Remove floating-point code from ORCALib.

It is being moved to SysFloat.
This commit is contained in:
Stephen Heumann 2023-06-23 15:52:46 -05:00
parent a81a9964c2
commit 3f70daed7d
11 changed files with 2 additions and 6257 deletions

361
fenv.asm
View File

@ -1,361 +0,0 @@
keep obj/fenv
mcopy fenv.macros
case on
****************************************************************
*
* Fenv - Floating-point environment access
*
* This code provides routines to query and modify the
* floating-point environment.
*
* Note: This relies on and only works with SANE.
*
****************************************************************
*
fenv private dummy segment
end
FE_ALL_EXCEPT gequ $001F
****************************************************************
*
* int feclearexcept(int excepts);
*
* Clear floating-point exceptions
*
* Inputs:
* excepts - floating-point exceptions to clear
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
feclearexcept start
csubroutine (2:excepts),0
FGETENV get current environment
phx
lda excepts
and #FE_ALL_EXCEPT
eor #$FFFF mask off excepts to clear
xba
and 1,S
sta 1,S
FSETENV clear them
creturn 2:#0
end
****************************************************************
*
* int fegetexceptflag(fexcept_t *flagp, int excepts);
*
* Get floating-point exception flags.
*
* Inputs:
* flagp - pointer to location to store exception flags
* excepts - floating-point exceptions to get
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
fegetexceptflag start
csubroutine (4:flagp,2:excepts),0
FGETENV get current environment
tya
and excepts get desired exceptions
and #FE_ALL_EXCEPT
sta [flagp] store them in *flagp
creturn 2:#0
end
****************************************************************
*
* int feraiseexcept(int excepts);
*
* Raise floating-point exceptions
*
* Inputs:
* excepts - floating-point exceptions to raise
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
feraiseexcept start
csubroutine (2:excepts),0
lda excepts
and #FE_ALL_EXCEPT
beq done
pha
FSETXCP raise exceptions
done creturn 2:#0
end
****************************************************************
*
* int fesetexceptflag(fexcept_t *flagp, int excepts);
*
* Set (but do not raise) floating-point exception flags
*
* Inputs:
* flagp - pointer to stored exception flags
* excepts - floating-point exceptions to set
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
fesetexceptflag start
csubroutine (4:flagp,2:excepts),0
FGETENV get env with excepts masked off
phx
lda excepts
and #FE_ALL_EXCEPT
eor #$FFFF
xba
and 1,S
sta 1,S
lda [flagp] set new exceptions
and excepts
and #FE_ALL_EXCEPT
xba
ora 1,S
sta 1,S
FSETENV
creturn 2:#0
end
****************************************************************
*
* int fetestexcept(int excepts);
*
* Test if floating-point exception flags are set
*
* Inputs:
* excepts - floating-point exceptions to test for
*
* Outputs:
* Bitwise or of exceptions that are set
*
****************************************************************
*
fetestexcept start
csubroutine (2:excepts),0
FGETENV get exception flags
tya
and excepts mask to just the ones we want
and #FE_ALL_EXCEPT
sta excepts
creturn 2:excepts
end
****************************************************************
*
* int fegetround(void);
*
* Get the current rounding direction
*
* Outputs:
* The current rounding direction
*
****************************************************************
*
fegetround start
FGETENV get high word of environment
tya
and #$00C0 just rounding direction
rtl
end
****************************************************************
*
* int fesetround(int round);
*
* Set the current rounding direction
*
* Inputs:
* round - the rounding direction to set
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
fesetround start
csubroutine (2:round),0
lda round flip words
xba
sta round
and #$3FFF do nothing if not a valid rounding dir
bne done
FGETENV set the rounding direction
txa
and #$3FFF
ora round
pha
FSETENV
stz round
done creturn 2:round
end
****************************************************************
*
* int fegetenv(fenv_t *envp);
*
* Get the current floating-point environment
*
* Inputs:
* envp - pointer to location to store environment
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
fegetenv start
csubroutine (4:envp),0
FGETENV get the environment
txa
sta [envp] store it in *envp
creturn 2:#0
end
****************************************************************
*
* int feholdexcept(fenv_t *envp);
*
* Get environment, then clear status flags and disable halts
*
* Inputs:
* envp - pointer to location to store environment
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
feholdexcept start
csubroutine (4:envp),0
FGETENV get the environment
txa
sta [envp] store it in *envp
and #$E0E0 clear exception flags and disable halts
pha
FSETENV set the new environment
creturn 2:#0
end
****************************************************************
*
* int fesetenv(const fenv_t *envp);
*
* Set the floating-point environment
*
* Inputs:
* envp - pointer to environment to set
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
fesetenv start
csubroutine (4:envp),0
lda [envp] set the environment
pha
FSETENV
creturn 2:#0
end
****************************************************************
*
* int feupdateenv(const fenv_t *envp);
*
* Save exceptions, set environment, then re-raise exceptions
*
* Inputs:
* envp - pointer to environment to set
*
* Outputs:
* Returns 0 if successful, non-zero otherwise
*
****************************************************************
*
feupdateenv start
csubroutine (4:envp),0
lda [envp] set the environment
pha
FPROCEXIT
creturn 2:#0
end
****************************************************************
*
* Default floating-point environment
*
****************************************************************
*
__FE_DFL_ENV start
dc i2'0'
end
****************************************************************
*
* int __get_flt_rounds(void);
*
* Get the value of FLT_ROUNDS, accounting for rounding mode
*
* Outputs:
* Current value of FLT_ROUNDS
*
****************************************************************
*
__get_flt_rounds start
FGETENV
tya get rounding direction in low bits of A
asl a
asl a
xba
inc a convert to values used by FLT_ROUNDS
and #$0003
rtl
end

View File

@ -1,117 +0,0 @@
MACRO
&lab csubroutine &parms,&work
&lab anop
aif c:&work,.a
lclc &work
&work setc 0
.a
gbla &totallen
gbla &worklen
&worklen seta &work
&totallen seta 0
aif c:&parms=0,.e
lclc &len
lclc &p
lcla &i
&i seta 1
.b
&p setc &parms(&i)
&len amid &p,2,1
aif "&len"=":",.c
&len amid &p,1,2
&p amid &p,4,l:&p-3
ago .d
.c
&len amid &p,1,1
&p amid &p,3,l:&p-2
.d
&p equ &totallen+4+&work
&totallen seta &totallen+&len
&i seta &i+1
aif &i<=c:&parms,^b
.e
tsc
aif &work=0,.f
sec
sbc #&work
tcs
.f
phd
tcd
mend
MACRO
&lab creturn &r
&lab anop
lclc &len
aif c:&r,.a
lclc &r
&r setc 0
&len setc 0
ago .h
.a
&len amid &r,2,1
aif "&len"=":",.b
&len amid &r,1,2
&r amid &r,4,l:&r-3
ago .c
.b
&len amid &r,1,1
&r amid &r,3,l:&r-2
.c
aif &len<>2,.d
ldy &r
ago .h
.d
aif &len<>4,.e
ldx &r+2
ldy &r
ago .h
.e
aif &len<>10,.g
ldy #&r
ldx #^&r
ago .h
.g
mnote 'Not a valid return length',16
mexit
.h
aif &totallen=0,.i
lda &worklen+2
sta &worklen+&totallen+2
lda &worklen+1
sta &worklen+&totallen+1
.i
pld
tsc
clc
adc #&worklen+&totallen
tcs
aif &len=0,.j
tya
.j
rtl
mend
MACRO
&LAB FGETENV
&LAB PEA $03
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSETENV
&LAB PEA $01
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSETXCP
&LAB PEA $15
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FPROCEXIT
&LAB PEA $19
LDX #$090A
JSL $E10000
MEND

View File

@ -1,116 +0,0 @@
keep obj/fpextra
mcopy fpextra.macros
****************************************************************
*
* FPextra - extra floating-point routines
*
* This code provides routines dealing with floating-point
* numbers that are used only by ORCA/C, supplementing the
* ones in SysFloat.
*
****************************************************************
*
fpextra private dummy segment
end
****************************************************************
*
* ~SinglePrecision - limit fp value to single precision & range
*
* Inputs:
* extended-format real on stack
*
****************************************************************
*
~SinglePrecision start
tsc
clc
adc #4
ldy #0
phy
pha
phy
pha
phy
pha
phy
pha
FX2S
FS2X
rtl
end
****************************************************************
*
* ~DoublePrecision - limit fp value to double precision & range
*
* Inputs:
* extended-format real on stack
*
****************************************************************
*
~DoublePrecision start
tsc
clc
adc #4
ldy #0
phy
pha
phy
pha
phy
pha
phy
pha
FX2D
FD2X
rtl
end
****************************************************************
*
* ~CompPrecision - limit fp value to comp precision & range
*
* Inputs:
* extended-format real on stack
*
* Note: This avoids calling FX2C on negative numbers,
* because it is buggy for certain values.
*
****************************************************************
*
~CompPrecision start
tsc round to integer
clc
adc #4
pea 0
pha
FRINTX
lda 4+8,s
pha save original sign
asl a force sign to positive
lsr a
sta 6+8,s
tsc limit precision
clc
adc #6
ldy #0
phy
pha
phy
pha
phy
pha
phy
pha
FX2C
FC2X
pla restore original sign
bpl ret
lda 4+8,s
ora #$8000
sta 4+8,s
ret rtl
end

View File

@ -1,42 +0,0 @@
MACRO
&LAB FX2S
&LAB PEA $0210
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2D
&LAB PEA $0110
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2C
&LAB PEA $0510
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FC2X
&LAB PEA $050E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FD2X
&LAB PEA $010E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FS2X
&LAB PEA $020E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FRINTX
&LAB PEA $0014
LDX #$090A
JSL $E10000
MEND

270
int64.asm
View File

@ -515,273 +515,3 @@ loop1 asl num1 do the remaining shift
rt0 pld
rtl rtl
end
****************************************************************
*
* ~CnvULongLongReal - convert an unsigned long long integer
* into an extended SANE real
*
* Inputs:
* unsigned long long int on stack
*
* Outputs:
* extended real on stack
*
****************************************************************
*
~CnvULongLongReal start
mantissa equ 4 mantissa (integer and fraction)
exponent equ mantissa+8 biased exponent and sign bit
lda 1,S move return value
pha
lda 4,S
sta 2,S
tsc set up DP
phd
tcd
lda mantissa+2 move 64-bit value to mantissa
sta mantissa
lda mantissa+4
sta mantissa+2
lda mantissa+6
sta mantissa+4
lda mantissa+8
sta mantissa+6
ora mantissa if value is 0 then
ora mantissa+2
ora mantissa+4
beq ret return
lda #63+16383 set initial exponent (2^63) and sign
sta exponent
lda mantissa+6 if number is normalized (i=1) then
bmi ret return
lp1 dec exponent normalize number
asl mantissa
rol mantissa+2
rol mantissa+4
rol mantissa+6
bpl lp1
ret pld
rtl
end
****************************************************************
*
* ~CnvLongLongReal - convert a long long integer into
* an extended SANE real
*
* Inputs:
* signed long long int on stack
*
* Outputs:
* extended real on stack
*
****************************************************************
*
~CnvLongLongReal start
mantissa equ 4 mantissa (integer and fraction)
exponent equ mantissa+8 biased exponent and sign bit
lda 1,S move return value
pha
lda 4,S
sta 2,S
tsc set up DP
phd
tcd
lda mantissa+2 move 64-bit value to mantissa
sta mantissa
lda mantissa+4
sta mantissa+2
lda mantissa+6
sta mantissa+4
lda mantissa+8
sta mantissa+6
ora mantissa if value is 0 then
ora mantissa+2
ora mantissa+4
beq ret return
ldy #0 default sign bit is 0 (positive)
lda mantissa+6 if mantissa is negative then
bpl lb0
negate8 mantissa negate it
ldy #$8000 sign bit is 1 (negative)
lb0 tya set sign
ora #63+16383 set initial exponent (2^63)
sta exponent
lda mantissa+6 if number is normalized (i=1) then
bmi ret return
lp1 dec exponent normalize number
asl mantissa
rol mantissa+2
rol mantissa+4
rol mantissa+6
bpl lp1
ret pld
rtl
end
****************************************************************
*
* ~CnvRealLongLong - convert an extended SANE real into
* a long long integer
*
* Inputs:
* extended real on stack
*
* Outputs:
* signed long long int on stack
*
* Note: This avoids calling FX2C on negative numbers,
* because it is buggy for certain values.
*
****************************************************************
*
~CnvRealLongLong start
tsc
clc
adc #4
pea 0 push src address for fcpxx
pha
pea llmin|-16 push dst address for fcpxx
pea llmin
pea 0 push operand address for ftintx
pha
ftintx round
fcpxx compare with LLONG_MIN
bne convert
lda #$8000 if it is LONG_MIN, use that value
sta 12,s
asl a
sta 10,s
sta 8,s
sta 6,s
bra done otherwise
convert lda 4+8,s
pha save original sign
asl a force sign to positive
lsr a
sta 6+8,s
tsc
clc
adc #6
pea 0 push src address for fx2c
pha
pea 0 push dst address for fx2c
inc a
inc a
pha
fx2c convert
pla if original value was negative
bpl done
sec
ldx #0 negate result
txa
sbc 6,s
sta 6,s
txa
sbc 6+2,s
sta 6+2,s
txa
sbc 6+4,s
sta 6+4,s
txa
sbc 6+6,s
sta 6+6,s
done phb move return address
pla
plx
ply
phx
pha
plb
rtl
llmin dc e'-9223372036854775808'
end
****************************************************************
*
* ~CnvRealULongLong - convert an extended SANE real into
* an unsigned long long integer
*
* Inputs:
* extended real on stack
*
* Outputs:
* unsigned long long int on stack
*
****************************************************************
*
~CnvRealULongLong start
pea 0 initially assume val <= LLONG_MAX
tsc
clc
adc #6
pea 0 push src address for fcpxx
pha
pea llbig|-16 push dst address for fcpxx
pea llbig
pea 0 push operand address for ftintx
pha
ftintx round
fcpxx compare with LLONG_MAX+1
bmi convert
lda #1 if val > LLONG_MAX:
sta 1,S save flag to indicate this
tsc
clc
adc #6
pea llbig|-16 push src address for fsubx
pea llbig
pea 0 push dst address for fsubx
pha
fsubx val -= LLONG_MAX+1
convert tsc
clc
adc #6
pea 0 push src address for fx2c
pha
pea 0 push dst address for fx2c
inc a
inc a
pha
fx2c convert val as comp
pla if orig val was > LLONG_MAX:
beq done
lda 12,s
eor #$8000
sta 12,s result += LLONG_MAX+1
done phb move return address
pla
plx
ply
phx
pha
plb
rtl
llbig dc e'9223372036854775808'
end

View File

@ -1,23 +1,4 @@
macro
&l negate8 &n1
&l ~setm
sec
ldy #0
tya
sbc &n1
sta &n1
tya
sbc &n1+2
sta &n1+2
tya
sbc &n1+4
sta &n1+4
tya
sbc &n1+6
sta &n1+6
~restm
mend
macro
&l move4 &m1,&m2
lclb &yistwo
&l ~setm
@ -140,27 +121,3 @@
.d
sta 2+&op
mend
MACRO
&LAB FTINTX
&LAB PEA $0016
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2C
&LAB PEA $0510
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCPXX
&LAB PEA $0A
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSUBX
&LAB PEA 2
LDX #$090A
JSL $E10000
MEND

4
make
View File

@ -19,7 +19,7 @@ if {#} == 0
unset exit
end
for i in cc ctype string stdlib time setjmp orca fcntl vars toolglue signal int64 fenv fpextra math2 locale uchar
for i in cc ctype string stdlib time setjmp orca fcntl vars toolglue signal int64 locale uchar
Newer obj/{i}.a {i}.asm
if {Status} != 0
set exit on
@ -40,7 +40,7 @@ delete orcalib
set list vars.a assert.a cc.a setjmp.a ctype.a string.a stdlib.a
set list {list} time.a signal.a toolglue.a orca.a fcntl.a stdio.a int64.a
set list {list} fenv.a fpextra.a math2.a locale.a uchar.a
set list {list} locale.a uchar.a
for i in {list}
echo makelib orcalib +obj/{i}
makelib orcalib +obj/{i}

4257
math2.asm

File diff suppressed because it is too large Load Diff

View File

@ -1,755 +0,0 @@
macro
&l ph4 &n1
&l anop
aif "&n1"="*",.f
lclc &c
&c amid &n1,1,1
aif "&c"="#",.d
aif s:longa=1,.a
rep #%00100000
.a
aif "&c"<>"{",.b
&c amid &n1,l:&n1,1
aif "&c"<>"}",.g
&n1 amid &n1,2,l:&n1-2
ldy #2
lda (&n1),y
pha
lda (&n1)
pha
ago .e
.b
aif "&c"<>"[",.c
ldy #2
lda &n1,y
pha
lda &n1
pha
ago .e
.c
aif "&c"<>"<",.c1
&n1 amid &n1,2,l:&n1-1
pei &n1+2
pei &n1
ago .e
.c1
lda &n1+2
pha
lda &n1
pha
ago .e
.d
&n1 amid &n1,2,l:&n1-1
pea +(&n1)|-16
pea &n1
ago .f
.e
aif s:longa=1,.f
sep #%00100000
.f
mexit
.g
mnote "Missing closing '}'",16
mend
MACRO
&lab csubroutine &parms,&work
&lab anop
aif c:&work,.a
lclc &work
&work setc 0
.a
gbla &totallen
gbla &worklen
&worklen seta &work
&totallen seta 0
aif c:&parms=0,.e
lclc &len
lclc &p
lcla &i
&i seta 1
.b
&p setc &parms(&i)
&len amid &p,2,1
aif "&len"=":",.c
&len amid &p,1,2
&p amid &p,4,l:&p-3
ago .d
.c
&len amid &p,1,1
&p amid &p,3,l:&p-2
.d
&p equ &totallen+4+&work
&totallen seta &totallen+&len
&i seta &i+1
aif &i<=c:&parms,^b
.e
tsc
aif &work=0,.f
sec
sbc #&work
tcs
.f
phd
tcd
mend
MACRO
&lab creturn &r
&lab anop
lclc &len
aif c:&r,.a
lclc &r
&r setc 0
&len setc 0
ago .h
.a
&len amid &r,2,1
aif "&len"=":",.b
&len amid &r,1,2
&r amid &r,4,l:&r-3
ago .c
.b
&len amid &r,1,1
&r amid &r,3,l:&r-2
.c
aif &len<>2,.d
ldy &r
ago .h
.d
aif &len<>4,.e
ldx &r+2
ldy &r
ago .h
.e
aif &len<>10,.g
ldy #&r
ldx #^&r
ago .h
.g
mnote 'Not a valid return length',16
mexit
.h
aif &totallen=0,.i
lda &worklen+2
sta &worklen+&totallen+2
lda &worklen+1
sta &worklen+&totallen+1
.i
pld
tsc
clc
adc #&worklen+&totallen
tcs
aif &len=0,.j
tya
.j
rtl
mend
macro
&l cmp4 &n1,&n2
lclb &yistwo
&l ~setm
~lda.h &n1
~op.h eor,&n2
bpl ~a&SYSCNT
~lda.h &n2
~op.h cmp,&n1
bra ~b&SYSCNT
~a&SYSCNT ~lda.h &n1
~op.h cmp,&n2
bne ~b&SYSCNT
~lda &n1
~op cmp,&n2
~b&SYSCNT anop
~restm
mend
macro
&l ~lda &op
lclc &c
&c amid "&op",1,1
aif "&c"<>"{",.b
&c amid "&op",l:&op,1
aif "&c"="}",.a
mnote "Missing closing '}'",2
&op setc &op}
.a
&op amid "&op",2,l:&op-2
&op setc (&op)
.b
&l lda &op
mend
macro
&l ~lda.h &op
&l anop
lclc &c
&c amid "&op",1,1
aif "&c"="[",.b
aif "&c"<>"{",.d
&c amid "&op",l:&op,1
aif "&c"="}",.a
mnote "Missing closing '}'",2
&op setc &op}
.a
&op amid "&op",2,l:&op-2
&op setc (&op)
.b
aif &yistwo,.c
&yistwo setb 1
ldy #2
.c
&op setc "&op,y"
lda &op
mexit
.d
aif "&c"<>"#",.e
&op amid "&op",2,l:&op-1
&op setc "#^&op"
lda &op
mexit
.e
lda 2+&op
mend
macro
&l ~op &opc,&op
lclc &c
&c amid "&op",1,1
aif "&c"<>"{",.b
&c amid "&op",l:&op,1
aif "&c"="}",.a
mnote "Missing closing '}'",2
&op setc &op}
.a
&op amid "&op",2,l:&op-2
&op setc (&op)
.b
&l &opc &op
mend
macro
&l ~op.h &opc,&op
&l anop
lclc &c
&c amid "&op",1,1
aif "&c"="[",.b
aif "&c"<>"{",.d
&c amid "&op",l:&op,1
aif "&c"="}",.a
mnote "Missing closing '}'",2
&op setc &op}
.a
&op amid "&op",2,l:&op-2
&op setc (&op)
.b
aif &yistwo,.c
&yistwo setb 1
ldy #2
.c
&op setc "&op,y"
&opc &op
mexit
.d
aif "&c"<>"#",.e
&op amid "&op",2,l:&op-1
&op setc "#^&op"
&opc &op
mexit
.e
&opc 2+&op
mend
macro
&l ~restm
&l anop
aif (&~la+&~li)=2,.i
sep #32*(.not.&~la)+16*(.not.&~li)
aif &~la,.h
longa off
.h
aif &~li,.i
longi off
.i
mend
macro
&l ~setm
&l anop
aif c:&~la,.b
gblb &~la
gblb &~li
.b
&~la setb s:longa
&~li setb s:longi
aif s:longa.and.s:longi,.a
rep #32*(.not.&~la)+16*(.not.&~li)
longa on
longi on
.a
mend
macro
&l inc4 &a
&l ~setm
inc &a
bne ~&SYSCNT
inc 2+&a
~&SYSCNT ~restm
mend
macro
&l sub4 &m1,&m2,&m3
lclb &yistwo
lclc &c
&l ~setm
aif c:&m3,.a
&c amid "&m2",1,1
aif "&c"<>"#",.a
&c amid "&m1",1,1
aif "&c"="{",.a
aif "&c"="[",.a
&c amid "&m2",2,l:&m2-1
aif &c>=65536,.a
sec
~lda &m1
~op sbc,&m2
~sta &m1
bcs ~&SYSCNT
~op.h dec,&m1
~&SYSCNT anop
ago .c
.a
aif c:&m3,.b
lclc &m3
&m3 setc &m1
.b
sec
~lda &m1
~op sbc,&m2
~sta &m3
~lda.h &m1
~op.h sbc,&m2
~sta.h &m3
.c
~restm
mend
macro
&l ~sta &op
lclc &c
&c amid "&op",1,1
aif "&c"<>"{",.b
&c amid "&op",l:&op,1
aif "&c"="}",.a
mnote "Missing closing '}'",2
&op setc &op}
.a
&op amid "&op",2,l:&op-2
&op setc (&op)
.b
&l sta &op
mend
macro
&l ~sta.h &op
&l anop
lclc &c
&c amid "&op",1,1
aif "&c"="[",.b
aif "&c"<>"{",.d
&c amid "&op",l:&op,1
aif "&c"="}",.a
mnote "Missing closing '}'",2
&op setc &op}
.a
&op amid "&op",2,l:&op-2
&op setc (&op)
.b
aif &yistwo,.c
&yistwo setb 1
ldy #2
.c
&op setc "&op,y"
sta &op
mexit
.d
sta 2+&op
mend
macro
&l cmpl &n1,&n2
lclb &yistwo
&l ~setm
~lda.h &n1
~op.h cmp,&n2
bne ~a&SYSCNT
~lda &n1
~op cmp,&n2
~a&SYSCNT anop
~restm
mend
macro
&l jmi &bp
&l bpl *+5
brl &bp
mend
macro
&l jpl &bp
&l bmi *+5
brl &bp
mend
macro
&l jeq &bp
&l bne *+5
brl &bp
mend
MACRO
&LAB FCLASSS
&LAB PEA $021C
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCLASSD
&LAB PEA $011C
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCLASSX
&LAB PEA $001C
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2S
&LAB PEA $0210
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2D
&LAB PEA $0110
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCMPX
&LAB PEA $0008
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FEXP2X
&LAB PEA $000A
LDX #$0B0A
JSL $E10000
MEND
MACRO
&LAB FEXP1X
&LAB PEA $000C
LDX #$0B0A
JSL $E10000
MEND
MACRO
&LAB FLN1X
&LAB PEA $0004
LDX #$0B0A
JSL $E10000
MEND
MACRO
&LAB FLOG2X
&LAB PEA $0002
LDX #$0B0A
JSL $E10000
MEND
MACRO
&LAB FLOGBX
&LAB PEA $001A
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2I
&LAB PEA $0410
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FTINTX
&LAB PEA $0016
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FRINTX
&LAB PEA $0014
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FXPWRY
&LAB PEA $0012
LDX #$0B0A
JSL $E10000
MEND
MACRO
&LAB FREMX
&LAB PEA $000C
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSCALBX
&LAB PEA $0018
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSUBX
&LAB PEA $0002
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FGETENV
&LAB PEA $03
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSETENV
&LAB PEA $01
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2C
&LAB PEA $0510
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCPXX
&LAB PEA $0A
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FNEXTX
&LAB PEA $001E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FX2X
&LAB PEA $0010
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCPXD
&LAB PEA $010A
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FNEXTD
&LAB PEA $011E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FD2X
&LAB PEA $010E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FS2X
&LAB PEA $020E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FNEXTS
&LAB PEA $021E
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FCPXS
&LAB PEA $020A
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FPROCENTRY
&LAB PEA $0017
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FPROCEXIT
&LAB PEA $0019
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FTESTXCP
&LAB PEA $001B
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FADDS
&LAB PEA $0200
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSETXCP
&LAB PEA $0015
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FADDX
&LAB PEA $0000
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FADDI
&LAB PEA $0400
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FSUBI
&LAB PEA $0402
LDX #$090A
JSL $E10000
MEND
MACRO
&LAB FMULX
&LAB PEA $0004
LDX #$090A
JSL $E10000