...with the preceding IterableDecorator refactoring,
the navigation and access to the storage extents can now be
organised into a clear progression
Allocator::iterator -> EpochIter -> Epoch&
Convenience management and support functions can then be
pushed down into Epoch, while iteration control can be done
high-level in BlockFlow, based on the helpers in Epoch
..this is the most simple case, where no Epochs are opened yet
..add diagnostics to inspect alloc count and deadlines
..add accessors for the first/last underlying Extent
Library: add "obvious" utility to the IterExplorer, allowing to
materialise all contents of the Pipeline into a container
...use this to take a snapshot of all currently active Extent addresses
- use a checksum to prove that ctor / dtor of "content" is not invoked
- let the usage of active extents "wrap around" so that the mem block is re-used
- verify that the same data is still there
The low-level allocator is basically implemented now,
but we still need to check thoroughly that the tricky
wrap-around and expansion logic behaves sane...
(see #1311)
Iteration should just yield an Reference to an Extent,
thereby hiding all details of the actual raw storage (char[]).
This can be achieved by usind a wrapper type around a pointer
into the managing vector; from this pointer we may convert
into a vector::iterator with the trick described here
https://stackoverflow.com/a/37101607/444796
Furthermore, continued planning of the Activity-Language,
basically clarified the complete usage scenario for now;
seems all implementable right away without further difficulties
using a simple yet performant data structure.
Not clear yet if this approach is sustainable
- assuming that no value initialisation happens for POD payload
- performance trade-off growth when in wrapped-state vs using a list
