Apple-1-Integer-BASIC/A1B-move/a1basic.out

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2021-05-28 12:54:16 +00:00
; Apple 1 BASIC
;
; Modifications to build with CC65 by Jeff Tranter <tranter@pobox.com>
;
; Apple 1 BASIC was written by Steve Wozniak
; Uses disassembly copyright 2003 Eric Smith <eric@brouhaha.com>
; http://www.brouhaha.com/~eric/retrocomputing/apple/apple1/basic/
Z1d = $1D
ch = $24 ; horizontal cursor location
var = $48
lomem = $4A ; lower limit of memory used by BASIC (2 bytes)
himem = $4C ; upper limit of memory used by BASIC (2 bytes)
rnd = $4E ; random number (2 bytes)
; The noun stack and syntax stack appear to overlap, which is OK since
; they apparently are not used simultaneously.
; The noun stack size appears to be 32 entries, based on LDX #$20
; instruction at e67f. However, there seems to be enough room for
; another 8 entries. The noun stack builds down from noun_stk_<part>+$1f
; to noun_stk_<part>+$00, indexed by the X register.
; Noun stack usage appears to be:
; integer:
; (noun_stk_h_int,noun_stk_l) = value
; noun_stk_h_str = 0
; string:
; (noun_stk_h_str,noun_stk_l) = pointer to string
; noun_stk_h_int = any
; Since noun_stk_h_str determines whether stack entry is integer or string,
; strings can't start in zero page.
noun_stk_l = $50
syn_stk_h = $58 ; through $77
noun_stk_h_str = $78
syn_stk_l = $80 ; through $9F
noun_stk_h_int = $A0
txtndxstk = $A8 ; through $C7
text_index = $C8 ; index into text being tokenized (in buffer at $0200)
leadbl = $C9 ; leading blanks
pp = $CA ; pointer to end of program (2 bytes)
pv = $CC ; pointer to end of variable storage (2 bytes)
acc = $CE ; (2 bytes)
srch = $D0
tokndxstk = $D1
srch2 = $D2
if_flag = $D4
cr_flag = $D5
current_verb = $D6
precedence = $D7
x_save = $D8
run_flag = $D9
aux = $DA
pline = $DC ; pointer to current program line (2 bytes)
pverb = $E0 ; pointer to current verb (2 bytes)
p1 = $E2
p2 = $E4
p3 = $E6
token_index = $F1 ; pointer used to write tokens into buffer 2 bytes)
pcon = $F2 ; temp used in decimal output (2 bytes)
auto_inc = $F4
auto_ln = $F6
auto_flag = $F8
char = $F9
leadzr = $FA
for_nest_count = $FB ; count of active (nested) FOR loops
gosub_nest_count = $FC ; count of active (nested) subroutines calls (GOSUB)
synstkdx = $FD
synpag = $FE
; GOSUB stack, max eight entries
; note that the Apple II version has sixteen entries
gstk_pverbl = $0100 ; saved pverb
gstk_pverbh = $0108
gstk_plinel = $0110 ; saved pline
gstk_plineh = $0118
; FOR stack, max eight entries
; note that the Apple II version has sixteen entries
fstk_varl = $0120 ; pointer to index variable
fstk_varh = $0128
fstk_stepl = $0130 ; step value
fstk_steph = $0138
fstk_plinel = $0140 ; saved pline
fstk_plineh = $0148
fstk_pverbl = $0150 ; saved pverb
fstk_pverbh = $0158
fstk_tol = $0160 ; "to" (limit) value
fstk_toh = $0168
buffer = $0200
KBD = $D010
KBDCR = $D011
DSP = $D012
.org $A000
.export START
START: JMP cold ; BASIC cold start entry point
; Get character for keyboard, return in A.
rdkey: LDA KBDCR ; Read control register
BPL rdkey ; Loop if no key pressed
LDA KBD ; Read key data
RTS ; and return
Se00c: TXA
AND #$20
BEQ Le034
Se011: LDA #$A0
STA p2
JMP cout
Se018: LDA #$20
Se01a: CMP ch
BCS nextbyte
LDA #$8D
LDY #$07
Le022: JSR cout
LDA #$A0
DEY
BNE Le022
nextbyte: LDY #$00
LDA (p1),Y
INC p1
BNE Le034
INC p1+1
Le034: RTS
; token $75 - "," in LIST command
list_comman: JSR get16bit
JSR find_line2
Le03b: LDA p1
CMP p3
LDA p1+1
SBC p3+1
BCS Le034
JSR list_line
JMP Le03b
; token $76 - LIST command w/ no args
list_all: LDA pp
STA p1
LDA pp+1
STA p1+1
LDA himem
STA p3
LDA himem+1
STA p3+1
BNE Le03b
; token $74 - LIST command w/ line number(s)
list_cmd: JSR get16bit
JSR find_line
LDA p2
STA p1
LDA p2+1
STA p1+1
BCS Le034
; list one program line
list_line: STX x_save
LDA #$A0
STA leadzr
JSR nextbyte
TYA
; list an integer (line number or literal)
list_int: STA p2
JSR nextbyte
TAX
JSR nextbyte
JSR prdec
Le083: JSR Se018
STY leadzr
TAX
BPL list_token
ASL
BPL list_int
LDA p2
BNE Le095
JSR Se011
Le095: TXA
Le096: JSR cout
Le099: LDA #$25
JSR Se01a
TAX
BMI Le096
STA p2
; list a single token
list_token: CMP #$01
BNE Le0ac
LDX x_save
JMP crout
Le0ac: PHA
STY acc
LDX #$AD
STX acc+1
CMP #$51
BCC Le0bb
DEC acc+1
SBC #$50
Le0bb: PHA
LDA (acc),Y
Le0be: TAX
DEY
LDA (acc),Y
BPL Le0be
CPX #$C0
BCS Le0cc
CPX #$00
BMI Le0be
Le0cc: TAX
PLA
SBC #$01
BNE Le0bb
BIT p2
BMI Le0d9
JSR Seff8
Le0d9: LDA (acc),Y
BPL Le0ed
TAX
AND #$3F
STA p2
CLC
ADC #$A0
JSR cout
DEY
CPX #$C0
BCC Le0d9
Le0ed: JSR Se00c
PLA
CMP #$5D
BEQ Le099
CMP #$28
BNE Le083
BEQ Le099
; token $2A - left paren for substring like A$(3,5)
paren_substr: JSR Se118
STA noun_stk_l,X
CMP noun_stk_h_str,X
Le102: BCC Le115
string_err: LDY #$2B
go_errmess_1: JMP print_err_msg
; token $2B - comma for substring like A$(3,5)
comma_substr: JSR getbyte
CMP noun_stk_l,X
BCC string_err
JSR Sefe4
STA noun_stk_h_str,X
Le115: JMP left_paren
Se118: JSR getbyte
BEQ string_err
SEC
SBC #$01
RTS
; token $42 - left paren for string array as dest
; A$(1)="FOO"
str_arr_dest: JSR Se118
STA noun_stk_l,X
CLC
SBC noun_stk_h_str,X
JMP Le102
Le12c: LDY #$14
BNE go_errmess_1
; token $43 - comma, next var in DIM statement is string
; token $4E - "DIM", next var in DIM is string
dim_str: JSR Se118
INX
Le134: LDA noun_stk_l,X
STA aux
ADC acc
PHA
TAY
LDA noun_stk_h_str,X
STA aux+1
ADC acc+1
PHA
CPY pp
SBC pp+1
BCS Le12c
LDA aux
ADC #$FE
STA aux
LDA #$FF
TAY
ADC aux+1
STA aux+1
Le156: INY
LDA (aux),Y
CMP pv,Y
BNE Le16d
TYA
BEQ Le156
Le161: PLA
STA (aux),Y
STA pv,Y
DEY
BPL Le161
INX
RTS
NOP
Le16d: LDY #$80
Le16f: BNE go_errmess_1
; token ???
input_str: LDA #$00
JSR push_a_noun_stk
LDY #$02
STY noun_stk_h_str,X
JSR push_a_noun_stk
LDA #$BF ; '?'
JSR cout
LDY #$00
JSR read_line
STY noun_stk_h_str,X
NOP
NOP
NOP
; token $70 - string literal
string_lit: LDA noun_stk_l+1,X
STA acc
LDA noun_stk_h_str+1,X
STA acc+1
INX
INX
JSR Se1bc
Le199: LDA rnd,X
CMP syn_stk_h+30,X
BCS Le1b4
INC rnd,X
TAY
LDA (acc),Y
LDY noun_stk_l,X
CPY p2
BCC Le1ae
LDY #$83
BNE Le16f
Le1ae: STA (aux),Y
INC noun_stk_l,X
BCC Le199
Le1b4: LDY noun_stk_l,X
TXA
STA (aux),Y
INX
INX
RTS
Se1bc: LDA noun_stk_l+1,X
STA aux
SEC
SBC #$02
STA p2
LDA noun_stk_h_str+1,X
STA aux+1
SBC #$00
STA p2+1
LDY #$00
LDA (p2),Y
CLC
SBC aux
STA p2
RTS
; token $39 - "=" for string equality operator
string_eq: LDA noun_stk_l+3,X
STA acc
LDA noun_stk_h_str+3,X
STA acc+1
LDA noun_stk_l+1,X
STA aux
LDA noun_stk_h_str+1,X
STA aux+1
INX
INX
INX
LDY #$00
STY noun_stk_h_str,X
STY noun_stk_h_int,X
INY
STY noun_stk_l,X
Le1f3: LDA himem+1,X
CMP syn_stk_h+29,X
PHP
PHA
LDA rnd+1,X
CMP syn_stk_h+31,X
BCC Le206
PLA
PLP
BCS Le205
Le203: LSR noun_stk_l,X
Le205: RTS
Le206: TAY
LDA (acc),Y
STA p2
PLA
TAY
PLP
BCS Le203
LDA (aux),Y
CMP p2
BNE Le203
INC rnd+1,X
INC himem+1,X
BCS Le1f3
; token $3A - "#" for string inequality operator
string_neq: JSR string_eq
JMP not_op
; token $14 - "*" for numeric multiplication
mult_op: JSR Se254
Le225: ASL acc
ROL acc+1
BCC Le238
CLC
LDA p3
ADC aux
STA p3
LDA p3+1
ADC aux+1
STA p3+1
Le238: DEY
BEQ Le244
ASL p3
ROL p3+1
BPL Le225
JMP Le77e
Le244: LDA p3
JSR push_ya_noun_stk
LDA p3+1
STA noun_stk_h_int,X
ASL p2+1
BCC Le279
JMP negate
Se254: LDA #$55
STA p2+1
JSR Se25b
Se25b: LDA acc
STA aux
LDA acc+1
STA aux+1
JSR get16bit
STY p3
STY p3+1
LDA acc+1
BPL Le277
DEX
ASL p2+1
JSR negate
JSR get16bit
Le277: LDY #$10
Le279: RTS
; token $1f - "MOD"
mod_op: JSR See6c
BEQ Le244
.byte $FF
Le280: CMP #$84
BNE Le286
LSR auto_flag
Le286: CMP #$DF
BEQ Le29b
CMP #$9B
BEQ Le294
STA buffer,Y
INY
BPL read_line
Le294: LDY #$8B
JSR Se3c4
Se299: LDY #$01
Le29b: DEY
BMI Le294
; read a line from keyboard (using rdkey) into buffer
read_line: JSR rdkey
NOP
NOP
JSR cout
CMP #$8D
BNE Le280
LDA #$DF
STA buffer,Y
RTS
cold: JSR mem_init_4k
.export warm
warm: JSR crout ; BASIC warm start entry point
Le2b6: LSR run_flag
LDA #'>'+$80 ; Prompt character (high bit set)
JSR cout
LDY #$00
STY leadzr
BIT auto_flag
BPL Le2d1
LDX auto_ln
LDA auto_ln+1
JSR prdec
LDA #$A0
JSR cout
Le2d1: LDX #$FF
TXS
JSR read_line
STY token_index
TXA
STA text_index
LDX #$20
JSR Se491
LDA text_index
ADC #$00
STA pverb
LDA #$00
TAX
ADC #$02
STA pverb+1
LDA (pverb,X)
AND #$F0
CMP #$B0
BEQ Le2f9
JMP Le883
Le2f9: LDY #$02
Le2fb: LDA (pverb),Y
STA pv+1,Y
DEY
BNE Le2fb
JSR Se38a
LDA token_index
SBC text_index
CMP #$04
BEQ Le2b6
STA (pverb),Y
LDA pp
SBC (pverb),Y
STA p2
LDA pp+1
SBC #$00
STA p2+1
LDA p2
CMP pv
LDA p2+1
SBC pv+1
BCC Le36b
Le326: LDA pp
SBC (pverb),Y
STA p3
LDA pp+1
SBC #$00
STA p3+1
LDA (pp),Y
STA (p3),Y
INC pp
BNE Le33c
INC pp+1
Le33c: LDA p1
CMP pp
LDA p1+1
SBC pp+1
BCS Le326
Le346: LDA p2,X
STA pp,X
DEX
BPL Le346
LDA (pverb),Y
TAY
Le350: DEY
LDA (pverb),Y
STA (p3),Y
TYA
BNE Le350
BIT auto_flag
BPL Le365
Le35c: LDA auto_ln+1,X
ADC auto_inc+1,X
STA auto_ln+1,X
INX
BEQ Le35c
Le365: BPL Le3e5
.byte $00,$00,$00,$00
Le36b: LDY #$14
BNE print_err_msg
; token $0a - "," in DEL command
del_comma: JSR get16bit
LDA p1
STA p3
LDA p1+1
STA p3+1
JSR find_line1
LDA p1
STA p2
LDA p1+1
STA p2+1
BNE Le395
; token $09 - "DEL"
del_cmd: JSR get16bit
Se38a: JSR find_line
LDA p3
STA p1
LDA p3+1
STA p1+1
Le395: LDY #$00
Le397: LDA pp
CMP p2
LDA pp+1
SBC p2+1
BCS Le3b7
LDA p2
BNE Le3a7
DEC p2+1
Le3a7: DEC p2
LDA p3
BNE Le3af
DEC p3+1
Le3af: DEC p3
LDA (p2),Y
STA (p3),Y
BCC Le397
Le3b7: LDA p3
STA pp
LDA p3+1
STA pp+1
RTS
Le3c0: JSR cout
INY
Se3c4: LDA error_msg_tbl,Y
BMI Le3c0
cout: CMP #$8D
BNE Le3d3
crout: LDA #$00 ; character output
STA ch
LDA #$8D
Le3d3: INC ch
; Send character to display. Char is in A.
Le3d5: BIT DSP ; See if display ready
BMI Le3d5 ; Loop if not
STA DSP ; Write display data
RTS ; and return
too_long_err: LDY #$06
print_err_msg: JSR print_err_msg1 ; print error message specified in Y
BIT run_flag
Le3e5: BMI Le3ea
JMP Le2b6
Le3ea: JMP Leb9a
Le3ed: ROL
ADC #$A0
CMP buffer,X
BNE Le448
LDA (synpag),Y
ASL
BMI Le400
DEY
LDA (synpag),Y
BMI Le428
INY
Le400: STX text_index
TYA
PHA
LDX #$00
LDA (synpag,X)
TAX
Le409: LSR
EOR #$48
ORA (synpag),Y
CMP #$C0
BCC Le413
INX
Le413: INY
BNE Le409
PLA
TAY
TXA
JMP Le4c0
; write a token to the buffer
; buffer [++tokndx] = A
put_token: INC token_index
LDX token_index
BEQ too_long_err
STA buffer,X
Le425: RTS
Le426: LDX text_index
Le428: LDA #$A0
Le42a: INX
CMP buffer,X
BCS Le42a
LDA (synpag),Y
AND #$3F
LSR
BNE Le3ed
LDA buffer,X
BCS Le442
ADC #$3F
CMP #$1A
BCC Le4b1
Le442: ADC #$4F
CMP #$0A
BCC Le4b1
Le448: LDX synstkdx
Le44a: INY
LDA (synpag),Y
AND #$E0
CMP #$20
BEQ Le4cd
LDA txtndxstk,X
STA text_index
LDA tokndxstk,X
STA token_index
Le45b: DEY
LDA (synpag),Y
ASL
BPL Le45b
DEY
BCS Le49c
ASL
BMI Le49c
LDY syn_stk_h,X
STY synpag+1
LDY syn_stk_l,X
INX
BPL Le44a
Le470: BEQ Le425
CMP #$7E
BCS Le498
DEX
BPL Le47d
LDY #$06
BPL go_errmess_2
Le47d: STY syn_stk_l,X
LDY synpag+1
STY syn_stk_h,X
LDY text_index
STY txtndxstk,X
LDY token_index
STY tokndxstk,X
AND #$1F
TAY
LDA syntabl_index,Y
Se491: ASL
TAY
LDA #$56 ; Manual Change by W4JBM
ROL
STA synpag+1
Le498: BNE Le49b
INY
Le49b: INY
Le49c: STX synstkdx
LDA (synpag),Y
BMI Le426
BNE Le4a9
LDY #$0E
go_errmess_2: JMP print_err_msg
Le4a9: CMP #$03
BCS Le470
LSR
LDX text_index
INX
Le4b1: LDA buffer,X
BCC Le4ba
CMP #$A2
BEQ Le4c4
Le4ba: CMP #$DF
BEQ Le4c4
STX text_index
Le4c0: JSR put_token
INY
Le4c4: DEY
LDX synstkdx
Le4c7: LDA (synpag),Y
DEY
ASL
BPL Le49c
Le4cd: LDY syn_stk_h,X
STY synpag+1
LDY syn_stk_l,X
INX
LDA (synpag),Y
AND #$9F
BNE Le4c7
STA pcon
STA pcon+1
TYA
PHA
STX synstkdx
LDY srch,X
STY leadbl
CLC
Le4e7: LDA #$0A
STA char
LDX #$00
INY
LDA buffer,Y
AND #$0F
Le4f3: ADC pcon
PHA
TXA
ADC pcon+1
BMI Le517
TAX
PLA
DEC char
BNE Le4f3
STA pcon
STX pcon+1
CPY token_index
BNE Le4e7
LDY leadbl
INY
STY token_index
JSR put_token
PLA
TAY
LDA pcon+1
BCS Le4c0
Le517: LDY #$00
BPL go_errmess_2
prdec: STA pcon+1 ; output A:X in decimal
STX pcon
LDX #$04
STX leadbl
Le523: LDA #$B0
STA char
Le527: LDA pcon
CMP dectabl,X
LDA pcon+1
SBC dectabh,X
BCC Le540
STA pcon+1
LDA pcon
SBC dectabl,X
STA pcon
INC char
BNE Le527
Le540: LDA char
INX
DEX
BEQ Le554
CMP #$B0
BEQ Le54c
STA leadbl
Le54c: BIT leadbl
BMI Le554
LDA leadzr
BEQ Le55f
Le554: JSR cout
BIT auto_flag
BPL Le55f
STA buffer,Y
INY
Le55f: DEX
BPL Le523
RTS
; powers of 10 table, low byte
dectabl: .byte $01,$0A,$64,$E8,$10 ; "..dh."
; powers of 10 table, high byte
dectabh: .byte $00,$00,$00,$03,$27 ; "....'"
find_line: LDA pp
STA p3
LDA pp+1
STA p3+1
find_line1: INX
find_line2: LDA p3+1
STA p2+1
LDA p3
STA p2
CMP himem
LDA p2+1
SBC himem+1
BCS Le5ac
LDY #$01
LDA (p2),Y
SBC acc
INY
LDA (p2),Y
SBC acc+1
BCS Le5ac
LDY #$00
LDA p3
ADC (p2),Y
STA p3
BCC Le5a0
INC p3+1
CLC
Le5a0: INY
LDA acc
SBC (p2),Y
INY
LDA acc+1
SBC (p2),Y
BCS find_line2
Le5ac: RTS
; token $0B - "NEW"
new_cmd: LSR auto_flag
LDA himem
STA pp
LDA himem+1
STA pp+1
; token $0C - "CLR"
clr: LDA lomem
STA pv
LDA lomem+1
STA pv+1
LDA #$00
STA for_nest_count
STA gosub_nest_count
STA synpag
LDA #$00
STA Z1d
RTS
Le5cc: LDA srch
ADC #$05
STA srch2
LDA tokndxstk
ADC #$00
STA srch2+1
LDA srch2
CMP pp
LDA srch2+1
SBC pp+1
BCC Le5e5
JMP Le36b
Le5e5: LDA acc
STA (srch),Y
LDA acc+1
INY
STA (srch),Y
LDA srch2
INY
STA (srch),Y
LDA srch2+1
INY
STA (srch),Y
LDA #$00
INY
STA (srch),Y
INY
STA (srch),Y
LDA srch2
STA pv
LDA srch2+1
STA pv+1
LDA srch
BCC Le64f
execute_var: STA acc
STY acc+1
JSR get_next_prog_byte
BMI Le623
CMP #$40
BEQ Le623
JMP Le628
.byte $06,$C9,$49,$D0,$07,$A9,$49
Le623: STA acc+1
JSR get_next_prog_byte
Le628: LDA lomem+1
STA tokndxstk
LDA lomem
Le62e: STA srch
CMP pv
LDA tokndxstk
SBC pv+1
BCS Le5cc
LDA (srch),Y
INY
CMP acc
BNE Le645
LDA (srch),Y
CMP acc+1
BEQ Le653
Le645: INY
LDA (srch),Y
PHA
INY
LDA (srch),Y
STA tokndxstk
PLA
Le64f: LDY #$00
BEQ Le62e
Le653: LDA srch
ADC #$03
JSR push_a_noun_stk
LDA tokndxstk
ADC #$00
STA noun_stk_h_str,X
LDA acc+1
CMP #$40
BNE fetch_prog_byte
DEY
TYA
JSR push_a_noun_stk
DEY
STY noun_stk_h_str,X
LDY #$03
Le670: INC noun_stk_h_str,X
INY
LDA (srch),Y
BMI Le670
BPL fetch_prog_byte
execute_stmt: LDA #$00
STA if_flag
STA cr_flag
LDX #$20
; push old verb on stack for later use in precedence test
push_old_verb: PHA
fetch_prog_byte: LDY #$00
LDA (pverb),Y
Le686: BPL execute_token
ASL
BMI execute_var
JSR get_next_prog_byte
JSR push_ya_noun_stk
JSR get_next_prog_byte
STA noun_stk_h_int,X
Le696: BIT if_flag
BPL Le69b
DEX
Le69b: JSR get_next_prog_byte
BCS Le686
execute_token: CMP #$28
BNE execute_verb
LDA pverb
JSR push_a_noun_stk
LDA pverb+1
STA noun_stk_h_str,X
BIT if_flag
BMI Le6bc
LDA #$01
JSR push_a_noun_stk
LDA #$00
STA noun_stk_h_str,X
Le6ba: INC noun_stk_h_str,X
Le6bc: JSR get_next_prog_byte
BMI Le6ba
BCS Le696
execute_verb: BIT if_flag
BPL Le6cd
CMP #$04
BCS Le69b
LSR if_flag
Le6cd: TAY
STA current_verb
LDA verb_prec_tbl,Y
AND #$55
ASL
STA precedence
Le6d8: PLA
TAY
LDA verb_prec_tbl,Y
AND #$AA
CMP precedence
BCS do_verb
TYA
PHA
JSR get_next_prog_byte
LDA current_verb
BCC push_old_verb
do_verb: LDA verb_adr_l,Y
STA acc
LDA verb_adr_h,Y
STA acc+1
JSR Se6fc
JMP Le6d8
Se6fc: JMP (acc)
get_next_prog_byte: INC pverb
BNE Le705
INC pverb+1
Le705: LDA (pverb),Y
RTS
push_ya_noun_stk: STY syn_stk_h+31,X
push_a_noun_stk: DEX
BMI Le710
STA noun_stk_l,X
RTS
Le710: LDY #$66
go_errmess_3: JMP print_err_msg
get16bit: LDY #$00
LDA noun_stk_l,X
STA acc
LDA noun_stk_h_int,X
STA acc+1
LDA noun_stk_h_str,X
BEQ Le731
STA acc+1
LDA (acc),Y
PHA
INY
LDA (acc),Y
STA acc+1
PLA
STA acc
DEY
Le731: INX
RTS
; token $16 - "=" for numeric equality operator
eq_op: JSR neq_op
; token $37 - "NOT"
not_op: JSR get16bit
TYA
JSR push_ya_noun_stk
STA noun_stk_h_int,X
CMP acc
BNE Le749
CMP acc+1
BNE Le749
INC noun_stk_l,X
Le749: RTS
; token $17 - "#" for numeric inequality operator
; token $1B - "<>" for numeric inequality operator
neq_op: JSR subtract
JSR sgn_fn
; token $31 - "ABS"
abs_fn: JSR get16bit
BIT acc+1
BMI Se772
Le757: DEX
Le758: RTS
; token $30 - "SGN"
sgn_fn: JSR get16bit
LDA acc+1
BNE Le764
LDA acc
BEQ Le757
Le764: LDA #$FF
JSR push_ya_noun_stk
STA noun_stk_h_int,X
BIT acc+1
BMI Le758
; token $36 - "-" for unary negation
negate: JSR get16bit
Se772: TYA
SEC
SBC acc
JSR push_ya_noun_stk
TYA
SBC acc+1
BVC Le7a1
Le77e: LDY #$00
BPL go_errmess_3
; token $13 - "-" for numeric subtraction
subtract: JSR negate
; token $12 - "+" for numeric addition
add: JSR get16bit
LDA acc
STA aux
LDA acc+1
STA aux+1
JSR get16bit
Se793: CLC
LDA acc
ADC aux
JSR push_ya_noun_stk
LDA acc+1
ADC aux+1
BVS Le77e
Le7a1: STA noun_stk_h_int,X
; token $35 - "+" for unary positive
unary_pos: RTS
; token $50 - "TAB" function
tab_fn: JSR get16bit
LDY acc
BEQ Le7b0
DEY
LDA acc+1
BEQ Le7bc
Le7b0: RTS
; horizontal tab
tabout: LDA ch
ORA #$07
TAY
INY
Le7b7: LDA #$A0
JSR cout
Le7bc: CPY ch
BCS Le7b7
RTS
; token $49 - "," in print, numeric follows
print_com_num: JSR tabout
; token $62 - "PRINT" numeric
print_num: JSR get16bit
LDA acc+1
BPL Le7d5
LDA #$AD
JSR cout
JSR Se772
BVC print_num
Le7d5: DEY
STY cr_flag
STX acc+1
LDX acc
JSR prdec
LDX acc+1
RTS
; token $0D - "AUTO" command
auto_cmd: JSR get16bit
LDA acc
STA auto_ln
LDA acc+1
STA auto_ln+1
DEY
STY auto_flag
INY
LDA #$0A
Le7f3: STA auto_inc
STY auto_inc+1
RTS
; token $0E - "," in AUTO command
auto_com: JSR get16bit
LDA acc
LDY acc+1
BPL Le7f3
; token $56 - "=" in FOR statement
; token $71 - "=" in LET (or implied LET) statement
var_assign: JSR get16bit
LDA noun_stk_l,X
STA aux
LDA noun_stk_h_str,X
STA aux+1
LDA acc
STA (aux),Y
INY
LDA acc+1
STA (aux),Y
INX
Te816: RTS
; token $00 - begining of line
begin_line:
PLA
PLA
; token $03 - ":" statement separator
colon: BIT cr_flag
BPL Le822
; token $63 - "PRINT" with no arg
print_cr: JSR crout
; token $47 - ";" at end of print statement
print_semi: LSR cr_flag
Le822: RTS
; token $22 - "(" in string DIM
; token $34 - "(" in numeric DIM
; token $38 - "(" in numeric expression
; token $3F - "(" in some PEEK, RND, SGN, ABS (PDL)
left_paren: LDY #$FF
STY precedence
; token $72 - ")" everywhere
right_paren: RTS
; token $60 - "IF" statement
if_stmt: JSR Sefcd
BEQ Le834
LDA #$25
STA current_verb
DEY
STY if_flag
Le834: INX
RTS
; RUN without CLR, used by Apple DOS
run_warm: LDA pp
LDY pp+1
BNE Le896
; token $5C - "GOSUB" statement
gosub_stmt: LDY #$41
LDA gosub_nest_count
CMP #$08
BCS go_errmess_4
TAY
INC gosub_nest_count
LDA pverb
STA gstk_pverbl,Y
LDA pverb+1
STA gstk_pverbh,Y
LDA pline
STA gstk_plinel,Y
LDA pline+1
STA gstk_plineh,Y
; token $24 - "THEN"
; token $5F - "GOTO" statement
goto_stmt: JSR get16bit
JSR find_line
BCC Le867
LDY #$37
BNE go_errmess_4
Le867: LDA p2
LDY p2+1
; loop to run a program
run_loop: STA pline
STY pline+1
BIT KBDCR
BMI Le8c3
CLC
ADC #$03
BCC Le87a
INY
Le87a: LDX #$FF
STX run_flag
TXS
STA pverb
STY pverb+1
Le883: JSR execute_stmt
BIT run_flag
BPL end_stmt
CLC
LDY #$00
LDA pline
ADC (pline),Y
LDY pline+1
BCC Le896
INY
Le896: CMP himem
BNE run_loop
CPY himem+1
BNE run_loop
LDY #$34
LSR run_flag
go_errmess_4: JMP print_err_msg
; token $5B - "RETURN" statement
return_stmt: LDY #$4A
LDA gosub_nest_count
BEQ go_errmess_4
DEC gosub_nest_count
TAY
LDA gstk_plinel-1,Y
STA pline
LDA gstk_plineh-1,Y
STA pline+1
LDX a:synpag+1,Y ; force absolute addressing mode
LDA gstk_pverbh-1,Y
Le8be: TAY
TXA
JMP Le87a
Le8c3: LDY #$63
JSR Se3c4
LDY #$01
LDA (pline),Y
TAX
INY
LDA (pline),Y
JSR prdec
; token $51 - "END" statement
end_stmt: JMP warm
Le8d6: DEC for_nest_count
; token $59 - "NEXT" statement
; token $5A - "," in NEXT statement
next_stmt: LDY #$5B
LDA for_nest_count
Le8dc: BEQ go_errmess_4
TAY
LDA noun_stk_l,X
CMP fstk_varl-1,Y
BNE Le8d6
LDA noun_stk_h_str,X
CMP fstk_varh-1,Y
BNE Le8d6
LDA fstk_stepl-1,Y
STA aux
LDA fstk_steph-1,Y
STA aux+1
JSR get16bit
DEX
JSR Se793
JSR var_assign
DEX
LDY for_nest_count
LDA fstk_toh-1,Y
STA syn_stk_l+31,X
LDA fstk_tol-1,Y
LDY #$00
JSR push_ya_noun_stk
JSR subtract
JSR sgn_fn
JSR get16bit
LDY for_nest_count
LDA acc
BEQ Le925
EOR fstk_steph-1,Y
BPL Le937
Le925: LDA fstk_plinel-1,Y
STA pline
LDA fstk_plineh-1,Y
STA pline+1
LDX fstk_pverbl-1,Y
LDA fstk_pverbh-1,Y
BNE Le8be
Le937: DEC for_nest_count
RTS
; token $55 - "FOR" statement
for_stmt: LDY #$54
LDA for_nest_count
CMP #$08
BEQ Le8dc
INC for_nest_count
TAY
LDA noun_stk_l,X
STA fstk_varl,Y
LDA noun_stk_h_str,X
STA fstk_varh,Y
RTS
; token $57 - "TO"
to_clause: JSR get16bit
LDY for_nest_count
LDA acc
STA fstk_tol-1,Y
LDA acc+1
STA fstk_toh-1,Y
LDA #$01
STA fstk_stepl-1,Y
LDA #$00
Le966: STA fstk_steph-1,Y
LDA pline
STA fstk_plinel-1,Y
LDA pline+1
STA fstk_plineh-1,Y
LDA pverb
STA fstk_pverbl-1,Y
LDA pverb+1
STA fstk_pverbh-1,Y
RTS
Te97e: JSR get16bit
LDY for_nest_count
LDA acc
STA fstk_stepl-1,Y
LDA acc+1
JMP Le966
.byte $00,$00,$00,$00,$00,$00,$00,$00 ; "........"
.byte $00,$00,$00 ; "..."
; verb precedence
; (verb_prec[token]&0xAA)>>1 for left (?)
; verb_prec[token]&0x55 for right (?)
verb_prec_tbl:
.byte $00,$00,$00,$AB,$03,$03,$03,$03 ; "...+...."
.byte $03,$03,$03,$03,$03,$03,$03,$03 ; "........"
.byte $03,$03,$3F,$3F,$C0,$C0,$3C,$3C ; "..??@@<<"
.byte $3C,$3C,$3C,$3C,$3C,$30,$0F,$C0 ; "<<<<<0.@"
.byte $CC,$FF,$55,$00,$AB,$AB,$03,$03 ; "L.U.++.."
.byte $FF,$FF,$55,$FF,$FF,$55,$CF,$CF ; "..U..UOO"
.byte $CF,$CF,$CF,$FF,$55,$C3,$C3,$C3 ; "OOO.UCCC"
.byte $55,$F0,$F0,$CF,$56,$56,$56,$55 ; "UppOVVVU"
.byte $FF,$FF,$55,$03,$03,$03,$03,$03 ; "..U....."
.byte $03,$03,$FF,$FF,$FF,$03,$03,$03 ; "........"
.byte $03,$03,$03,$03,$03,$03,$03,$03 ; "........"
.byte $03,$03,$03,$03,$03,$00,$AB,$03 ; "......+."
.byte $57,$03,$03,$03,$03,$07,$03,$03 ; "W......."
.byte $03,$03,$03,$03,$03,$03,$03,$03 ; "........"
.byte $03,$03,$AA,$FF,$FF,$FF,$FF,$FF ; "..*....."
verb_adr_l:
.byte $17,$FF,$FF,$19,$5D,$35,$4B,$F2 ; "....]5Kr"
.byte $EC,$87,$6F,$AD,$B7,$E2,$F8,$54 ; "l.o-7bxT"
.byte $80,$96,$85,$82,$22,$10,$33,$4A ; "....".3J"
.byte $13,$06,$0B,$4A,$01,$40,$47,$7A ; "...J.@Gz"
.byte $00,$FF,$23,$09,$5B,$16,$B6,$CB ; "..#.[.6K"
.byte $FF,$FF,$FB,$FF,$FF,$24,$F6,$4E ; "..{..$vN"
.byte $59,$50,$00,$FF,$23,$A3,$6F,$36 ; "YP..##o6"
.byte $23,$D7,$1C,$22,$C2,$AE,$BA,$23 ; "#W."B.:#"
.byte $FF,$FF,$21,$30,$1E,$03,$C4,$20 ; "..!0..D "
.byte $00,$C1,$FF,$FF,$FF,$A0,$30,$1E ; ".A... 0."
.byte $A4,$D3,$B6,$BC,$AA,$3A,$01,$50 ; "$S6<*:.P"
.byte $7E,$D8,$D8,$A5,$3C,$FF,$16,$5B ; "~XX%<..["
.byte $28,$03,$C4,$1D,$00,$0C,$4E,$00 ; "(.D...N."
.byte $3E,$00,$A6,$B0,$00,$BC,$C6,$57 ; ">.&0.<FW"
.byte $8C,$01,$27,$FF,$FF,$FF,$FF,$FF ; "..'....."
verb_adr_h:
.byte $A8,$FF,$FF,$A8,$A0,$A0,$A0,$AF ; "h..h```o"
.byte $AF,$A3,$A3,$A5,$A5,$A7,$A7,$AE ; "occeeggn"
.byte $AF,$AF,$A7,$A7,$A2,$AF,$A7,$A7 ; "ooggbogg"
.byte $AC,$AC,$AC,$A7,$AC,$AC,$AC,$A2 ; "lllglllb"
.byte $00,$FF,$A8,$A1,$A8,$A8,$AF,$AB ; "..hahhok"
.byte $FF,$FF,$A0,$FF,$FF,$AF,$AE,$AF ; "..`..ono"
.byte $A7,$A7,$00,$FF,$A8,$A7,$A7,$A7 ; "gg..hggg"
.byte $A8,$A1,$A2,$AE,$AE,$AE,$AE,$A8 ; "habnnnnh"
.byte $FF,$FF,$A1,$A1,$AF,$AE,$A7,$A8 ; "..aaongh"
.byte $AE,$A7,$FF,$FF,$FF,$AE,$A1,$AF ; "ng...nao"
.byte $A7,$A8,$AF,$AF,$AB,$A9,$A8,$A9 ; "ghookihi"
.byte $A9,$A8,$A8,$A8,$A8,$FF,$A8,$A8 ; "ihhhh.hh"
.byte $A8,$AE,$A7,$A8,$AF,$AF,$AE,$AF ; "hnghoono"
.byte $AE,$AF,$AE,$AE,$AF,$AE,$AE,$AE ; "nonnonnn"
.byte $A1,$A8,$A8,$FF,$FF,$FF,$FF,$FF ; "ahh....."
; Error message strings. Last character has high bit unset.
error_msg_tbl:
.byte $BE,$B3,$B2,$B7,$B6,$37 ; ">32767"
.byte $D4,$CF,$CF,$A0,$CC,$CF,$CE,$47 ; "TOO LONG"
.byte $D3,$D9,$CE,$D4,$C1,$58 ; "SYNTAX"
.byte $CD,$C5,$CD,$A0,$C6,$D5,$CC,$4C ; "MEM FULL"
.byte $D4,$CF,$CF,$A0,$CD,$C1,$CE,$D9,$A0,$D0,$C1,$D2,$C5,$CE,$53 ; "TOO MANY PARENS"
.byte $D3,$D4,$D2,$C9,$CE,$47 ; "STRING"
.byte $CE,$CF,$A0,$C5,$CE,$44 ; "NO END"
.byte $C2,$C1,$C4,$A0,$C2,$D2,$C1,$CE,$C3,$48 ; "BAD BRANCH"
.byte $BE,$B8,$A0,$C7,$CF,$D3,$D5,$C2,$53 ; ">8 GOSUBS"
.byte $C2,$C1,$C4,$A0,$D2,$C5,$D4,$D5,$D2,$4E ; "BAD RETURN"
.byte $BE,$B8,$A0,$C6,$CF,$D2,$53 ; ">8 FORS"
.byte $C2,$C1,$C4,$A0,$CE,$C5,$D8,$54 ; "BAD NEXT"
.byte $D3,$D4,$CF,$D0,$D0,$C5,$C4,$A0,$C1,$D4,$20 ; "STOPPED AT "
.byte $AA,$AA,$AA,$20 ; "*** "
.byte $A0,$C5,$D2,$D2,$0D ; " ERR.\n"
.byte $BE,$B2,$B5,$35 ; ">255"
.byte $D2,$C1,$CE,$C7,$45 ; RANGE"
.byte $C4,$C9,$4D ; "DIM"
.byte $D3,$D4,$D2,$A0,$CF,$D6,$C6,$4C ; "STR OVFL"
.byte $DC,$0D ; "\\\n"
.byte $D2,$C5,$D4,$D9,$D0,$C5,$A0,$CC,$C9,$CE,$C5,$8D ; "RETYPE LINE\n"
.byte $3F ; "?"
Leb9a: LSR run_flag
BCC Leba1
JMP Le8c3
Leba1: LDX acc+1
TXS
LDX acc
LDY #$8D
BNE Lebac
; token $54 - "INPUT" statement, numeric, no prompt
input_num_stmt: LDY #$99
Lebac: JSR Se3c4
STX acc
TSX
STX acc+1
LDY #$FE
STY run_flag
INY
STY text_index
JSR Se299
STY token_index
LDX #$20
LDA #$30
JSR Se491
INC run_flag
LDX acc
; token $27 - "," numeric input
input_num_comma: LDY text_index
ASL
Lebce: STA acc
INY
LDA buffer,Y
CMP #$74
BEQ input_num_stmt
EOR #$B0
CMP #$0A
BCS Lebce
INY
INY
STY text_index
LDA buffer,Y
PHA
LDA buffer-1,Y
LDY #$00
JSR push_ya_noun_stk
PLA
STA noun_stk_h_int,X
LDA acc
CMP #$C7
BNE Lebfa
JSR negate
Lebfa: JMP var_assign
.byte $FF,$FF,$FF,$50
Tec01: JSR Tec13
BNE Lec1b
Tec06: JSR Tec0b
BNE Lec1b
Tec0b: JSR subtract
JSR negate
BVC Lec16
Tec13: JSR subtract
Lec16: JSR sgn_fn
LSR noun_stk_l,X
Lec1b: JMP not_op
.byte $FF,$FF
; indexes into syntabl
syntabl_index:
.byte $C1,$FF,$7F,$D1,$CC,$C7,$CF,$CE ; "A..QLGON"
.byte $C5,$9A,$98,$8B,$96,$95,$93,$BF ; "E......?"
.byte $B2,$32,$2D,$2B,$BC,$B0,$AC,$BE ; "22-+<0,>"
.byte $35,$8E,$61,$FF,$FF,$FF,$DD,$FB ; "5.a...]{"
Tec40: JSR Sefc9
ORA rnd+1,X
BPL Lec4c
Tec47: JSR Sefc9
AND rnd+1,X
Lec4c: STA noun_stk_l,X
BPL Lec1b
JMP Sefc9
.byte $40,$60,$8D,$60,$8B,$00,$7E,$8C ; "@`.`..~."
.byte $33,$00,$00,$60,$03,$BF,$12,$00 ; "3..`.?.."
.byte $40,$89,$C9,$47,$9D,$17,$68,$9D ; "@.IG..h."
.byte $0A,$00,$40,$60,$8D,$60,$8B,$00 ; "..@`.`.."
.byte $7E,$8C,$3C,$00,$00,$60,$03,$BF ; "~.<..`.?"
.byte $1B,$4B,$67,$B4,$A1,$07,$8C,$07 ; ".Kg4!..."
.byte $AE,$A9,$AC,$A8,$67,$8C,$07,$B4 ; ".),(g..4"
.byte $AF,$AC,$B0,$67,$9D,$B2,$AF,$AC ; "/,0g.2/,"
.byte $AF,$A3,$67,$8C,$07,$A5,$AB,$AF ; "/#g..%+/"
.byte $B0,$F4,$AE,$A9,$B2,$B0,$7F,$0E ; "0t.)20.."
.byte $27,$B4,$AE,$A9,$B2,$B0,$7F,$0E ; "'4.)20.."
.byte $28,$B4,$AE,$A9,$B2,$B0,$64,$07 ; "(4.)20d."
.byte $A6,$A9,$67,$AF,$B4,$AF,$A7,$78 ; "&)g/4/'x"
.byte $B4,$A5,$AC,$78,$7F,$02,$AD,$A5 ; "4%,x..-%"
.byte $B2,$67,$A2,$B5,$B3,$AF,$A7,$EE ; "2g"53/'n"
.byte $B2,$B5,$B4,$A5,$B2,$7E,$8C,$39 ; "254%2~.9"
.byte $B4,$B8,$A5,$AE,$67,$B0,$A5,$B4 ; "48%.g0%4"
.byte $B3,$27,$AF,$B4,$07,$9D,$19,$B2 ; "3'/4...2"
.byte $AF,$A6,$7F,$05,$37,$B4,$B5,$B0 ; "/&..7450"
.byte $AE,$A9,$7F,$05,$28,$B4,$B5,$B0 ; ".)..(450"
.byte $AE,$A9,$7F,$05,$2A,$B4,$B5,$B0 ; ".)..*450"
.byte $AE,$A9,$E4,$AE,$A5,$00,$FF,$FF ; ".)d.%..."
syntabl2:
.byte $47,$A2,$A1,$B4,$7F,$0D,$30,$AD ; "G"!4..0-"
.byte $A9,$A4,$7F,$0D,$23,$AD,$A9,$A4 ; ")$..#-)$"
.byte $67,$AC,$AC,$A1,$A3,$00,$40,$80 ; "g,,!#.@."
.byte $C0,$C1,$80,$00,$47,$8C,$68,$8C ; "@A..G.h."
.byte $DB,$67,$9B,$68,$9B,$50,$8C,$63 ; "[g.h.P.c"
.byte $8C,$7F,$01,$51,$07,$88,$29,$84 ; "...Q..)."
.byte $80,$C4,$80,$57,$71,$07,$88,$14 ; ".D.Wq..."
.byte $ED,$A5,$AD,$AF,$AC,$ED,$A5,$AD ; "m%-/,m%-"
.byte $A9,$A8,$F2,$AF,$AC,$AF,$A3,$71 ; ")(r/,/#q"
.byte $08,$88,$AE,$A5,$AC,$68,$83,$08 ; "...%,h.."
.byte $68,$9D,$08,$71,$07,$88,$60,$76 ; "h..q..`v"
.byte $B4,$AF,$AE,$76,$8D,$76,$8B,$51 ; "4/.v.v.Q"
.byte $07,$88,$19,$B8,$A4,$AE,$B2,$F2 ; "...8$.2r"
.byte $B3,$B5,$F3,$A2,$A1,$EE,$A7,$B3 ; "35s"!n'3"
.byte $E4,$AE,$B2,$EB,$A5,$A5,$B0,$51 ; "d.2k%%0Q"
.byte $07,$88,$39,$81,$C1,$4F,$7F,$0F ; "..9.AO.."
.byte $2F,$00,$51,$06,$88,$29,$C2,$0C ; "/.Q..)B."
.byte $82,$57,$8C,$6A,$8C,$42,$AE,$A5 ; ".W.j.B.%"
.byte $A8,$B4,$60,$AE,$A5,$A8,$B4,$4F ; "(4`.%(4O"
.byte $7E,$1E,$35,$8C,$27,$51,$07,$88 ; "~.5.'Q.."
.byte $09,$8B,$FE,$E4,$AF,$AD,$F2,$AF ; "..~d/-r/"
.byte $E4,$AE,$A1,$DC,$DE,$9C,$DD,$9C ; "d.!\^.]."
.byte $DE,$DD,$9E,$C3,$DD,$CF,$CA,$CD ; "^].C]OJM"
.byte $CB,$00,$47,$9D,$AD,$A5,$AD,$AF ; "K.G.-%-/"
.byte $AC,$76,$9D,$AD,$A5,$AD,$A9,$A8 ; ",v.-%-)("
.byte $E6,$A6,$AF,$60,$8C,$20,$AF,$B4 ; "f&/`. /4"
.byte $B5,$A1,$F2,$AC,$A3,$F2,$A3,$B3 ; "5!r,#r#3"
.byte $60,$8C,$20,$AC,$A5,$A4,$EE,$B5 ; "`. ,%$n5"
.byte $B2,$60,$AE,$B5,$B2,$F4,$B3,$A9 ; "2`.52t3)"
.byte $AC,$60,$8C,$20,$B4,$B3,$A9,$AC ; ",`. 43),"
.byte $7A,$7E,$9A,$22,$20,$00,$60,$03 ; "z~." .`."
.byte $BF,$60,$03,$BF,$1F ; "?`.?."
; token $48 - "," string output
print_str_comma: JSR tabout
; token $45 - ";" string output
; token $61 - "PRINT" string
print_str: INX
INX
LDA rnd+1,X
STA aux
LDA syn_stk_h+31,X
STA aux+1
LDY rnd,X
Lee0f: TYA
CMP syn_stk_h+30,X
BCS Lee1d
LDA (aux),Y
JSR cout
INY
JMP Lee0f
Lee1d: LDA #$FF
STA cr_flag
RTS
; token $3B - "LEN(" function
len_fn: INX
LDA #$00
STA noun_stk_h_str,X
STA noun_stk_h_int,X
LDA syn_stk_h+31,X
SEC
SBC rnd+1,X
STA noun_stk_l,X
JMP left_paren
.byte $FF
getbyte: JSR get16bit
LDA acc+1
BNE gr_255_err
LDA acc
RTS
; token $68 - "," for PLOT statement (???)
plot_comma: JSR getbyte
LDY text_index
CMP #$30
BCS range_err
CPY #$28
BCS range_err
RTS
NOP
NOP
Tee4e: JSR getbyte
RTS
NOP
Tee5e: TXA
LDX #$01
l123: LDY acc,X
STY himem,X
LDY var,X
STY pp,X
DEX
BEQ l123
TAX
RTS
gr_255_err: LDY #$77 ; > 255 error
go_errmess_5: JMP print_err_msg
range_err: LDY #$7B ; range error
BNE go_errmess_5
See6c: JSR Se254
LDA aux
BNE Lee7a
LDA aux+1
BNE Lee7a
JMP Le77e
Lee7a: ASL acc
ROL acc+1
ROL p3
ROL p3+1
LDA p3
CMP aux
LDA p3+1
SBC aux+1
BCC Lee96
STA p3+1
LDA p3
SBC aux
STA p3
INC acc
Lee96: DEY
BNE Lee7a
RTS
.byte $FF,$FF,$FF,$FF,$FF,$FF
; token $4D - "CALL" statement
call_stmt: JSR get16bit
JMP (acc)
l1233: LDA himem
BNE l1235
DEC himem+1
l1235: DEC himem
LDA var
BNE l1236
DEC var+1
l1236: DEC var
l1237: LDY #$00
LDA (himem),Y
STA (var),Y
LDA pp
CMP himem
LDA pp+1
SBC himem+1
BCC l1233
JMP Tee5e
CMP #$28
Leecb: BCS range_err
TAY
LDA text_index
RTS
NOP
NOP
print_err_msg1:
TYA
TAX
LDY #$6E
JSR Se3c4
TXA
TAY
JSR Se3c4
LDY #$72
JMP Se3c4
Seee4: JSR get16bit
Leee7: ASL acc
ROL acc+1
BMI Leee7
BCS Leecb
BNE Leef5
CMP acc
BCS Leecb
Leef5: RTS
; token $2E - "PEEK" fn (uses $3F left paren)
peek_fn: JSR get16bit
LDA (acc),Y
STY syn_stk_l+31,X
JMP push_ya_noun_stk
; token $65 - "," for POKE statement
poke_stmt: JSR getbyte
LDA acc
PHA
JSR get16bit
PLA
STA (acc),Y
Tef0c: RTS
.byte $FF,$FF,$FF
; token $15 - "/" for numeric division
divide: JSR See6c
LDA acc
STA p3
LDA acc+1
STA p3+1
JMP Le244
; token $44 - "," next var in DIM statement is numeric
; token $4F - "DIM", next var is numeric
dim_num: JSR Seee4
JMP Le134
; token $2D - "(" for numeric array subscript
num_array_subs: JSR Seee4
LDY noun_stk_h_str,X
LDA noun_stk_l,X
ADC #$FE
BCS Lef30
DEY
Lef30: STA aux
STY aux+1
CLC
ADC acc
STA noun_stk_l,X
TYA
ADC acc+1
STA noun_stk_h_str,X
LDY #$00
LDA noun_stk_l,X
CMP (aux),Y
INY
LDA noun_stk_h_str,X
SBC (aux),Y
BCS Leecb
JMP left_paren
; token $2F - "RND" fn (uses $3F left paren)
rnd_fn: JSR get16bit
LDA rnd
JSR push_ya_noun_stk
LDA rnd+1
BNE Lef5e
CMP rnd
ADC #$00
Lef5e: AND #$7F
STA rnd+1
STA noun_stk_h_int,X
LDY #$11
Lef66: LDA rnd+1
ASL
CLC
ADC #$40
ASL
ROL rnd
ROL rnd+1
DEY
BNE Lef66
LDA acc
JSR push_ya_noun_stk
LDA acc+1
STA noun_stk_h_int,X
JMP mod_op
Tef80: JSR get16bit
LDY acc
CPY himem
LDA acc+1
SBC himem+1
BCC Lefab
STY var
LDA acc+1
STA var+1
Lef93: JMP l1237
Tef96: JSR get16bit
LDY acc
CPY pp
LDA acc+1
SBC pp+1
BCS Lefab
STY lomem
LDA acc+1
STA lomem+1
JMP clr
Lefab: JMP Leecb
NOP
NOP
NOP
NOP
Lefb3: JSR Sefc9
; token $26 - "," for string input
; token $52 - "INPUT" statement for string
string_input: JSR input_str
JMP Lefbf
; token $53 - "INPUT" with literal string prompt
input_prompt: JSR print_str
Lefbf: LDA #$FF
STA text_index
LDA #$74
STA buffer
RTS
Sefc9: JSR not_op
INX
Sefcd: JSR not_op
LDA noun_stk_l,X
RTS
; memory initialization for 4K RAM
mem_init_4k: LDA #$00
STA lomem
STA himem
LDA #$08
STA lomem+1 ; LOMEM defaults to $0800
LDA #$10
STA himem+1 ; HIMEM defaults to $1000
JMP new_cmd
Sefe4: CMP noun_stk_h_str,X
BNE Lefe9
CLC
Lefe9: JMP Le102
Tefec: JSR clr
JMP run_warm
Teff2: JSR clr
JMP goto_stmt
Seff8: CPX #$80
BNE Leffd
DEY
Leffd: JMP Se00c