retroforth/example/queue.retro
crc 2e95ec501a update more examples to use new word names
FossilOrigin-Name: 708314f58b4253b273c217a11265725bad4c8d7d7c53c503510440dade50be4d
2020-07-06 02:49:49 +00:00

155 lines
3.5 KiB
Forth

# FIFO Queue
This implements a FIFO queue. It was based on the code in
a comp.lang.forth post titled "A queue without move", but
has been refactored and expanded slightly. See
https://narkive.com/khcCauFY for the original posting.
# Limits
The queue size needs to be a power of 2.
# Code
~~~
:q:new (n-a) here [ #0 , #0 , dup , allot ] dip ;
:q:named (ns-) [ q:new ] dip const ;
:q:head (q-a) ; immediate
:q:tail (q-a) n:inc ;
:q:size (q-n) #2 + fetch ;
:q:list (q-a) #3 + ;
:q:mask (q-n) q:size n:dec ;
:q:length (q-n) [ q:head fetch ] [ q:tail fetch ] bi - ;
:q:free (q-n) &q:size sip q:length - ;
:q:clear (q-) [ q:head v:off ] [ q:tail v:off ] bi ;
:q:masked (aq-n) q:mask swap fetch and ;
:q:empty? (q-f) q:length n:zero? ;
:q:full? (q-f) &q:length &q:size bi eq? ;
:q:reset0 (q-) dup q:empty? &q:clear &drop choose ;
{{
'R var
(for_adding_values)
:append-value swap @R q:list @R q:head @R q:masked + store
@R q:head v:inc ;
(for_fetching_values)
:peek-value @R q:list @R q:tail @R q:masked + fetch ;
:fetch-value peek-value @R q:tail v:inc swap @R q:reset0 ;
---reveal---
:q:add (nq-f)
[ !R ] [ q:free n:strictly-positive? dup ] bi
[ append-value ] if; nip ;
:q:get (q-nf)
[ !R ] [ q:length n:strictly-positive? dup ] bi
[ fetch-value ] if; #0 swap ;
:q:peek (q-nf)
[ !R ] [ q:length n:strictly-positive? dup ] bi
[ peek-value swap ] if; #0 swap ;
}}
~~~
I am separating out the display code as it's fairly large
and some may want to leave it out. (When compiled, this
increases the size by more than 50%. While useful, the size
hit may make it undesirable on systems with tight memory
constraints)
~~~
{{
'R var
(for_display)
:head? @R q:tail @R q:masked eq? ;
:tail? @R q:head fetch n:dec @R q:mask and eq? ;
:display nl I dup n:put sp dup @R q:list + fetch n:put sp ;
:indicators dup head? [ '<--_tail s:put ] if
tail? [ '<--_head s:put ] if ;
---reveal---
:q:put (q-)
[ !R ] [ q:free ] [ q:length ] tri
'\nin_que:_%n,_free:_%n s:format s:put
@R q:length n:strictly-positive?
[ @R q:size [ display indicators ] indexed-times ]
[ 'queue_is_empty s:put nl ] choose ;
}}
~~~
# Usage
The original didn't include any documentation, so here are a few
brief notes on this.
Creating a new queue:
q:new
q:named
Examples:
#16 q:new (returns_a_pointer_to_the_queue)
#16 'Q q:named (create_a_queue_and_create_a_constant)
(pointing_to_it)
See the Limits section for a note on the sizing.
Adding Values:
#1 Q q:add
#2 Q q:add
The `q:add` returns a flag indicating success or fail. Check or
discard this as necessary for your application.
Retreive Values:
Q q:get
Q q:get
Like `q:add`, this returns a flag indicating success or failure.
This also returns the value, or a value of 0 on failure.
Empty the Queue:
Q q:clear
Queue Queries:
Q q:size
Q q:length
# A Test
```
#16 'Q q:named
Q q:empty? n:put nl
#100 Q q:add drop
Q q:empty? n:put nl
Q q:get drop-pair
Q q:empty? n:put nl nl
Q q:full? n:put nl
#16 [ #100 Q q:add drop ] times
Q q:full? n:put nl
Q q:size [ Q q:get drop-pair ] times
Q q:full? n:put nl nl
#100 Q q:add
#200 Q q:add
#300 Q q:add
#400 Q q:add
#500 Q q:add dump-stack nl reset
Q q:put
nl 'values:_ s:put
Q q:get drop n:put sp
Q q:get drop n:put sp
Q q:peek drop n:put sp
Q q:peek drop n:put sp
Q q:peek drop n:put sp
Q q:get drop n:put sp
Q q:get drop n:put nl nl
Q q:put
```