Alt Design
Classes overview
Properties classes

Property parsing

Compound properties
User agent refs

Implementing Co-routines in FOP

All general page layout systems have to solve the same fundamental problem: expressing a flow of text with its own natural structure as a series of pages corresponding to the physical and logical structure of the output medium. This simple description disguises many complexities. Version 1.0 of the Recommendation, in Section 3, Introduction to Formatting , includes the following comments.

Note [Formatting] comprises several steps, some of which depend on others in a non-sequential way.
[R]efinement is not necessarily a straightforward, sequential procedure, but may involve look-ahead, back-tracking, or control-splicing with other processes in the formatter.

Section 3.1, Conceptual Procedure, includes:

Note The procedure works by processing formatting objects. Each object, while being processed, may initiate processing in other objects. While the objects are hierarchically structured, the processing is not; processing of a given object is rather like a co-routine which may pass control to other processes, but pick up again later where it left off.

Application of co-routines

If one looks only at the flow side of the equation, it's difficult to see what the problem might be. The ordering of the elements of the flow is preserved in the area tree, and where elements are in an hierarchical relationship in the flow, they will generally be in an hierarchical relationship in the area tree. In such circumstances, the recursive processing of the flow seems quite natural.

The problem becomes more obvious when one thinks about the imposition of an unrelated page structure over the hierarchical structure of the document content. Take, e.g., the processing of a nested flow structure which, at a certain point, is scanning text and generating line-areas, nested within other block areas and possibly other line areas. The page fills in the middle of this process. Processing at the lowest level in the tree must now suspend, immediately following the production of the line-area which filled the page. This same event, however, must also trigger the closing and flushing to the area tree of every open area of which the last line-area was a descendant.

Once all of these areas have been closed, some dormant process or processes must wake up, flush the area sub-tree representing the page, and open a new page sub-tree in the area tree. Then the whole nested structure of flow objects and area production must be re-activated, at the point in processing at which the areas of the previous page were finalised, but with the new page environment. The most natural way of expressing the temporal relationship of these processes is by means of co-routines.

Normal sub-routines (methods) display a hierarchical relationship where process A suspends on invoking process B, which on termination returns control to A which resumes from the point of suspension. Co-routines instead have a parallel relationship. Process A suspends on invoking process B, but process B also suspends on returning control to process A. To process B, this return of control appears to be an invocation of process A. When process A subsequently invokes B and suspends, B behaves as though its previous invocation of A has returned, and it resumes from the point of that invocation. So control bounces between the two, each one resuming where it left off.

Figure 1

Co-routine diagram

For example, think of a page-production method working on a complex page-sequence-master.

	  void makePages(...) {
	    while (pageSequence.hasNext()) {
	      page = generateNextPage(...);
	      boolean over = flow.fillPage(page);
	      if (over) return;

The fillPage() method, when it fills a page, will have unfinished business with the flow, which it will want to resume at the next call; hence co-routines. One way to implement them in Java is by threads synchronised on some common argument-passing object.

Copyright © 2001-2002 The Apache Software Foundation. All Rights Reserved.