summaryrefslogtreecommitdiff
path: root/chain
diff options
context:
space:
mode:
authorJSDurand <mmemmew@gmail.com>2023-01-13 14:26:28 +0800
committerJSDurand <mmemmew@gmail.com>2023-01-13 14:26:28 +0800
commit8f8d3d1a3c276be4be2e5d2e767ada564c47279a (patch)
treedaba317c8d381f7159f9a34d957291472bad2873 /chain
parent3c6511f69c7639abff60ac9999a08ce2daa24a7d (diff)
forest seems to be completed
I seem to have finished the implementation of forests. Now it remains the implementation of the chain-rule machine, of which I have a rough plan now.
Diffstat (limited to 'chain')
-rw-r--r--chain/src/plan.org19
1 files changed, 10 insertions, 9 deletions
diff --git a/chain/src/plan.org b/chain/src/plan.org
index b708413..84192f0 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 [6/10]
+* Things to do [7/10]
- [X] Implement builders for graphs
- [X] Find sets of the first terminals for each non-terminal, in the
@@ -79,6 +79,15 @@
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 languages. [1/4]
+ [X] First define a trait with the expected behaviours.
+ [ ] Then implement them as doubly labelled graphs.
@@ -86,14 +95,6 @@
+ [ ] Each edge in the chain-rule machine needs to be labelled also
with a position in the forest. This perfectly solves the problem
of those "plugs"!
-- [-] Implement forests [2/3]
- + [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.
- + [-] Implement them as parents-knowing graphs.
- [ ] Implement semiring. [0/5]
+ [ ] Define the trait.
+ [ ] Implement the boolean semiring.