changes, then the dependent page is rebuilt. At the moment the implementation uses the same hack used by map and inline -
just add all the pages that currently exist as traditional content dependencies.
+> As I note below, a problem with this approach is that it has to try
+> matching the pagespec against every page, redundantly with the work done
+> by the plugin. (But there are ways to avoid that redundant matching.)
+> --[[Joey]]
+
Getting back to commenting on your proposal:
Just talking about the definition of a "presence dependency" for the moment, and ignoring implementation. Is a
`new_page` will match the spec, and yet `new_page` itself hasn't changed. Nor has its 'presence' - it was present
before and it is present now. Should this cause a re-build of any page that has a 'presence' dependency on the spec?
+> Yes, a presence dep will trigger when a page is added, or removed.
+
+> Your example is valid.. but it's also not handled right by normal,
+> (content) dependencies, for the same reasons. Still, I think I've
+> addressed it with the pagespec influence stuff below. --[[Joey]]
+
I think that is another version of the problem you encountered with meta-data.
In the longer term I was thinking we'd have to introduce a concept of 'internal pagespec dependencies'. Note that I'm
-- [[Will]]
+> I have also been thinking about some sort of analysis pass over pagespecs
+> to determine what metadata, pages, etc they depend on. It is indeed
+> tricky to do. More thoughts on influence lists a bit below. --[[Joey]]
+
----
### Link dependencies
One way to fix this is to include with each dependency, a list of pages
that currently match it. If the list changes, the dependency is triggered.
-Should be doable, but seems to involve a more work than
+Should be doable, but may involve more work than
currently. Consider that a dependency on "bugs/*" currently
is triggered by just checking until *one* page is found to match it.
But to store the list, *every* page would have to be tried against it.
Unless the list can somehow be intelligently updated, looking at only the
-changed pages.
+changed pages.
+
+----
+
+Found a further complication in presence dependencies. Map now uses
+presence dependencies when adding its explicit dependencies on pages. But
+this defeats the purpose of the explicit dependencies! Because, now,
+when B is changed to not match a pagespec, the A's presence dep does
+not fire.
+
+I didn't think things through when switching it to use presence
+dependencies there. But, if I change it to use full dependencies, then all
+the work that was done to allow map to use presence dependencies for its
+main pagespec is for naught. The map will once again have to update
+whenever *any* content of the page changes.
+
+This points toward the conclusion that explicit dependencies, however they
+are added, are not the right solution at all. Some other approach, such as
+maintaining the list of pages that match a dependency, and noticing when it
+changes, is needed.
+
+----
+
+### pagespec influence lists
+
+I'm using this term for the concept of a list of pages whose modification
+can indirectly influence what pages a pagespec matches.
+
+#### Examples
+
+* The pagespec "created_before(foo)" has an influence list that contains foo.
+ The removal or (re)creation of foo changes what pages match it.
+
+* The pagespec "foo" has an empty influence list. This is because a
+ modification/creation/removal of foo directly changes what the pagespec
+ matches.
+
+* The pagespec "*" has an empty influence list, for the same reason.
+ Avoiding including every page in the wiki into its influence list is
+ very important!
+
+* The pagespec "title(foo)" has an influence list that contains every page
+ that currently matches it. A change to any matching page can change its
+ title. Why is that considered an indirect influence? Well, the pagespec
+ might be used in a presence dependency, and so its title changing
+ would not directly affect the dependency.
+
+* The pagespec "backlink(index)" has an influence list
+ that contains index (because a change to index changes the backlinks).
+
+* The pagespec "link(done)" has an influence list that
+ contains every page that it matches. A change to any matching page can
+ remove a link and make it not match any more, and so the list is needed
+ due to the removal problem.
+
+#### Low-level Calculation
+
+One way to calculate a pagespec's influence would be to
+expand the SuccessReason and FailReason objects used and returned
+by `pagespec_match`. Make the objects be created with an
+influence list included, and when the objects are ANDed or ORed
+together, combine the influence lists.
+
+That would have the benefit of allowing just using the existing `match_*`
+functions, with minor changes to a few of them to gather influence info.
+
+But does it work? Let's try some examples:
+
+Consider "bugs/* and link(done) and backlink(index)".
+
+Its influence list contains index, and it contains all pages that the whole
+pagespec matches. It should, ideally, not contain all pages that link
+to done. There are a lot of such pages, and only a subset influence this
+pagespec.
+
+When matching this pagespec against a page, the `link` will put the page
+on the list. The `backlink` will put index on the list, and they will be
+anded together and combined. If we combine the influences from each
+successful match, we get the right result.
+
+Now consider "bugs/* and link(done) and !backlink(index)".
+
+It influence list is the same as the previous one, even though a term has
+been negated. Because a change to index still influences it, though in a
+different way.
+
+If negation of a SuccessReason preserves the influence list, the right
+influence list will be calculated.
+
+Consider "bugs/* and (link(done) or backlink(index))"
+and "bugs/* and (backlink(index) or link(done))'
+
+Its clear that the influence lists for these are identical. And they
+contain index, plus all matching pages.
+
+When matching the first against page P, the `link` will put P on the list.
+The OR needs to be a non-short-circuiting type. (In perl, `or`, not `||` --
+so, `pagespec_translate` will need to be changed to not use `||`.)
+Given that, the `backlink` will always be evalulated, and will put index
+onto the influence list. If we combine the influences from each
+successful match, we get the right result.
+
+#### High-level Calculation and Storage
+
+Calculating the full influence list for a pagespec requires trying to match
+it against every page in the wiki.
+
+I'd like to avoid doing such expensive matching redundantly. So add a
+`pagespec_match_all`, which returns a list of all pages in the whole
+wiki that match the pagespec, and also adds the pagespec as a dependency,
+and while it's at it, calculates and stores the influence list.
+
+It could have an optional sort parameter, and limit parameter, to control
+how many items to return and the sort order. So when inline wants to
+display the 10 newest, only the influence lists for those ten are added.
+
+If `pagespec_match_depends` can be used by all plugins, then great,
+influences are automatically calculated, no extra work needs to be done.
+
+If not, and some plugins still need to use `pagespec_match_list` or
+`pagespec_match`, and `add_depends`, then I guess that `add_depends` can do
+a slightly more expensive influence calculation.
+
+Bonus: If `add_depends` is doing an influence calculation, then I can remove
+the nasty hack it currently uses to decide if a given pagespec is safe to use
+with an existence or links dependency.
+
+Where to store the influence list? Well, it appears that we can just add
+(content) dependencies for each item on the list, to the page's
+regular list of simple dependencies. So, the data stored ends up looking
+just like what is stored today by the explicit dependency hacks. Except,
+it's calculated more smartly, and is added automatically.