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nucleus.fth
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nucleus.fth
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\ Nucleus for x86. Copyright 2014-2016 Lars Brinkhoff.
include targets/x86/next.fth
host also meta also assembler
\ Check eax for error. Store ( result error ) at stack offset u.
: error-check, ( u -- )
>r
ebx ebx xor,
eax eax test,
0<, if,
eax ebx xchg,
then,
ebx r@ S )# mov,
eax r> 4 + S )# mov, ;
hex
target
exe-code
code sp@
S push,
next,
end-code
code sp!
S pop,
next,
end-code
code rp@
R push,
next,
end-code
code rp!
R pop,
next,
end-code
code exit
I rpop,
next,
end-code
code docol
I rpush,
body-offset W )# I lea,
next,
end-code
code dovar
body-offset W )# W lea,
W push,
next,
end-code
code docon
body-offset W )# W mov,
W push,
next,
end-code
code dodef
body-offset W )# W mov,
execute,
next,
end-code
code dodoes
body-offset W )# W lea,
I rpush,
S ) I mov,
W S ) mov,
3 # I add,
next,
end-code
code 0branch
W fetch,
ecx pop,
ecx ecx test,
W I cmove,
next,
end-code
code (literal)
W fetch,
W push,
next,
end-code
code (sliteral)
W fetch,
I push,
W push,
W I add,
3 # I add,
-4 # I and,
next,
end-code
code !
ecx pop,
W pop,
W ecx ) mov,
next,
end-code
code @
S ) W mov,
W ) W mov,
W S ) mov,
next,
end-code
code +
W pop,
W S ) add,
next,
end-code
code +!
W pop,
ecx pop,
ecx W ) add,
next,
end-code
code >r
W pop,
W rpush,
next,
end-code
code r>
W rpop,
W push,
next,
end-code
code 2>r
W pop,
8 # R sub,
W R ) mov,
W pop,
W 4 R )# mov,
next,
end-code
code (loop)
1 # W mov,
R ) W add,
4 R )# W cmp,
ecx ecx sbb,
ecx not,
ecx push,
W R ) mov,
next,
end-code
code 2rdrop
8 # R add,
next,
end-code
code nand
W pop,
S ) W and,
W not,
W S ) mov,
next,
end-code
code c!
W pop,
ecx pop,
cl W ) mov,
next,
end-code
code c@
S ) W mov,
W ) W movzx,
W S ) mov,
next,
end-code
code branch
I ) I mov,
next,
end-code
code execute
W pop,
execute,
end-code
code r@
R ) W mov,
W push,
next,
end-code
code 0=
1 # S ) cmp,
W W sbb,
W S ) mov,
next,
end-code
code 0<>
S ) W mov,
W neg,
W W sbb,
W S ) mov,
next,
end-code
code 0<
S ) W mov,
1F # W sar,
W S ) mov,
next,
end-code
code drop
4 # S add,
next,
end-code
code dup
S ) W mov,
W push,
next,
end-code
code ?dup
S ) W mov,
W W test,
0<>, if,
W push,
then,
next,
end-code
code nip
W pop,
W S ) mov,
next,
end-code
code swap
S ) W mov,
4 S )# ecx mov,
ecx S ) mov,
W 4 S )# mov,
next,
end-code
code over
4 S )# W mov,
W push,
next,
end-code
code tuck
S ) W mov,
4 S )# ecx mov,
ecx S ) mov,
W 4 S )# mov,
W push,
next,
end-code
\ code rot
\ code -rot
code 2drop
8 # S add,
next,
end-code
code 2dup
4 S )# W mov,
W push,
4 S )# W mov,
W push,
next,
end-code
\ code 2nip
\ code 2swap
\ code 2over
\ code 2tuck
\ code 2rot
code negate
S ) neg,
next,
end-code
code -
W pop,
W S ) sub,
next,
end-code
code =
W pop,
S ) W sub,
1 # W sub,
W W sbb,
W S ) mov,
next,
end-code
code <>
W pop,
S ) W sub,
1 # W sub,
W W sbb,
W not,
W S ) mov,
next,
end-code
code 1+
1 # S ) add,
next,
end-code
code 1-
-1 # S ) add,
next,
end-code
code cell+
4 # S ) add,
next,
end-code
code cells
S ) W mov,
2 # W shl,
W S ) mov,
next,
end-code
\ code >
\ code <
\ code <=
\ code >=
\ code abs
\ code max
\ code min
\ code *
\ code /
\ code mod
code um/mod
ebx pop,
eax push,
4 esp )# edx mov,
8 esp )# eax mov,
ebx div,
eax 4 esp )# mov,
edx 8 esp )# mov,
eax pop,
next,
end-code
code invert
S ) not,
next,
end-code
code or
W pop,
W S ) or,
next,
end-code
code xor
W pop,
W S ) xor,
next,
end-code
code and
W pop,
W S ) and,
next,
end-code
decimal