`steam/engine/mock-dispatcher.hpp |cpp` now integrates this
''complete mock setup for render jobs and frame dispatching.''
The exising `DummyJob` has been slightly adapted and renamed
to `MockJob` and is tightly integrated with the other mocks.
The implementation of a `MockDispatcher` necessitated to change
the use of `MockJobTicket`. The initial attempts used a complete
mock implementation, but this approach turned out not to be viable.
Instead — based on the ideas developed for the mock setup —
now the prospective real implementation of `JobTicket` is available
and will be used by the mock setup too. Instead of a synthetic spec,
now a setup of recursively connected `ExitNode`(s) is used; the latter
seems to develop into some kind of Facade for the render node network.
Based on this mock setup, we can now demonstrate the (mostly) complete
Job-Planning pipeline, starting from a segmentation up to render jobs,
and verify proper connectivity and job invocation.
✔
PROBLEM: can not implement Spec-generation, since
- we must use a λ for internal allocation of JobTickets
- but recursive type inference is not possible
Will thus need to abandon the Spec-Tuple and relocate this
traversal-and-generation code into JobTicket itself
...this opens up yet another difficult question and a host of new problems
- how are prerequisites detected or arranged by the Builder
- how are prerequisites represented?
- what is an ExitNode in terms of implementation? A subclass of ProcNode?
- how will the actual implementation of JobTicket creation (on-demand) work?
- how to adapt the Mock implementation, while retaining the Specification
for Segments and prerequisites?
...it turns out that we actually do not need to wrap TreeExplorer
on the builder types, because basically there is only a single active
builder type, and the complete processing pipeline can be assembled
in a single terminal function.
The type rebinding problem can thus be solved just by a simple
marker struct, which inherits from a template parameter
...which leads to the next daunting problems:
- we need some mocked ModelPort and DataSink placeholders
- we need a way how to inherit from a partial TreeExplorer pipeline
...which is build a »Job planning pipeline« step by step
in a test setup, and then factor that out as RenderDrive,
to supersede the existing CalcPlanContinuation and get
rid of the Monads this way...
Challenges
- there is a inconsistency with channel usage
- need to establish a way how to transport the output-Sink into the JobFunctor
- need a way to propagate the current frame number to the next planning chunk
The prototypical setup of data structures and test support components
is largely complete by now — with the exception of the `MockDispatcher`,
which will be completed while moving to the next steps pertaining the
setup of a frame dispatch pipeline.
* the existing `DummyJob` was augmented to allow verification of
association between Job and `JobTicket`
* the existing implementation of `JobTicket` was verified and augmented
to allow coverage of the whole usage cycle
* a `MockJobTicket` was implemented on top, which can be generated
from a symbolical test specification (rather than from the real
Fixture data structure)
* a complete `MockSegmentation` was developed, allowing to establish
all the aforementioned data structures without an actual backing
Render Engine. Moreover, `MockSegmentation` can be generated
from the aforementioned symbolic test specification.
* as part of this work, an algorithm to split an existing Segmentation
and to splice in new segments was developed and verified
The idea is to escape a "design deadlock" by using a test-driven prototype
implementation of the data structure to back a further development
of the Dispatcher and Scheduler implementation, which then can be used
to gradually elaborate and switch over to an actual implementation
data structure
...requires a first attempt towards defining a `JobTiket`.
This turns out quite tricky, due to using those `LinkedElements`
(intrusive single linked list), which requires all added records
actually to live elsewhere. Since we want to use a custom allocator
later (the `AllocationCluster`), this boils down to allocating those
records only when about to construct the `JobTicket` itself.
What makes matters even worse: at the moment we use a separate spec
per Media channel (maybe these specs can be collapsed later non).
And thus we need to pass a collection -- or better an iterator
with raw specs, which in turn must reveal yet another nested
sequence for the prerequisite `JobTickets`.
Anyhow, now we're able at least to create an empty `JobTicket`,
backed by a dummy `JobFunctor`....
- build the reworked Job-planning pipeline more or less from scratch
- back that with mocked `Dispatcher` and `JobTicket`
- then transfer this into a `RenderDrive`, which can be tested as well
- could continue then to a `CalcStream` integration test....
