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retroforth/example/rilo-editor.retro
crc a5e61c80ad add block-editor to the library 
FossilOrigin-Name: e7489651739c0ea870c3fddd687ef44cc20d73686b01a35091147f075420297b
2023-12-11 12:48:15 +00:00

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This is a port of the Konilo block editor to RetroForth. Much of
this will be the same as the original implementation, but there
are a few small differences.
RetroForth provides three words for interfacing with a block
store:
block:set-file (s-)
block:read (na-)
block:write (na-)
This begins by using these to implement the `block:load` and
`block:save`. The initial block store is set to `ilo.blocks`.
~~~
'ilo.blocks block:set-file
:block:load block:read ;
:block:save block:write ;
~~~
In Konilo, the memory is constrained to 65,536 cells, with a
defined memory map. Since Retro/nga does not do this, the block
buffer is allocated inline.
Additionally, under Konilo, the cell preceeding the block buffer
is used as a count. I allocate two extra cells and patch the
block buffer starting address manually.
~~~
'block:buffer d:create #1026 allot
&block:buffer n:inc @Dictionary d:xt store
~~~
Variables to track the current block and the number of blocks
are provided. Alter the `Blocks` count to match your actual
data store limits.
~~~
'Block var
#128 'Blocks var-n
~~~
`e:line` displays a line from the block buffer.
~~~
:e:line (n-)
#64 n:mul block:buffer n:add
#64 [ fetch-next c:put ] times drop nl ;
~~~
:e:for-each-line (q-)
#16 [ block:buffer I #64 n:mul #64 s:middle swap &call sip ]
indexed-times drop ;
~~~
{{
:sep sp sp sp #6 [ '+----5---- s:put ] times '+--- s:put nl ;
:l/n I dup #10 lt? &sp if n:put sp ;
:line l/n I e:line ;
:lines #16 &line indexed-times ;
:block# 'Editing_# s:put @Block n:put
'_of_ s:put @Blocks n:dec n:put nl ;
---reveal---
:list* nl #16 [ I e:line ] indexed-times ;
:list# nl lines ;
:list nl sep lines sep block# ;
}}
~~~
The next several words are for navigating through and saving
blocks.
+------+----+----------------------------------------------+
| Word | | Description |
+======+====+==============================================+
| set | n- | Set the current block to 'n' |
| load | | (Re)load the current block |
| next | | Load the next block |
| prev | | Load the previous block |
| new | | Erase the contents of the block buffer |
| edit | n- | Set the current block to 'n', load & list it |
+------+----+----------------------------------------------+
~~~
&list 'e:Display var-n
{{
:constrain @Block #0 @Blocks n:dec n:limit !Block ;
---reveal---
:set &Block store constrain ;
:save &Block fetch block:buffer block:save ;
:load &Block fetch block:buffer block:load ;
:next &Block v:inc constrain load ;
:prev &Block v:dec constrain load ;
:new block:buffer #1024 [ #32 swap store-next ] times drop ;
:edit set load @e:Display call ;
}}
~~~
~~~
:e:to-line #64 n:mul block:buffer n:add ;
:e:erase/line
e:to-line #32 swap #64 [ dup-pair store n:inc ] times
drop-pair ;
:e:replace &e:to-line dip [ over store n:inc ] s:for-each drop ;
:e:replace-at [ &e:to-line dip n:add ] dip
[ over store n:inc ] s:for-each drop ;
:e:insert dup e:erase/line s:get e:replace ;
:e:insert-at s:get e:replace-at ;
:0 #0 e:insert ;
:1 #1 e:insert ;
:2 #2 e:insert ;
:3 #3 e:insert ;
:4 #4 e:insert ;
:5 #5 e:insert ;
:6 #6 e:insert ;
:7 #7 e:insert ;
:8 #8 e:insert ;
:9 #9 e:insert ;
:10 #10 e:insert ;
:11 #11 e:insert ;
:12 #12 e:insert ;
:13 #13 e:insert ;
:14 #14 e:insert ;
:15 #15 e:insert ;
~~~
To run the code in the block buffer, execute `run`.
This makes use of `s:evaluate` from Konilo, where strings are
arrays.
~~~
{{
'max-length var
'source var
'index var
'token d:create #65 allot
:eoi? &index &max-length &fetch bi@ gt? ;
:eow? &token fetch &token n:add fetch
[ #32 eq? ] [ #0 eq? ] bi or ;
:set-input
#0 &index store
[ &source store ] [ a:length &max-length store ] bi ;
:get-char
&source fetch &index fetch a:fetch
&token v:inc &index v:inc
&token fetch &token n:add store ;
:parse-word
#0 &token store
[ get-char eow? eoi? or ] until
&token dup v:dec ;
:count-words #1 swap [ #32 eq? &n:inc if ] a:for-each ;
:valid? dup a:length n:-zero? ;
:s:evaluate
&set-input &count-words bi
[ parse-word valid? [ a:to-string interpret ] &drop choose ] times ;
---reveal---
:run &block:buffer n:dec #1024 over store s:evaluate ;
}}
~~~
+-------+-----+--------------------------------------------+
| Word | | Description |
+=======+=====+============================================+
| use | n- | Load and run the code in block "n" |
| using | fl- | Load and run the code in blocks "f" to "l" |
+-------+-----+--------------------------------------------+
~~~
:use (block) set load run ;
:using (first,last)
over n:sub swap set load run [ next run ] times ;
~~~
`titles` iterates through the blocks, displaying the title
(first line) of any block that does not start with a blank
space.
~~~
{{
:setup #64 block:buffer n:dec store ;
:has-description? block:buffer fetch #32 -eq? ;
:display [ I n:put tab #0 e:line ] if ;
:describe I set load has-description? display ;
:save &Block fetch ;
:restore &Block store load ;
---reveal---
:titles save setup @Blocks &describe indexed-times restore ;
}}
~~~
`needs` takes a string with a block identifier and loads/runs
code in any block matching this. Example:
'(doubles) needs
Would load any blocks containing "(doubles)" as the initial
token in their index line. Tokens after the first one are
ignored. So the above would match:
(doubles) (constants)
(doubles) (variables)
but not:
(singles) (constants)
~~~
{{
'Hash var
:reset #64 block:buffer n:dec store ;
:actual block:buffer n:dec dup #32 a:index a:left a:to-string ;
:code? block:buffer fetch $( eq? ;
---reveal---
:needs (s-)
@Hash [ @Block swap
s:hash !Hash
@Blocks [ I set load reset code?
[ actual s:hash @Hash eq?
&run if ] if ] indexed-times
!Block load ] dip !Hash ;
}}
~~~
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