register refactor

This commit is contained in:
~d6 2021-12-27 15:27:54 -05:00
parent e8b6990a9d
commit ae0bb9afed
1 changed files with 86 additions and 91 deletions

View File

@ -110,6 +110,16 @@
@complement32 ( x** -> ~x** )
COMPLEMENT32 RTN
( temporary registers )
( used by all operations except div32 )
@sh [
&r $1
&x0 $1 &x1 $1 &x2 $1 &x3 $1
&y0 $1 &y1 $1 &y2 $1 &y3 $1
&z0 $1 &z1 $1 &z2 $1 &z3 $1
&a0 $1 &a1 $1 &a2 $2
]
( bit shifting )
@right-shift ( x** n^ -> x<<n )
@ -121,46 +131,42 @@
( shift right by 0-7 bits )
@right-shift0 ( x** n^ -> x<<n )
#0000 ,&z0 STR2 #0000 ,&z2 STR2
,&r STR ( n -> r )
,&r LDR SFT ,&z3 STR ( write z3 )
#00 ,&r LDR SFT2 ,&z2 LDR2 ORA2 ,&z2 STR2 ( write z2,z3 )
#00 ,&r LDR SFT2 ,&z1 LDR2 ORA2 ,&z1 STR2 ( write z1,z2 )
#00 ,&r LDR SFT2 ,&z0 LDR2 ORA2 ,&z0 STR2 ( write z0,z1 )
,&z0 LDR2 ,&z2 LDR2
#0000 ;sh/z0 STA2 #0000 ;sh/z2 STA2
;sh/r STA ( n -> r )
;sh/r LDA SFT ;sh/z3 STA ( write z3 )
#00 ;sh/r LDA SFT2 ;sh/z2 LDA2 ORA2 ;sh/z2 STA2 ( write z2,z3 )
#00 ;sh/r LDA SFT2 ;sh/z1 LDA2 ORA2 ;sh/z1 STA2 ( write z1,z2 )
#00 ;sh/r LDA SFT2 ;sh/z0 LDA2 ORA2 ;sh/z0 STA2 ( write z0,z1 )
;sh/z0 LDA2 ;sh/z2 LDA2
RTN
[ &r $1 &z0 $1 &z1 $1 &z2 $1 &z3 $1 ]
( shift right by 8-15 bits )
@right-shift1 ( x** n^ -> x<<n )
#00 ,&z1 STR #0000 ,&z2 STR2
#08 SUB ,&r STR ( n -> r )
#00 ;sh/z1 STA #0000 ;sh/z2 STA2
#08 SUB ;sh/r STA ( n -> r )
POP
,&r LDR SFT ,&z3 STR ( write z3 )
#00 ,&r LDR SFT2 ,&z2 LDR2 ORA2 ,&z2 STR2 ( write z2,z3 )
#00 ,&r LDR SFT2 ,&z1 LDR2 ORA2 ,&z1 STR2 ( write z1,z2 )
#00 ,&z1 LDR ,&z2 LDR2
;sh/r LDA SFT ;sh/z3 STA ( write z3 )
#00 ;sh/r LDA SFT2 ;sh/z2 LDA2 ORA2 ;sh/z2 STA2 ( write z2,z3 )
#00 ;sh/r LDA SFT2 ;sh/z1 LDA2 ORA2 ;sh/z1 STA2 ( write z1,z2 )
#00 ;sh/z1 LDA ;sh/z2 LDA2
RTN
[ &r $1 &z1 $1 &z2 $1 &z3 $1 ]
( shift right by 16-23 bits )
@right-shift2 ( x** n^ -> x<<n )
#0000 ,&z2 STR2
#10 SUB ,&r STR ( n -> r )
#0000 ;sh/z2 STA2
#10 SUB ;sh/r STA ( n -> r )
POP2
,&r LDR SFT ,&z3 STR ( write z3 )
#00 ,&r LDR SFT2 ,&z2 LDR2 ORA2 ,&z2 STR2 ( write z2,z3 )
#0000 ,&z2 LDR2
;sh/r LDA SFT ;sh/z3 STA ( write z3 )
#00 ;sh/r LDA SFT2 ;sh/z2 LDA2 ORA2 ;sh/z2 STA2 ( write z2,z3 )
#0000 ;sh/z2 LDA2
RTN
[ &r $1 &z2 $1 &z3 $1 ]
( shift right by 16-23 bits )
@right-shift3 ( x** n^ -> x<<n )
#18 SUB ,&r STR ( n -> r )
#18 SUB ;sh/r STA ( n -> r )
POP2 POP #00 SWP #0000 SWP2 ( 00 00 00 x0 )
,&r LDR SFT
;sh/r LDA SFT
RTN
[ &r $1 ]
@left-shift ( x** n^ -> x<<n )
DUP #08 LTH ;left-shift0 JCN2 ( x n )
@ -171,57 +177,54 @@
( shift left by 0-7 bits )
@left-shift0 ( x** n^ -> x<<n )
#0000 ,&z0 STR2 #0000 ,&z2 STR2
#40 SFT ,&r STR ( n<<4 -> r )
#0000 ;sh/z0 STA2 #0000 ;sh/z2 STA2
#40 SFT ;sh/r STA ( n<<4 -> r )
SWP SWP2 SWP ( x3 x2 x1 x0 )
,&r LDR SFT ,&z0 STR ( x3 x2 x1 )
;sh/r LDA SFT ;sh/z0 STA ( x3 x2 x1 )
#00 SWP ,&r LDR SFT2 ( x3 x2 00x1<<r )
,&z0 LDR2 ORA2 ,&z0 STR2 ( x3 x2 )
#00 SWP ;sh/r LDA SFT2 ( x3 x2 00x1<<r )
;sh/z0 LDA2 ORA2 ;sh/z0 STA2 ( x3 x2 )
#00 SWP ,&r LDR SFT2 ( x3 00x2<<r )
,&z1 LDR2 ORA2 ,&z1 STR2 ( x3 )
#00 SWP ;sh/r LDA SFT2 ( x3 00x2<<r )
;sh/z1 LDA2 ORA2 ;sh/z1 STA2 ( x3 )
#00 SWP ,&r LDR SFT2 ( 00x3<<r )
,&z2 LDR2 ORA2 ,&z2 STR2 ( )
#00 SWP ;sh/r LDA SFT2 ( 00x3<<r )
;sh/z2 LDA2 ORA2 ;sh/z2 STA2 ( )
,&z0 LDR2 ,&z2 LDR2
;sh/z0 LDA2 ;sh/z2 LDA2
RTN
[ &r $1 &z0 $1 &z1 $1 &z2 $2 ]
( shift left by 8-15 bits )
@left-shift1 ( x** n^ -> x<<n )
#0000 ,&z0 STR2 #00 ,&z2 STR
#08 SUB #40 SFT ,&r STR ( n<<4 -> r )
#0000 ;sh/z0 STA2 #00 ;sh/z2 STA
#08 SUB #40 SFT ;sh/r STA ( n<<4 -> r )
SWP SWP2 SWP POP ( x3 x2 x1 )
,&r LDR SFT ,&z0 STR ( x3 x2 )
;sh/r LDA SFT ;sh/z0 STA ( x3 x2 )
#00 SWP ,&r LDR SFT2 ( x3 00x2<<r )
,&z0 LDR2 ORA2 ,&z0 STR2 ( x3 )
#00 SWP ;sh/r LDA SFT2 ( x3 00x2<<r )
;sh/z0 LDA2 ORA2 ;sh/z0 STA2 ( x3 )
#00 SWP ,&r LDR SFT2 ( 00x3<<r )
,&z1 LDR2 ORA2 ,&z1 STR2 ( )
#00 SWP ;sh/r LDA SFT2 ( 00x3<<r )
;sh/z1 LDA2 ORA2 ;sh/z1 STA2 ( )
,&z0 LDR2 ,&z2 LDR #00
;sh/z0 LDA2 ;sh/z2 LDA #00
RTN
[ &r $1 &z0 $1 &z1 $1 &z2 $1 ]
( shift left by 16-23 bits )
@left-shift2 ( x** n^ -> x<<n )
#0000 ,&z0 STR2
#10 SUB #40 SFT ,&r STR ( n<<4 -> r )
#0000 ;sh/z0 STA2
#10 SUB #40 SFT ;sh/r STA ( n<<4 -> r )
SWP2 POP2 SWP ( x3 x2 )
,&r LDR SFT ,&z0 STR ( x3 )
;sh/r LDA SFT ;sh/z0 STA ( x3 )
#00 SWP ,&r LDR SFT2 ( x3<<r )
,&z0 LDR2 ORA2 ,&z0 STR2 ( )
#00 SWP ;sh/r LDA SFT2 ( x3<<r )
;sh/z0 LDA2 ORA2 ;sh/z0 STA2 ( )
,&z0 LDR2 #0000
;sh/z0 LDA2 #0000
RTN
[ &r $1 &z0 $2 ]
( shift left by 24-31 bits )
@left-shift3 ( x** n^ -> x<<n )
@ -233,32 +236,28 @@
( arithmetic )
@add32 ( xhi* xlo* yhi* ylo* -> zhi* zlo* )
,&y2 STR2 ,&y0 STR2 ( save ylo, yhi )
,&x2 STR2 ,&x0 STR2 ( save xlo, xhi )
#0000 #0000 ,&z0 STR2 ,&z2 STR2 ( reset zhi, zlo )
;sh/y2 STA2 ;sh/y0 STA2 ( save ylo, yhi )
;sh/x2 STA2 ;sh/x0 STA2 ( save xlo, xhi )
#0000 #0000 ;sh/z0 STA2 ;sh/z2 STA2 ( reset zhi, zlo )
( x3 + y3 => z2z3 )
#00 ,&x3 LDR #00 ,&y3 LDR ADD2 ,&z2 STR2
#00 ;sh/x3 LDA #00 ;sh/y3 LDA ADD2 ;sh/z2 STA2
( x2 + y2 + z2 => z1z2 )
#00 ,&x2 LDR ,&z1 LDR2 ADD2 ,&z1 STR2
#00 ,&y2 LDR ,&z1 LDR2 ADD2 ,&z1 STR2
#00 ;sh/x2 LDA ;sh/z1 LDA2 ADD2 ;sh/z1 STA2
#00 ;sh/y2 LDA ;sh/z1 LDA2 ADD2 ;sh/z1 STA2
( x1 + y1 + z1 => z0z1 )
#00 ,&x1 LDR ,&z0 LDR2 ADD2 ,&z0 STR2
#00 ,&y1 LDR ,&z0 LDR2 ADD2 ,&z0 STR2
#00 ;sh/x1 LDA ;sh/z0 LDA2 ADD2 ;sh/z0 STA2
#00 ;sh/y1 LDA ;sh/z0 LDA2 ADD2 ;sh/z0 STA2
( x0 + y0 + z0 => z0 )
,&x0 LDR ,&z0 LDR ADD ,&z0 STR
,&y0 LDR ,&z0 LDR ADD ,&z0 STR
;sh/x0 LDA ;sh/z0 LDA ADD ;sh/z0 STA
;sh/y0 LDA ;sh/z0 LDA ADD ;sh/z0 STA
( load zhi,zlo )
,&z0 LDR2 ,&z2 LDR2
;sh/z0 LDA2 ;sh/z2 LDA2
RTN
( registers for add32 )
[ &x0 $1 &x1 $1 &x2 $1 &x3 $1 ]
[ &y0 $1 &y1 $1 &y2 $1 &y3 $1 ]
[ &z0 $1 &z1 $1 &z2 $2 ]
@negate32 ( x** -> -x** )
COMPLEMENT32
@ -273,48 +272,44 @@
;negate32 JSR2 ;add32 JSR2 RTN
@mul16 ( x* y* -> z** )
,&y1 STR ,&y0 STR ( save ylo, yhi )
,&x1 STR ,&x0 STR ( save xlo, xhi )
#0000 #00 ,&z0 STR2 ,&z2 STR ( reset z0,z1,z2 )
#0000 #00 ,&a0 STR2 ,&a2 STR ( reset a0,a1,a2 )
;sh/y1 STA ;sh/y0 STA ( save ylo, yhi )
;sh/x1 STA ;sh/x0 STA ( save xlo, xhi )
#0000 #00 ;sh/z1 STA2 ;sh/z3 STA ( reset z1,z2,z3 )
#0000 #00 ;sh/a0 STA2 ;sh/a2 STA ( reset a0,a1,a2 )
( x1 * y1 => z1z2 )
#00 ,&x1 LDR #00 ,&y1 LDR MUL2 ,&z1 STR2
#00 ;sh/x1 LDA #00 ;sh/y1 LDA MUL2 ;sh/z2 STA2
( x0 * y1 => z0z1 )
#00 ,&x0 LDR #00 ,&y1 LDR MUL2 ,&z0 LDR2 ADD2 ,&z0 STR2
#00 ;sh/x0 LDA #00 ;sh/y1 LDA MUL2 ;sh/z1 LDA2 ADD2 ;sh/z1 STA2
( x1 * y0 => a1a2 )
#00 ,&x1 LDR #00 ,&y0 LDR MUL2 ,&a1 STR2
#00 ;sh/x1 LDA #00 ;sh/y0 LDA MUL2 ;sh/a1 STA2
( x0 * y0 => a0a1 )
#00 ,&x0 LDR #00 ,&y0 LDR MUL2 ,&a0 LDR2 ADD2 ,&a0 STR2
#00 ;sh/x0 LDA #00 ;sh/y0 LDA MUL2 ;sh/a0 LDA2 ADD2 ;sh/a0 STA2
( add z and a<<8 )
#00 ,&z0 LDR2 ,&z2 LDR
,&a0 LDR2 ,&a2 LDR #00
#00 ;sh/z1 LDA2 ;sh/z3 LDA
;sh/a0 LDA2 ;sh/a2 LDA #00
;add32 JSR2
RTN
[ &x0 $1 &x1 $1 ]
[ &y0 $1 &y1 $1 ]
[ &z0 $1 &z1 $1 &z2 $1 ]
[ &a0 $1 &a1 $1 &a2 $1 ]
@mul32 ( x** y** -> z** )
,&y1 STR2 ,&y0 STR2 ( save ylo, yhi )
,&x1 STR2 ,&x0 STR2 ( save xlo, xhi )
,&y1 LDR2 ,&x1 LDR2 ;mul16 JSR2 ( [x1*y1] )
,&z1 STR2 ,&z0 STR2 ( sum = x1*y1, save zlo, zhi )
,&y2 STR2 ,&y0 STR2 ( save ylo, yhi )
,&x2 STR2 ,&x0 STR2 ( save xlo, xhi )
,&y2 LDR2 ,&x2 LDR2 ;mul16 JSR2 ( [x2*y2] )
,&z2 STR2 ,&z0 STR2 ( sum = x2*y2, save zlo, zhi )
,&y1 LDR2 ,&x0 LDR2 MUL2 ( [x0*y1]<<16 )
,&y0 LDR2 ,&x1 LDR2 MUL2 ( [x1*y0]<<16 )
,&y2 LDR2 ,&x0 LDR2 MUL2 ( [x0*y2]<<16 )
,&y0 LDR2 ,&x2 LDR2 MUL2 ( [x2*y0]<<16 )
( [x0*y0]<<32 will completely overflow )
ADD2 ,&z0 LDR2 ADD2 ( sum += x0*y1<<16 + x1*y0<<16 )
,&z1 LDR2
ADD2 ,&z0 LDR2 ADD2 ( sum += x0*y2<<16 + x2*y0<<16 )
,&z2 LDR2
RTN
[ &x0 $2 &x1 $2 ]
[ &y0 $2 &y1 $2 ]
[ &z0 $2 &z1 $2 ]
[ &x0 $2 &x2 $2 ]
[ &y0 $2 &y2 $2 ]
[ &z0 $2 &z2 $2 ]
@div32 ( x** y** -> q** )
( store y and x for repeated use )