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add ilo.retro to examples
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- examples
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- examples
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- add ilo.retro
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- image
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- image
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- `HOME` (in the library code) is now a floating buffer
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- `HOME` (in the library code) is now a floating buffer
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181
example/ilo.retro
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181
example/ilo.retro
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This is an implementation of the ilo computer. It's written in
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RetroForth. I wrote this mostly to satisfy a personal desire to
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run Konilo under RetroForth.
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The ilo computer is quite similar to the nga computer that Retro
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runs on. Both are dual stack minimal instruction set computers
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with similar instruction sets. But ilo is, by design, a smaller,
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simpler system.
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ilo presents the following:
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- 65,5536 cells of memory
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- 32-bit cells are the only addressable memory unit
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- data stack of 32 values
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- address stack of 256 addresses
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- keyboard input
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- serial display
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- block storage
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- blocks are 1,024 cells in size
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- 30 instructions
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# Memory And Loading The ROM
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A standard ilo system will provide exactly 65,536 cells of RAM.
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I create a label pointing to this and allocate the space.
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~~~
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'IMAGE d:create #65536 allot
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~~~
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On startup, ilo loads a ROM (typically named "ilo.rom") into
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memory. This will always be a full memory image, so the size
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will be 65,536 cells. Loading this takes advantage of Retro's
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`block:` vocabulary, reading in the ROM as a series of 64 1K
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blocks. Doing this is significantly faster than reading the
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ROM in byte by byte and assembling the bytes into cells.
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~~~
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:load-image (s-)
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block:set-file
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#64 [ I IMAGE I #1024 * + block:read ] indexed-times ;
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'ilo.rom load-image
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~~~
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# Stacks & Registers
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I create labels and allocate space for the two stacks. And also
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create registers for the stack pointers and instruction pointer.
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Using these, I then implement several words for moving values
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to and from these. The `>s` and `s>` operate on the data stack
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whereas `>r` and `r>` operate on the address stack.
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It'd be faster to just use the RetroForth stacks directly, but
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this is cleaner and less error prone. It also makes debugging
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easier as the ilo stacks are now separate entities.
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The last thing I define here is `[IP]`, which returns the value
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in memory at the instruction pointer. This is strictly for
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readability and could be inlined in the two places it's used.
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~~~
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'DataStack d:create #33 allot
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'ReturnStack d:create #257 allot
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'SP var
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'RP var
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'IP var
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:>s (n-) &DataStack @SP + store &SP v:inc ;
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:s> (-n) &SP v:dec &DataStack @SP + fetch ;
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:>r (n-) &ReturnStack @RP + store &RP v:inc ;
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:r> (-n) &RP v:dec &ReturnStack @RP + fetch ;
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:[IP] IMAGE @IP + fetch ;
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~~~
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# A Utility Word
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RetroForth doesn't have a word to directly compare two blocks
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of memory. Until I rectify this, I define one here.
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~~~
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:compare (sdl-f)
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#-1 swap
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[ [ dup-pair &fetch bi@ eq? ] dip and [ &n:inc bi@ ] dip ]
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times &drop-pair dip ;
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~~~
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# The ilo Instructions
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Now I'm ready to implement the ilo instruction set. I chose to
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follow my (very) similar approach from retro-extend(1) and the
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Autopsy debugger. This creates one word per instruction and then
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fills in a jump table of pointers.
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If you are familiar with Retro, it should be pretty easy to
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follow these. Mostly just move values onto the RetroForth stack,
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do an operation, then put results back.
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The longest one of these is the I/O instruction, which has 8
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possible actions. I implemented this using a `case` structure.
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~~~
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:i:no ;
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:i:li &IP v:inc [IP] >s ;
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:i:du s> dup >s >s ;
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:i:dr s> drop ;
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:i:sw s> s> swap >s >s ;
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:i:pu s> >r ;
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:i:po r> >s ;
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:i:ju s> n:dec !IP ;
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:i:ca @IP >r i:ju ;
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:i:cc s> s> [ >s i:ca ] &drop choose ;
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:i:cj s> s> [ >s i:ju ] &drop choose ;
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:i:re r> !IP ;
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:i:eq s> s> eq? >s ;
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:i:ne s> s> -eq? >s ;
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:i:lt s> s> swap lt? >s ;
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:i:gt s> s> swap gt? >s ;
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:i:fe s> IMAGE + fetch >s ;
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:i:st s> s> swap IMAGE + store ;
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:i:ad s> s> + >s ;
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:i:su s> s> swap - >s ;
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:i:mu s> s> * >s ;
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:i:di s> s> swap /mod swap >s >s ;
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:i:an s> s> and >s ;
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:i:or s> s> or >s ;
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:i:xo s> s> xor >s ;
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:i:sl s> s> swap n:abs n:negate shift >s ;
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:i:sr s> s> swap n:abs shift >s ;
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:i:cp s> s> s> [ IMAGE + ] bi@ 'abc 'cba reorder compare >s ;
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:i:cy s> s> s> [ IMAGE + ] bi@ 'abc 'cba reorder copy ;
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:i:io s>
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#0 [ s> c:put ] case
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#1 [ c:get >s ] case
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#2 [ s> s> swap IMAGE + block:read ] case
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#3 [ s> s> swap IMAGE + block:write ] case
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#4 [ dump-stack ] case
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#5 [ #-1 !IP ] case
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#6 [ #65536 !IP ] case
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#7 [ @SP >s @RP >s ] case
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drop ;
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'Instructions d:create
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&i:no , &i:li , &i:du , &i:dr , &i:sw , &i:pu ,
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&i:po , &i:ju , &i:ca , &i:cc , &i:cj , &i:re ,
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&i:eq , &i:ne , &i:lt , &i:gt , &i:fe , &i:st ,
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&i:ad , &i:su , &i:mu , &i:di , &i:an , &i:or ,
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&i:xo , &i:sl , &i:sr , &i:cp , &i:cy , &i:io ,
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~~~
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# Instruction Processor
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~~~
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{{
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:mask #255 and ;
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:next #8 shift ;
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---reveal---
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:unpack (n-dcba)
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dup mask swap next
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dup mask swap next
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dup mask swap next
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'abcd 'dcba reorder ;
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}}
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:process-opcodes (n-)
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unpack
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&Instructions + fetch call
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&Instructions + fetch call
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&Instructions + fetch call
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&Instructions + fetch call ;
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:process (-)
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[ [IP] process-opcodes &IP v:inc @IP #0 #65535 n:between? ] while ;
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'ilo.blocks block:set-file
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process
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~~~
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