摘要:
An in-vehicle macro system can include a bus connecting a volatile memory, a non-volatile storage medium, and a processor. The non-volatile memory can include a set of macros and a set of computer program products including instructions which the processor is configured to execute. The computer program products can include a macro playback component and a macro recorder. The macros can each include a linkage to a set of associated actions. Each of the actions can control an adjustable setting of a vehicle subsystem, wherein actions associated with a single macro are able to control settings of different vehicle subsystems. The macro playback component can execute the macros, where execution of each macro causes the actions associated with the macro to be performed. The macro recorder can be used to create new macros. Each newly established macro can include a set of user specified actions.
摘要:
The present invention discloses a solution for handling HTTP requests for content produced asynchronously by multiple servers, where a requesting client aggregates content. In the solution, a client can issue a content request to a request receiving server. The content request can define a request context. The request receiving server can deliver initial content including placeholders to the client, can issue asynchronous requests to multiple placeholder content servers, and can thereafter terminate threads/processes and can free resources involved in handling the request context. Each of the placeholder content servers can process one of the asynchronous requests and can convey placeholder content results to a result distribution service. The result distribution service can provide the client with the placeholder content. The client can aggregate the content from all sources.
摘要:
A request dispatcher can automatically switch between processing request dispatches (e.g., include( )) in a synchronous mode and an asynchronous mode. Each dispatch can be associated with a unique identification value such as a process ID or Uniform Resource Identifier (URI), historic metrics, and a ruleset. With each execution of the request dispatch, historic metrics can be collected. Metrics can include, but is not limited to, execution duration and/or execution frequency, processor load, memory usage, network input/output, number of dependent dispatches, and the like. Utilizing historic metrics, rules can be constructed for determining which mode to execute the subsequent execution of the dispatch. As such, runtime optimization of Web applications can be further improved.
摘要:
The present invention discloses a solution of a server-side result distribution service software program. The program can receive and store results related to a request context from different content providing servers. Asynchronous requests can be received from a client, which initiated a content request that defines the request context. A level of completeness for the request results that satisfies the received client request can be determined. The level of completeness can be compared against a previously established threshold. Either dynamically processed results or previously cached results can be delivered to the client depending upon an outcome of the comparing step. Server-side operations that produce the dynamically processed results can be operations initiated after the content request is sent by the client. Previously cached results can be generated from processes initiated before the content request is sent by the client.
摘要:
A request dispatcher can automatically switch between processing request dispatches in a synchronous mode and an asynchronous mode. Each dispatch can be associated with a unique identification value such as a process ID or Uniform Resource Identifier (URI), historic metrics, and a ruleset. With each execution of the request dispatch, historic metrics can be collected. Metrics can include, but is not limited to, execution duration and/or execution frequency, processor load, memory usage, network input/output, number of dependent dispatches, and the like. Utilizing historic metrics, rules can be constructed for determining which mode to execute the subsequent execution of the dispatch. As such, runtime optimization of Web applications can be further improved.
摘要:
A request dispatcher can automatically switch between processing request dispatches in a synchronous mode and an asynchronous mode. Each dispatch can be associated with a unique identification value such as a process ID or Uniform Resource Identifier (URI), historic metrics, and a ruleset. With each execution of the request dispatch, historic metrics can be collected. Metrics can include, but is not limited to, execution duration and/or execution frequency, processor load, memory usage, network input/output, number of dependent dispatches, and the like. Utilizing historic metrics, rules can be constructed for determining which mode to execute the subsequent execution of the dispatch. As such, runtime optimization of Web applications can be further improved.
摘要:
The Asynchronous Aggregator shifts the burden of retrieving and aggregating asynchronous responses by replacing asynchronous requests in an original request thread with placcholders with a unique identifier, creating new threads for each asynchronous request, writing a script to request the asynchronous request output, and returning the original request and the script to the client. Each of the new threads run independently and when completed, place the output in the server store. The script then requests each output from the server store as the output becomes available to fill the placeholders.
摘要:
A method, system, and computer program product for a remote request dispatcher (RRD) extension framework to transparently invoke container technologies in a multiple application server environment is provided. The method includes executing a local component on a local application server that contains a reference to a remote component on a remote application server. The method also includes receiving a request at the local component for the remote component to perform an action, locating a remote container associated with the referenced remote component, building an RRD request object on the local application server, adding an extension to the RRD request object, and sending the RRD request object with the extension to the remote application server. Furthermore, the method includes receiving the RRD request object with the extension on the remote application server, building an RRD response object, adding an extension handler response extension to the RRD response object, and sending the RRD response object to the local application server.
摘要:
A local server requests a resource from a remote server by using a remote request dispatcher (RRD) request that has been extended to utilize a javascript object notation (JSON).
摘要:
The present invention discloses a solution of a server-side result distribution service software program. The program can receive and store results related to a request context from different content providing servers. Asynchronous requests can be received from a client, which initiated a content request that defines the request context. A level of completeness for the request results that satisfies the received client request can be determined. The level of completeness can be compared against a previously established threshold. Either dynamically processed results or previously cached results can be delivered to the client depending upon an outcome of the comparing step. Server-side operations that produce the dynamically processed results can be operations initiated after the content request is sent by the client. Previously cached results can be generated from processes initiated before the content request is sent by the client.