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* TODO Refactoring [1/4]
- [X] Fix up logging
- [ ] Separate classes into files
- [ ] Put outer-loop in a class (out of main)
- [ ] Give EquationSystem methods for creating assignments/strategies
* TODO Verbosity [2/3]
- [X] Wrap output streams [5/5]
- [X] strategies
- [X] fixpoint
- [X] debug
- [X] trace
- [X] info
- [X] Command-line arguments [5/5]
- [X] strategies
- [X] fixpoint
- [X] debug
- [X] trace
- [X] info
- [-] Provide output [0/5]
- [-] strategies [1/2]
- [ ] print the system and assignment, then the next strategy
- [X] print each strategy like this:
max(0, x, sub(y,2)) --[2]-> sub(y,2)
- [ ] fixpoint
print the system we're working with, then print the resultant assignment
- [ ] debug
print the initial system we're working with
print more general info in the main loop (number of loops, each assignment/strategy)
- [ ] trace
maybe we don't need this
would be something like "entering/exiting" everything mildly important
- [ ] info
print the initial system we're working with
* TODO make test [0/4]
- [ ] write test cases [/]
- [ ] best cases
- [ ] worst cases
- [ ] average cases
- [ ] work out correct outputs for each test case
- [ ] write a script to run over each test case and return pass/fail
- [ ] consolidate into makefile as `make test`
* TODO Parametrise EquationSystem for Variable, too [0/1]
- [ ] Give EquationSystem a template parameter for Variable
I don't think this is necessary, but Thomas wants it
* TODO Min-cost flow problem [0/3]
- [ ] Research min-cost flow libraries
Potentially just use LEMON? It looks pretty decent.
- [ ] Implement the min-cost flow operator MCF
- [ ] Update test cases to include MCF
* TODO Presentation [0/2]
- [ ] Simplify "Even Faster" solver for explanation
- [ ] Make slides
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