The present invention relates to a method, a system, and the associated software. With respect to the method, it is best characterized as a method of providing a user with an estimate of an aviation insurance premium from one or more vendors. The method may include receiving an aircraft identification input, transmitting user input information to one or more aviation insurance vendors, and displaying received aviation insurance premium estimates from one or more vendors. The system is best characterized as a system for administering aviation insurance estimates. In order to accomplish desired objectives, the system employs certain associated software to allow users to receive multiple aviation insurance premium quotes from one or more vendors.

Methods, computer program products, and/or systems are provided that perform the following operations: obtaining video data; dividing the video data into a plurality of video fragments based, at least in part, on page detection; extracting one or more elements from each of the plurality of video fragments; determining element type data for each of one or more extracted elements; generating element style data for the one or more extracted elements; determining page flow for the plurality of video fragments; and generating one or more pages based, at least in part, on the one or more elements extracted from the plurality of video fragments, the element type data, the element style data, and the page flow.

Methods, computer program products, and/or systems are provided that perform the following operations: obtaining video data; dividing the video data into a plurality of video fragments based, at least in part, on page detection; extracting one or more elements from each of the plurality of video fragments; determining element type data for each of one or more extracted elements; generating element style data for the one or more extracted elements; determining page flow for the plurality of video fragments; and generating one or more pages based, at least in part, on the one or more elements extracted from the plurality of video fragments, the element type data, the element style data, and the page flow.

A device may receive source code and identify, based on the source code, an abstract syntax tree representing an abstract syntactic structure of the source code. Based on the abstract syntax tree, the device may identify a closure, the closure implementing a function based on at least a portion of the abstract syntax tree. In addition, the device may perform an action based on the closure.

An apparatus is provided configured for parsing and formatting a message in a group-based communication interface. The apparatus includes a memory and a processor(s) configured to receive an input string generated through user engagement of the group-based communication interface. The processor is also configured to parse the input string to identify a structured format string. The processor is further configured to, in a circumstance where the structured format trigger is identified in the input string, apply a structured format to the input string to generate a structured message object for rendering to the group-based communication interface. Corresponding methods and computer program products are also provided.

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.

Aspects of the disclosure relate to processing systems for performing just-in-time front end template generation using a logical DOM. A computing device may receive, from a web server host platform, an HTML page with a DOM structure. The computing device may parse the DOM structure to generate a logical DOM, which may include a key value store identifying dynamic elements to be updated based on data received from a data source different from the web server host platform. The computing device may receive, from a data source computer system, source data. The computing device may modify the logical DOM, based on the source data, by replacing the dynamic elements with corresponding values from the source data. This may produce a first updated real DOM. The computing device may render a first graphical user interface based on the first updated real DOM, and may display the first graphical user 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.