subset of web content for display on the display device. The interface also interprets sensor output from the display device in order to generate clicks or impressions in a form recognizable by the advertising interface.

Web content display devices of various size, orientation, and other capabilities may be flexibly positioned on retail shelving or in other locations within a retail store or other space. A display device may be configured to display various information, including information served directly from a pre-existing web location such as a retail store product page, or a pre-existing advertising platform or interface. Web content requests and responses are managed by an adaptive content interface configured on the web content display device or a remote server. The interface is configured to identify a subset of web content within a response and automatically reorganize, restyle, and/or revise the subset of web content for display on the display device. The interface also interprets sensor output from the display device in order to generate clicks or impressions in a form recognizable by the advertising interface.

A solution is provided that significantly reduces the complexity of existing solutions for creating interfaces in a computer system. More particularly, a middleware common to such solutions is removed and a low-level approach is taken where customer-specific logic is processed on an Extensible Stylesheet Language transformation (XSLT) processor instead. Additional transformations may also then be imported from external XSLT editors making it very easy to generate a backend configuration for interfaces.

A solution is provided that significantly reduces the complexity of existing solutions for creating interfaces in a computer system. More particularly, a middleware common to such solutions is removed and a low-level approach is taken where customer-specific logic is processed on an Extensible Stylesheet Language transformation (XSLT) processor instead. Additional transformations may also then be imported from external XSLT editors making it very easy to generate a backend configuration for interfaces.