How is scrolling typically handled in a Windows application that has computationally expensive graphics to render? For example, if I am rendering a waveform graph of a sound, after processing the wave form from a peakfile, should I:
Render the entire graphical representation to an in-memory GDI surface, and then simply have a scrollable control change the start/end of the render area?
Render the visible portion of the wave only. In a separate thread, process any new chunks of the graphc that come into view.
Render the visible portion of the wave, plus a buffer. This way, there's less of a chance of the user seeing "blank" or "currently rendering" portions of the waveform. Still, if a user quickly scrolls to a distant area, the whole section will be blank until rendering is complete.
The problem is, many applications handle this in different ways.
Adobe Acrobat - renders blank pages during scroll unless page is in cache. Any pages that would be visible within the document render area are rendered in a separate thread and are presented opon completion.
Microsoft Word - Essentially, the same as above. Documents are separated into distinct pages, so each page is processed/rendered on an as-needed basis and added to a cache.
Internet Explorer - Unknown. It appears that an entire "webpage" is rendered in graphic memory, no matter how many "screens" worth of graphic data it consumes. Theoretically, with a web page that scrolls for 10 or 15 screen lengths, this could mean 50-60MB worth of graphic memory consumption. Could anyone with experience with WebKit or FireFox explain whether or not the rendering engine favors consuming a ton of memory, or tries to render peices of the page "on the fly" to conserve memory?
If it helps, my application is based on C#, .NET 3.5, and WinForms.