摘要:
A server computing architecture is provided that uses minimal download features and includes error failover functionality. A server computer may receive an electronic page request and calculate a delta between a known static baseline electronic page and the requested electronic page. The static baseline electronic page may include an electronic page without content that utilizes a master electronic page. The master electronic page may include shared content for electronic pages associated with a website. The server computer may further determine whether one more errors are associated with rendering the calculated delta, render a payload comprising only the calculated delta upon determining an absence of the one or more errors and failover to one or more options upon determining that the one or more errors are associated with rendering the calculated delta.
摘要:
A client computing architecture is provided that utilized minimal download and simulated page navigation features. A client computer may receive a payload comprising delta data in response to a navigation request for an electronic page. The client computer may further parse the delta data for the electronic page, update page contents for the electronic page based on the received delta data, determine whether one or more errors are associated with a page load process for the electronic page, manage a fragment identifier portion of a uniform resource locator (URL) to track a current location in a navigation of the electronic page, and intercept one or more navigation click events to ensure a minimal download strategy navigation.
摘要:
A client computing architecture is provided that utilized minimal download and simulated page navigation features. A client computer may receive a payload comprising delta data in response to a navigation request for an electronic page. The client computer may further parse the delta data for the electronic page, update page contents for the electronic page based on the received delta data, determine whether one or more errors are associated with a page load process for the electronic page, manage a fragment identifier portion of a uniform resource locator (URL) to track a current location in a navigation of the electronic page, and intercept one or more navigation click events to ensure a minimal download strategy navigation.
摘要:
A client computing architecture is provided that utilized minimal download and simulated page navigation features. A client computer may receive a payload comprising delta data in response to a navigation request for an electronic page. The client computer may further parse the delta data for the electronic page, update page contents for the electronic page based on the received delta data, determine whether one or more errors are associated with a page load process for the electronic page, manage a fragment identifier portion of a uniform resource locator (URL) to track a current location in a navigation of the electronic page, and intercept one or more navigation click events to ensure a minimal download strategy navigation.
摘要:
A server computing architecture is provided that uses minimal download features and includes error failover functionality. A server computer may receive an electronic page request and calculate a delta between a known static baseline electronic page and the requested electronic page. The static baseline electronic page may include an electronic page without content that utilizes a master electronic page. The master electronic page may include shared content for electronic pages associated with a website. The server computer may further determine whether one more errors are associated with rendering the calculated delta, render a payload comprising only the calculated delta upon determining an absence of the one or more errors and failover to one or more options upon determining that the one or more errors are associated with rendering the calculated delta.
摘要:
A client computing architecture is provided that utilized minimal download and simulated page navigation features. A client computer may receive a payload comprising delta data in response to a navigation request for an electronic page. The client computer may further parse the delta data for the electronic page, update page contents for the electronic page based on the received delta data, determine whether one or more errors are associated with a page load process for the electronic page, manage a fragment identifier portion of a uniform resource locator (URL) to track a current location in a navigation of the electronic page, and intercept one or more navigation click events to ensure a minimal download strategy navigation.
摘要:
Embodiments are provided that include the use of a cancelable command application programming interface (API) framework that provides cooperative multitasking for synchronous and asynchronous operations based in part on a command timing sequence and a cancelable command API definition. A method of an embodiment enables a user or programmer to use a cancelable command API definition as part of implementing a responsive application interface using a command timing sequence to control execution of active tasks. A cancelable command API framework of an embodiment includes a command block including a command function, a task engine to monitor the command function, and a timer component to control execution of asynchronous and synchronous tasks based in part on first and second control timing intervals associated with a command timing sequence. Other embodiments are also disclosed.
摘要:
Embodiments are provided that include client-server computing architectures that use minimal download features and functionality as part of page navigation operations, but are not so limited. In an embodiment, a client-server computer system uses a page transition strategy to navigate between electronic pages based in part on script, style, content, and/or other page differences that can be used as part of providing minimal download features and functionality. A method of an embodiment operates to package page incremental rendering information for use in rendering a new electronic page without having to reapply common aspects of the new electronic page and a reference electronic page. Other embodiments are also disclosed.
摘要:
Embodiments are provided that include the use of a cancellable command application programming interface (API) framework that provides cooperative multitasking for synchronous and asynchronous operations based in part on a command timing sequence and a cancellable command API definition. A method of an embodiment enables a user or programmer to use a cancellable command API definition as part of implementing a responsive application interface using a command timing sequence to control execution of active tasks. A cancellable command API framework of an embodiment includes a command block including a command function, a task engine to monitor the command function, and a timer component to control execution of asynchronous and synchronous tasks based in part on first and second control timing intervals associated with a command timing sequence. Other embodiments are also disclosed.
摘要:
Embodiments are provided that include client-server computing architectures that use minimal download features and functionality as part of page navigation operations, but are not so limited. In an embodiment, a client-server computer system uses a page transition strategy to navigate between electronic pages based in part on script, style, content, and/or other page differences that can be used as part of providing minimal download features and functionality. A method of an embodiment operates to package page incremental rendering information for use in rendering a new electronic page without having to reapply common aspects of the new electronic page and a reference electronic page. Other embodiments are also disclosed.