planckforth/core.fs

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h@l@h@!h@C+h!k1k0-h@$k
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h@k1k0-+$h@C+h!ih@!h@C+h!kefh@!h@C+h!l!
h@l@h@!h@C+h!k1k0-h@$k h@k1k0-+$h@C+h!ih@!h@C+h!kefh@!h@C+h!l!
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h@l@ h@!h@C+h! k1k0-h@$ k\h@k1k0-+$ h@C+h!
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i h@!h@C+h!
kkf h@!h@C+h!
kLf h@!h@C+h!
k:k0- h@!h@C+h!
k=f h@!h@C+h!
kJf h@!h@C+h!
k0k5-C* h@!h@C+h!
kef h@!h@C+h!
l!
\ **Now we can use single-line comments!**
\ planckforth -
\ Copyright (C) 2020 nineties
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\ This project aims to create a full-fledged Forth interpreter
\ by bootstrapping from hand-written tiny ELF binary.
\ In the 1st stage, only single character words are registered
\ in the dictionary.
\ List of builtin words:
\ 'Q' ( -- ) Exit the process
\ 'C' ( -- n ) The size of Cells
\ 'h' ( -- addr ) The address of 'here' cell
\ 'l' ( -- addr ) The address of 'latest' cell
\ 'k' ( -- c ) Read character
\ 't' ( c -- ) Print character
\ 'j' ( -- ) Unconditional branch
\ 'J' ( a -- ) Jump if a == 0
\ 'f' ( c -- xt ) Get execution token of c
\ 'x' ( xt -- ... ) Run the execution token
\ '@' ( addr -- a ) Load value from addr
\ '!' ( a addr -- ) Store value to addr
\ '?' ( addr -- c ) Load byte from addr
\ '$' ( c addr -- ) Store byte to addr
\ 'd' ( -- addr ) Get data stack pointer
\ 'D' ( addr -- ) Set data stack pointer
\ 'r' ( -- addr ) Get return stack pointer
\ 'R' ( addr -- ) Set return stack pointer
\ 'i' ( -- addr ) Get the interpreter function
\ 'e' ( -- ) Exit current function
\ 'L' ( -- a ) Load immediate
\ 'S' ( -- addr len) Load string literal
\ '+' ( a b -- c ) c = (a + b)
\ '-' ( a b -- c ) c = (a - b)
\ '*' ( a b -- c ) c = (a * b)
\ '/' ( a b -- c ) c = (a / b)
\ '%' ( a b -- c ) c = (a % b)
\ '&' ( a b -- c ) c = (a & b)
\ '|' ( a b -- c ) c = (a | b)
\ '^' ( a b -- c ) c = (a ^ b)
\ '<' ( a b -- c ) c = (a < b)
\ '=' ( a b -- c ) c = (a == b
\ The 1st stage interpreter repeats execution of k, f and x.
\ There is no concept such as IMMEDIATE mode yet.
\ There following line is an example program of planckforth
\ which prints "Hello World!\n"
\ --
\ kHtketkltkltkotk tkWtkotkrtkltkdtk!tk:k0-tQ
\ --
\ This code repeats that 'k' reads a character and 't' prints it.
\ Note that ':' (58) minus '0' (48) is '\n' (10).
\ The structure of the dictionary is sames as many Forth implementation.
\ +------+----------+---------+------------+---------------+
\ | link | len+flag | name... | padding... | code field ...|
\ +------+----------+---------+------------+---------------+
\ - link pointer to the previous entry (CELL byte)
\ - length of the name (5 bits)
\ - immediate flag (1 bit)
\ - smuege flag (1 bit)
\ - unused bit (1 bit)
\ - characters of the name (N bits)
\ - padding to align CELL boundary if necessary.
\ - codewords and datawords (CELL-bye aligned)
\ The code group at the beginning of this file
\ defines ' ' and '\n' as no-op operation and
\ '\' to read following characters until '\n'.
\ Since I couldn't write a comment at the beginning,
\ I repost the definition of '\' for explanation.
\ --
\ h@ ( save addr of new entry )
\ l@ h@!h@C+h! ( set link pointer. *here++ = latest )
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\ k1k0-h@$ k\h@k1k0-+$ h@C+h! ( write the name '\' and its length )
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\ i h@!h@C+h! ( docol )
\ kkf h@!h@C+h! ( key )
\ kLf h@!h@C+h! ( lit )
\ k:k0- h@!h@C+h! ( '\n' )
\ k=f h@!h@C+h! ( = )
\ kJf h@!h@C+h! ( branch )
\ k0k5-C* h@!h@C+h! ( -5*CELL )
\ kef h@!h@C+h! ( exit )
\ l! ( set latest to this new entry. )
\ --
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\ That's all for the brief explanation. Let's restart bootstrap!
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\ The COMMA operator
\ ',' ( a -- ) Store a to 'here' and increment 'here' CELL bytes.
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h@l@ h@!h@C+h! k1k0-h@$ k,h@k1k0-+$ h@C+h!
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i h@!h@C+h! \ docol
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\ store 'a' to here
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khf h@!h@C+h!
k@f h@!h@C+h!
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k!f h@!h@C+h!
\ here <- here + CELL
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khf h@!h@C+h!
k@f h@!h@C+h!
kCf h@!h@C+h!
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k+f h@!h@C+h!
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khf h@!h@C+h!
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k!f h@!h@C+h!
\ exit
kef h@!h@C+h!
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l!
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\ TICK-like operator
\ '\'' ( "c" -- xt ) Get execution token of following character
\ NB: This definition is different from the usual definition of tick
\ because it does not skip leading spaces and can read only a single
\ character. It will be redefined in later stage.
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h@l@, k1k0-h@$ k'h@k1k0-+$ h@C+h!
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i, kkf, kff, kef,
l!
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\ Utility for defining a word
\ 'c' ( "c" -- w )
\ Read character, create new word then push its address.
\ 'latest' will not be updated.
h@l@, k1k0-h@$ kch@k1k0-+$ h@C+h!
i, 'h, '@, 'l, '@, ',,
'L, k1k0-, 'h, '@, '$,
'k, 'h, '@, 'L, k1k0-, '+, '$,
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'h, '@, 'C, '+, 'h, '!,
'e, l!
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\ '_' ( a -- ) DROP
c_ i, 'd, 'C, '+, 'D, 'e, l!
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\ '#' ( a -- a a ) DUP
c# i, 'd, '@, 'e, l!
\ Implementations of TOR and FROMR are a bit tricky.
\ Since return-address will be placed at the top of return stack,
\ the code in the body of these function have to manipulate
\ 2nd element of the stack.
\ '{' ( a -- R:a ) TOR
\ Move value from data stack to return stack.
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c{ i,
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'r, 'r, '@, \ ( a rsp ret )
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'r, 'C, '-, '#, \ ( a rsp ret rsp-1 rsp-1 )
'R, \ ( a rsp+1 ret rsp ) extend return stack
'!, \ ( a rsp+1 ) store return address to the top
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'!, \ store a to the 2nd
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'e, l!
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\ '}' ( R:a -- a ) FROMR
\ Move value from return stack to data stack.
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c} i,
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'r, 'C, '+, '@, \ ( a ) load 2nd value
'r, '@, \ ( a ret ) load return addr
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'r, 'C, '+, '#, \ ( a ret rsp+1 rsp+1 )
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'R, \ ( a ret rsp ) reduce return stack
'!, \ ( a , R:ret ) store return addr to top of return stack
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'e, l!
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\ 'o' ( a b -- a b a ) OVER
co i, 'd, 'C, '+, '@, 'e, l!
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\ '~' ( a b -- b a ) SWAP
c~ i,
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'o, \ ( a b a )
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'{, \ ( a b , R:a )
'd, 'C, '+, \ ( a b sp+1 , R:a )
'!, \ ( b , R:a )
'}, \ ( b a )
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'e, l!
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\ 'B' ( c -- ) C-COMMA
\ Store byte 'c' to here and increment it
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cB i, 'h, '@, '$, 'h, '@, 'L, k1k0-, '+, 'h, '!, 'e, l!
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\ 'a' ( c-addr -- a-addr ) ALIGNED
\ Round up 'a' to a multiple of CELL
ca i,
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'L, Ck1k0--, '+, \ ( a+CELL-1 )
'L, k0k0-C-, \ ( a+CELL-1 ~(CELL-1) )
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'&,
'e, l!
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\ 'A' ( -- ) ALIGN
\ Round up 'here' to a multiple of CELL
cA i, 'h, '@, 'a, 'h, '!, 'e, l!
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Q