diff options
Diffstat (limited to 'chain/src/plan.org')
-rw-r--r-- | chain/src/plan.org | 44 |
1 files changed, 26 insertions, 18 deletions
diff --git a/chain/src/plan.org b/chain/src/plan.org index c2a9037..1da33cc 100644 --- a/chain/src/plan.org +++ b/chain/src/plan.org @@ -2,7 +2,7 @@ #+AUTHOR: Durand #+DATE: <2022-11-18 Ven 19:57> -* Things to do [7/10] +* Things to do [6/9] - [X] Implement builders for graphs - [X] Find sets of the first terminals for each non-terminal, in the @@ -79,15 +79,13 @@ lack of this step might be the root cause of the failure of the previous version of this project. + [X] Test atoms -- [X] Implement forests [4/4] - + [X] Design a format of forests. This should be the most crucial - thing to do, in order to have a better understanding of the whole - picture. I need to have a clear understanding of the details of - the binarised shared packed parsed forests, that reflects the - regular expressions in the grammar equations. - + [X] Define a trait with the expected behaviours. - + [X] Implement them as parents-knowing graphs. - + [X] Test +- [ ] Implement semiring. [0/5] + + [ ] Define the trait. + + [ ] Define items and rules for the chain-rule parser, as an + item-based description. + + [ ] Implement the boolean semiring. + + [ ] Implement the natural number semiring. + + [ ] Implement the free semiring. - [-] Implement languages. [4/6] + [X] First define a trait with the expected behaviours. + [X] Then implement them as doubly labelled graphs. @@ -95,19 +93,29 @@ with a position in the forest. This perfectly solves the problem of those "plugs"! + [X] Then implement finding derivatives by use of the chain rule. - + [ ] Handle Forests + + [ ] Handle Semirings + [-] Tests -- [ ] Implement semiring. [0/5] - + [ ] Define the trait. - + [ ] Implement the boolean semiring. - + [ ] Implement the natural number semiring. - + [ ] Implement the free semiring. - + [ ] Compute and record a semiring value when computing - derivatives. - [X] Miscellaneous [1/1] + [X] Implement a function for NFA that checks if a given predicate is satisfied for each edge label. +** Forests + +This was a failed attempt to handle forests. I decided to handle +forests as a special case of semi-rings. This is not only more +systematic, but has also the potential of handling more general +semi-rings later, like the Viterbi semirings, for example. + +- [X] Implement forests [4/4] + + [X] Design a format of forests. This should be the most crucial + thing to do, in order to have a better understanding of the whole + picture. I need to have a clear understanding of the details of + the binarised shared packed parsed forests, that reflects the + regular expressions in the grammar equations. + + [X] Define a trait with the expected behaviours. + + [X] Implement them as parents-knowing graphs. + + [X] Test + * Atomic Languages This describes the behaviours of atomic languages. The atomic |