Address (hex, dec) | Description
|
---|
$0000-$00FF, 0-255 Zero page
|
$0000 0 |
Processor port data direction register. Bits:
Default: $2F, %00101111.
|
$0001 1 | Processor port. Bits:
Bits #0-#2: Configuration for memory areas
$A000-$BFFF, $D000-$DFFF and $E000-$FFFF. Values:
%x00: RAM visible in all three areas.
%x01: RAM visible at $A000-$BFFF and
$E000-$FFFF.
%x10: RAM visible at $A000-$BFFF; KERNAL ROM
visible at $E000-$FFFF.
%x11: BASIC ROM visible at $A000-$BFFF; KERNAL ROM
visible at $E000-$FFFF.
%0xx: Character ROM visible at $D000-$DFFF. (Except
for the value %000, see above.)
%1xx: I/O area visible at $D000-$DFFF. (Except for
the value %100, see above.)
Bit #3: Datasette output signal level.
Bit #4: Datasette button status; 0 = One or more of
PLAY, RECORD, F.FWD or REW pressed; 1 = No button is pressed.
Bit #5: Datasette motor control; 0 = On; 1 = Off.
Default: $37, %00110111.
|
$0002 2 | Unused.
|
$0003-$0004 3-4 | Unused.
Default: $B1AA, execution address of routine converting floating point to
integer.
|
$0005-$0006 5-6 | Unused.
Default: $B391, execution address of routine converting integer to floating
point.
|
$0007 7 | Byte being search for during various
operations.
Current digit of number being input.
Low byte of first integer operand during AND and OR.
Low byte of integer-format FAC during INT().
|
$0008 8 | Byte being search for during various
operations.
Current byte of BASIC line during tokenization.
High byte of first integer operand during AND and OR.
|
$0009 9 | Current column number during SPC()
and TAB().
|
$000A 10 | LOAD/VERIFY switch. Values:
$00: LOAD.
$01-$FF: VERIFY.
|
$000B 11 | Current token during
tokenization.
Length of BASIC line during insertion of line.
AND/OR switch; $00 = AND; $FF = OR.
Number of dimensions during array operations.
|
$000C 12 | Switch for array operations.
Values:
|
$000D 13 | Current expression type. Values:
$00: Numerical.
$FF: String.
|
$000E 14 | Current numerical expression type.
Bits:
|
$000F 15 | Quotation mode switch during
tokenization; Bit #6: 0 = Normal mode; 1 = Quotation mode.
Quotation mode switch during LIST; $01 = Normal mode; $FE = Quotation
mode.
Garbage collection indicator during memory allocation for string variable;
$00-$7F = There was no garbage collection yet; $80 = Garbage collection
already took place.
|
$0010 16 | Switch during fetch of variable
name. Values:
|
$0011 17 | GET/INPUT/READ switch. Values:
$00: INPUT.
$40: GET.
$98: READ.
|
$0012 18 | Sign during SIN() and TAN().
Values:
$00: Positive.
$FF: Negative.
|
$0013 19 | Current I/O device number.
Default: $00, keyboard for input and screen for output.
|
$0014-$0015 20-21 | Line number during GOSUB,
GOTO and RUN.
Second line number during LIST.
Memory address during PEEK, POKE, SYS and WAIT.
|
$0016 22 | Pointer to next expression in string
stack. Values: $19; $1C; $1F; $22.
Default: $19.
|
$0017-$0018 23-24 | Pointer to previous
expression in string stack.
|
$0019-$0021 25-33 | String stack, temporary
area for processing string expressions (9 bytes, 3 entries).
|
$0022-$0025 34-37 | Temporary area for various
operations (4 bytes).
|
$0026-$0029 38-41 | Auxiliary arithmetical
register for division and multiplication (4 bytes).
|
$002A 42 | Unused.
|
$002B-$002C 43-44 | Pointer to beginning of
BASIC area.
Default: $0801, 2049.
|
$002D-$002E 45-46 | Pointer to beginning of
variable area. (End of program plus 1.)
|
$002F-$0030 47-48 | Pointer to beginning of
array variable area.
|
$0031-$0032 49-50 | Pointer to end of array
variable area.
|
$0033-$0034 51-52 | Pointer to beginning of
string variable area. (Grows downwards from end of BASIC area.)
|
$0035-$0036 53-54 | Pointer to memory allocated
for current string variable.
|
$0037-$0038 55-56 | Pointer to end of BASIC
area.
Default: $A000, 40960.
|
$0039-$003A 57-58 | Current BASIC line number.
Values:
$0000-$F9FF, 0-63999: Line number.
$FF00-$FFFF: Direct mode, no BASIC program is being
executed.
|
$003B-$003C 59-60 | Current BASIC line number
for CONT.
|
$003D-$003E 61-62 | Pointer to next BASIC
instruction for CONT. Values:
|
$003F-$0040 63-64 | BASIC line number of
current DATA item for READ.
|
$0041-$0042 65-66 | Pointer to next DATA item
for READ.
|
$0043-$0044 67-68 | Pointer to input result
during GET, INPUT and READ.
|
$0045-$0046 69-70 | Name and type of current
variable. Bits:
$0045 bits #0-#6: First character of variable
name.
$0046 bits #0-#6: Second character of variable name;
$00 = Variable name consists of only one character.
$0045 bit #7 and $0046 bit #7:
|
$0047-$0048 71-72 | Pointer to value of current
variable or FN function.
|
$0049-$004A 73-74 | Pointer to value of current
variable during LET.
Value of second and third parameter during WAIT.
Logical number and device number during OPEN.
$0049, 73: Logical number of CLOSE.
Device number of LOAD, SAVE and VERIFY.
|
$004B-$004C 75-76 | Temporary area for saving
original pointer to current BASIC instruction during GET, INPUT and
READ.
|
$004D 77 | Comparison operator indicator.
Bits:
Bit #1: 1 = ">" (greater than) is present in
expression.
Bit #2: 1 = "=" (equal to) is present in
expression.
Bit #3: 1 = "<" (less than) is present in
expression.
|
$004E-$004F 78-79 | Pointer to current FN
function.
|
$0050-$0051 80-81 | Pointer to current string
variable during memory allocation.
|
$0052 82 | Unused.
|
$0053 83 | Step size of garbage collection.
Values: $03; $07.
|
$0054-$0056 84-86 | JMP ABS machine
instruction, jump to current BASIC function.
$0055-$0056, 85-86: Execution address of current BASIC function.
|
$0057-$005B 87-91 | Arithmetic register #3 (5
bytes).
|
$005C-$0060 92-96 | Arithmetic register #4 (5
bytes).
|
$0061-$0065 97-101 | FAC, arithmetic register
#1 (5 bytes).
|
$0066 102 | Sign of FAC. Bits:
|
$0067 103 | Number of degrees during polynomial
evaluation.
|
$0068 104 | Temporary area for various
operations.
|
$0069-$006D 105-109 | ARG, arithmetic register
#2 (5 bytes).
|
$006E 110 | Sign of ARG. Bits:
|
$006F-$0070 111-112 | Pointer to first string
expression during string comparison.
|
$0071-$0072 113-114 | Auxiliary pointer during
array operations.
Temporary area for saving original pointer to current BASIC instruction
during VAL().
Pointer to current item of polynomial table during polynomial
evaluation.
|
$0073-$008A 115-138 | CHRGET. Machine code
routine to read next byte from BASIC program or direct command (24
bytes).
$0079, 121: CHRGOT. Read current byte from BASIC program or direct
command.
$007A-$007B, 122-123: Pointer to current byte in BASIC program or direct
command.
|
$008B-$008F 139-143 | Previous result of
RND().
|
$0090 144 | Value of ST variable, device status
for serial bus and datasette input/output. Serial bus bits:
Bit #0: Transfer direction during which the timeout
occured; 0 = Input; 1 = Output.
Bit #1: 1 = Timeout occurred.
Bit #4: 1 = VERIFY error occurred (only during
VERIFY), the file read from the device did not match that in the
memory.
Bit #6: 1 = End of file has been reached.
Bit #7: 1 = Device is not present.
Datasette bits:
Bit #2: 1 = Block is too short (shorter than 192
bytes).
Bit #3: 1 = Block is too long (longer than 192
bytes).
Bit #4: 1 = Not all bytes read with error during pass
1 could be corrected during pass 2, or a VERIFY error occurred, the file
read from the device did not match that in the memory.
Bit #5: 1 = Checksum error occurred.
Bit #6: 1 = End of file has been reached (only during
reading data files).
|
$0091 145 | Stop key indicator. Values:
|
$0092 146 | Unknown. (Timing constant during
datasette input.)
|
$0093 147 | LOAD/VERIFY switch. Values:
$00: LOAD.
$01-$FF: VERIFY.
|
$0094 148 | Serial bus output cache status.
Bits:
|
$0095 149 | Serial bus output cache, previous
byte to be sent to serial bus.
|
$0096 150 | Unknown. (End of tape indicator
during datasette input/output.)
|
$0097 151 | Temporary area for saving original
value of Y register during input from RS232.
Temporary area for saving original value of X register during input from
datasette.
|
$0098 152 | Number of files currently open.
Values: $00-$0A, 0-10.
|
$0099 153 | Current input device number.
Default: $00, keyboard.
|
$009A 154 | Current output device number.
Default: $03, screen.
|
$009B 155 | Unknown. (Parity bit during
datasette input/output.)
|
$009C 156 | Unknown. (Byte ready indicator
during datasette input/output.)
|
$009D 157 | System error display switch.
Bits:
|
$009E 158 | Byte to be put into output buffer
during RS232 and datasette output.
Block header type during datasette input/output.
Length of file name during datasette input/output.
Error counter during LOAD from datasette. Values: $00-$3E, 0-62.
|
$009F 159 | Auxiliary counter for writing file
name into datasette buffer.
Auxiliary counter for comparing requested file name with file name read from
datasette during datasette input.
Error correction counter during LOAD from datasette. Values: $00-$3E,
0-62.
|
$00A0-$00A2 160-162 | Value of TI variable,
time of day, increased by 1 every 1/60 second (on PAL machines). Values:
$000000-$4F19FF, 0-518399 (on PAL machines).
|
$00A3 163 | EOI switch during serial bus
output. Bits:
Bit counter during datasette output.
|
$00A4 164 | Byte buffer during serial bus
input.
Parity during datasette input/output.
|
$00A5 165 | Bit counter during serial bus
input/output.
Counter for sync mark during datasette output.
|
$00A6 166 | Offset of current byte in datasette
buffer.
|
$00A7 167 | Bit buffer during RS232 input.
|
$00A8 168 | Bit counter during RS232 input.
|
$00A9 169 | Stop bit switch during RS232 input.
Values:
$00: Data bit.
$01-$FF: Stop bit.
|
$00AA 170 | Byte buffer during RS232 input.
|
$00AB 171 | Parity during RS232 input.
Computed block checksum during datasette input.
|
$00AC-$00AD 172-173 | Start address for SAVE to
serial bus.
Pointer to current byte during SAVE to serial bus or datasette.
Pointer to line in screen memory to be scrolled during scrolling the
screen.
|
$00AE-$00AF 174-175 | Load address read from
input file and pointer to current byte during LOAD/VERIFY from serial
bus.
End address after LOAD/VERIFY from serial bus or datasette.
End address for SAVE to serial bus or datasette.
Pointer to line in Color RAM to be scrolled during scrolling the screen.
|
$00B0-$00B1 176-177 | Unknown.
|
$00B2-$00B3 178-179 | Pointer to datasette
buffer.
Default: $033C, 828.
|
$00B4 180 | Bit counter and stop bit switch
during RS232 output. Bits:
Bit counter during datasette input/output.
|
$00B5 181 | Bit buffer (in bit #2) during RS232
output.
|
$00B6 182 | Byte buffer during RS232
output.
|
$00B7 183 | Length of file name or disk
command; first parameter of LOAD, SAVE and VERIFY or fourth parameter of
OPEN. Values:
|
$00B8 184 | Logical number of current file.
|
$00B9 185 | Secondary address of current
file.
|
$00BA 186 | Device number of current file.
|
$00BB-$00BC 187-188 | Pointer to current file
name or disk command; first parameter of LOAD, SAVE and VERIFY or fourth
parameter of OPEN.
|
$00BD 189 | Parity during RS232 output.
Byte buffer during datasette input/output.
|
$00BE 190 | Block counter during datasette
input/output.
|
$00BF 191 | Unknown.
|
$00C0 192 | Datasette motor switch. Values:
|
$00C1-$00C2 193-194 | Start address during SAVE
to serial bus, LOAD and VERIFY from datasette and SAVE to datasette.
Pointer to current byte during memory test.
|
$00C3-$00C4 195-196 | Start address for a
secondary address of 0 for LOAD and VERIFY from serial bus or datasette.
Pointer to ROM table of default vectors during initialization of I/O
vectors.
|
$00C5 197 | Matrix code of key previously
pressed. Values:
|
$00C6 198 | Length of keyboard buffer.
Values:
|
$00C7 199 | Reverse mode switch. Values:
$00: Normal mode.
$12: Reverse mode.
|
$00C8 200 | Length of line minus 1 during
screen input. Values: $27, 39; $4F, 79.
|
$00C9 201 | Cursor row during screen input.
Values: $00-$18, 0-24.
|
$00CA 202 | Cursor column during screen input.
Values: $00-$27, 0-39.
|
$00CB 203 | Matrix code of key currently being
pressed. Values:
|
$00CC 204 | Cursor visibility switch.
Values:
$00: Cursor is on.
$01-$FF: Cursor is off.
|
$00CD 205 | Delay counter for changing cursor
phase. Values:
|
$00CE 206 | Screen code of character under
cursor.
|
$00CF 207 | Cursor phase switch. Values:
$00: Cursor off phase, original character
visible.
$01: Cursor on phase, reverse character visible.
|
$00D0 208 | End of line switch during screen
input. Values:
|
$00D1-$00D2 209-210 | Pointer to current line
in screen memory.
|
$00D3 211 | Current cursor column. Values:
$00-$27, 0-39.
|
$00D4 212 | Quotation mode switch. Values:
$00: Normal mode.
$01: Quotation mode.
|
$00D5 213 | Length of current screen line minus
1. Values: $27, 39; $4F, 79.
|
$00D6 214 | Current cursor row. Values:
$00-$18, 0-24.
|
$00D7 215 | PETSCII code of character during
screen input/output.
Bit buffer during datasette input.
Block checksum during datasette output.
|
$00D8 216 | Number of insertions. Values:
$00: No insertions made, normal mode, control codes
change screen layout or behavior.
$01-$FF: Number of insertions, when inputting this
many character next, those must be turned into control codes, similarly to
quotation mode.
|
$00D9-$00F1 217-241 | High byte of pointers to
each line in screen memory (25 bytes). Values:
|
$00F2 242 | Temporary area during scrolling the
screen.
|
$00F3-$00F4 243-244 | Pointer to current line
in Color RAM.
|
$00F5-$00F6 245-246 | Pointer to current
conversion table during conversion from keyboard matrix codes to PETSCII
codes.
|
$00F7-$00F8 247-248 | Pointer to RS232 input
buffer. Values:
$0000-$00FF: No buffer defined, a new buffer must be
allocated upon RS232 input.
$0100-$FFFF: Buffer pointer.
|
$00F9-$00FA 249-250 | Pointer to RS232 output
buffer. Values:
$0000-$00FF: No buffer defined, a new buffer must be
allocated upon RS232 output.
$0100-$FFFF: Buffer pointer.
|
$00FB-$00FE 251-254 | Unused (4 bytes).
|
$00FF-$010A 255-266 | Buffer for conversion
from floating point to string (12 bytes.)
|
$0100-$01FF, 256-511 Processor
stack
|
$00FF-$010A 255-266 | Buffer for conversion
from floating point to string (12 bytes.)
|
$0100-$013D 256-317 | Pointers to bytes read
with error during datasette input (62 bytes, 31 entries).
|
$0100-$01FF 256-511 | Processor stack. Also
used for storing data related to FOR and GOSUB.
|
$0200-$02FF, 512-767
|
$0200-$0258 512-600 | Input buffer, storage
area for data read from screen (89 bytes).
|
$0259-$0262 601-610 | Logical numbers assigned
to files (10 bytes, 10 entries).
|
$0263-$026C 611-620 | Device numbers assigned
to files (10 bytes, 10 entries).
|
$026D-$0276 621-630 | Secondary addresses
assigned to files (10 bytes, 10 entries).
|
$0277-$0280 631-640 | Keyboard buffer (10
bytes, 10 entries).
|
$0281-$0282 641-642 | Pointer to beginning of
BASIC area after memory test.
Default: $0800, 2048.
|
$0283-$0284 643-644 | Pointer to end of BASIC
area after memory test.
Default: $A000, 40960.
|
$0285 645 | Unused. (Serial bus timeout.)
|
$0286 646 | Current color, cursor color.
Values: $00-$0F, 0-15.
|
$0287 647 | Color of character under cursor.
Values: $00-$0F, 0-15.
|
$0288 648 | High byte of pointer to screen
memory for screen input/output.
Default: $04, $0400, 1024.
|
$0289 649 | Maximum length of keyboard buffer.
Values:
|
$028A 650 | Keyboard repeat switch. Bits:
|
$028B 651 | Delay counter during repeat
sequence, for delaying between successive repeats. Values:
|
$028C 652 | Repeat sequence delay counter, for
delaying before first repetition. Values:
$00, 0: Must start repeat sequence.
$01-$10, 1-16: Delay repeat sequence.
|
$028D 653 | Shift key indicator. Bits:
Bit #0: 1 = One or more of left Shift, right Shift or
Shift Lock is currently being pressed or locked.
Bit #1: 1 = Commodore is currently being pressed.
Bit #2: 1 = Control is currently being pressed.
|
$028E 654 | Previous value of shift key
indicator. Bits:
Bit #0: 1 = One or more of left Shift, right Shift or
Shift Lock was pressed or locked at the time of previous check.
Bit #1: 1 = Commodore was pressed at the time of
previous check.
Bit #2: 1 = Control was pressed at the time of
previous check.
|
$028F-$0290 655-656 | Execution address of
routine that, based on the status of shift keys, sets the pointer at memory
address $00F5-$00F6 to the appropriate conversion table for converting
keyboard matrix codes to PETSCII codes.
Default: $EB48.
|
$0291 657 | Commodore-Shift switch. Bits:
|
$0292 658 | Scroll direction switch during
scrolling the screen. Values:
$00: Insertion of line before current line, current
line and all lines below it must be scrolled 1 line downwards.
$01-$FF: Bottom of screen reached, complete screen
must be scrolled 1 line upwards.
|
$0293 659 | RS232 control register. Bits:
Bits #0-#3: Baud rate, transfer speed. Values:
%0000: User specified.
%0001: 50 bit/s.
%0010: 75 bit/s.
%0011: 110 bit/s.
%0100: 150 bit/s.
%0101: 300 bit/s.
%0110: 600 bit/s.
%0111: 1200 bit/s.
%1000: 2400 bit/s.
%1001: 1800 bit/s.
%1010: 2400 bit/s.
%1011: 3600 bit/s.
%1100: 4800 bit/s.
%1101: 7200 bit/s.
%1110: 9600 bit/s.
%1111: 19200 bit/s.
Bits #5-#6: Byte size, number of data bits per byte;
%00 = 8; %01 = 7, %10 = 6; %11 = 5.
Bit #7: Number of stop bits; 0 = 1 stop bit; 1 = 2
stop bits.
|
$0294 660 | RS232 command register. Bits:
Bit #0: Synchronization type; 0 = 3 lines; 1 = X
lines.
Bit #4: Transmission type; 0 = Duplex; 1 = Half
duplex.
Bits #5-#7: Parity mode. Values:
%xx0: No parity check, bit #7 does not exist.
%001: Odd parity.
%011: Even parity.
%101: No parity check, bit #7 is always 1.
%111: No parity check, bit #7 is always 0.
|
$0295-$0296 661-662 | Default value of RS232
output timer, based on baud rate. (Must be filled with actual value before
RS232 input/output if baud rate is "user specified" in RS232 control
register, memory address $0293.)
|
$0297 663 | Value of ST variable, device status
for RS232 input/output. Bits:
Bit #0: 1 = Parity error occurred.
Bit #1: 1 = Frame error, a stop bit with the value of
0, occurred.
Bit #2: 1 = Input buffer underflow occurred, too much
data has arrived but it has not been read from the buffer in time.
Bit #3: 1 = Input buffer is empty, nothing to
read.
Bit #4: 0 = Sender is Clear To Send; 1 = Sender is
not ready to send data to receiver.
Bit #6: 0 = Receiver reports Data Set Ready; 1 =
Receiver is not ready to receive data.
Bit #7: 1 = Carrier loss, a stop bit and a data byte
both with the value of 0, detected.
|
$0298 664 | RS232 byte size, number of data
bits per data byte, default value for bit counters.
|
$0299-$029A 665-666 | Default value of RS232
input timer, based on baud rate. (Calculated automatically from default
value of RS232 output timer, at memory address $0295-$0296.)
|
$029B 667 | Offset of byte received in RS232
input buffer.
|
$029C 668 | Offset of current byte in RS232
input buffer.
|
$029D 669 | Offset of byte to send in RS232
output buffer.
|
$029E 670 | Offset of current byte in RS232
output buffer.
|
$029F-$02A0 671-672 | Temporary area for saving
pointer to original interrupt service routine during datasette input output.
Values:
$0000-$00FF: No datasette input/output took place yet
or original pointer has been already restored.
$0100-$FFFF: Original pointer, datasette input/output
currently in progress.
|
$02A1 673 | Temporary area for saving original
value of CIA#2 interrupt control register, at memory address $DD0D, during
RS232 input/output.
|
$02A2 674 | Temporary area for saving original
value of CIA#1 timer #1 control register, at memory address $DC0E, during
datasette input/output.
|
$02A3 675 | Temporary area for saving original
value of CIA#1 interrupt control register, at memory address $DC0D, during
datasette input/output.
|
$02A4 676 | Temporary area for saving original
value of CIA#1 timer #1 control register, at memory address $DC0E, during
datasette input/output.
|
$02A5 677 | Number of line currently being
scrolled during scrolling the screen.
|
$02A6 678 | PAL/NTSC switch, for selecting
RS232 baud rate from the proper table. Values:
|
$02A7-$02FF 679-767 | Unused (89 bytes).
|
$0300-$03FF, 768-1023
|
$0300-$0301 768-769 | Execution address of warm
reset, displaying optional BASIC error message and entering BASIC idle
loop.
Default: $E38B.
|
$0302-$0303 770-771 | Execution address of
BASIC idle loop.
Default: $A483.
|
$0304-$0305 772-773 | Execution address of
BASIC line tokenizater routine.
Default: $A57C.
|
$0306-$0307 774-775 | Execution address of
BASIC token decoder routine.
Default: $A71A.
|
$0308-$0309 776-777 | Execution address of
BASIC instruction executor routine.
Default: $A7E4.
|
$030A-$030B 778-779 | Execution address of
routine reading next item of BASIC expression.
Default: $AE86.
|
$030C 780 | Default value of register A for
SYS.
Value of register A after SYS.
|
$030D 781 | Default value of register X for
SYS.
Value of register X after SYS.
|
$030E 782 | Default value of register Y for
SYS.
Value of register Y after SYS.
|
$030F 783 | Default value of status register
for SYS.
Value of status register after SYS.
|
$0310-$0312 784-786 | JMP ABS machine
instruction, jump to USR() function.
$0311-$0312, 785-786: Execution address of USR() function.
|
$0313 787 | Unused.
|
$0314-$0315 788-789 | Execution address of
interrupt service routine.
Default: $EA31.
|
$0316-$0317 790-791 | Execution address of BRK
service routine.
Default: $FE66.
|
$0318-$0319 792-793 | Execution address of
non-maskable interrupt service routine.
Default: $FE47.
|
$031A-$031B 794-795 | Execution address of
OPEN, routine opening files.
Default: $F34A.
|
$031C-$031D 796-797 | Execution address of
CLOSE, routine closing files.
Default: $F291.
|
$031E-$031F 798-799 | Execution address of
CHKIN, routine defining file as default input.
Default: $F20E.
|
$0320-$0321 800-801 | Execution address of
CHKOUT, routine defining file as default output.
Default: $F250.
|
$0322-$0323 802-803 | Execution address of
CLRCHN, routine initializating input/output.
Default: $F333.
|
$0324-$0325 804-805 | Execution address of
CHRIN, data input routine, except for keyboard and RS232 input.
Default: $F157.
|
$0326-$0327 806-807 | Execution address of
CHROUT, general purpose data output routine.
Default: $F1CA.
|
$0328-$0329 808-809 | Execution address of
STOP, routine checking the status of Stop key indicator, at memory address
$0091.
Default: $F6ED.
|
$032A-$032B 810-811 | Execution address of
GETIN, general purpose data input routine.
Default: $F13E.
|
$032C-$032D 812-813 | Execution address of
CLALL, routine initializing input/output and clearing all file assignment
tables.
Default: $F32F.
|
$032E-$032F 814-815 | Unused.
Default: $FE66.
|
$0330-$0331 816-817 | Execution address of
LOAD, routine loading files.
Default: $F4A5.
|
$0332-$0333 818-819 | Execution address of
SAVE, routine saving files.
Default: $F5ED.
|
$0334-$033B 820-827 | Unused (8 bytes).
|
$033C-$03FB 828-1019 | Datasette buffer (192
bytes).
|
$03FC-$03FF 1020-1023 | Unused (4 bytes).
|
$0400-$07FF, 1024-2047 Default screen
memory
|
$0400-$07E7 1024-2023 | Default area of screen
memory (1000 bytes).
|
$07E8-$07F7 2024-2039 | Unused (16 bytes).
|
$07F8-$07FF 2040-2047 | Default area for sprite
pointers (8 bytes).
|
$0800-$9FFF, 2048-40959 BASIC area
|
$0800 2048 | Unused. (Must contain a value of 0
so that the BASIC program can be RUN.)
|
$0801-$9FFF 2049-40959 | Default BASIC area
(38911 bytes).
|
$8000-$9FFF 32768-40959 | Optional cartridge
ROM (8192 bytes).
$8000-$8001, 32768-32769: Execution address of cold reset.
$8002-$8003, 32770-32771: Execution address of non-maskable interrupt
service routine.
$8004-$8008, 32772-32776: Cartridge signature. If contains the uppercase
PETSCII string "CBM80" ($C3,$C2,$CD,$38,$30) then the routine vectors are
accepted by the KERNAL.
|
$A000-$BFFF, 40960-49151 BASIC ROM
|
$A000-$BFFF 40960-49151 | BASIC ROM or RAM area
(8192 bytes); depends on the value of bits #0-#2 of the processor port at
memory address $0001:
|
$C000-$CFFF, 49152-53247 Upper RAM
area
|
$C000-$CFFF 49152-53247 | Upper RAM area (4096
bytes).
|
$D000-$DFFF, 53248-57343 I/O Area
|
$D000-$DFFF 53248-57343 | I/O Area (memory
mapped chip registers), Character ROM or RAM area (4096 bytes); depends on
the value of bits #0-#2 of the processor port at memory address $0001:
%x00: RAM area.
%0xx: Character ROM. (Except for the value %000, see
above.)
%1xx: I/O Area. (Except for the value %100, see
above.)
|
$D000-$DFFF, 53248-57343 Character
ROM
|
$D000-$DFFF 53248-57343 | Character ROM, shape
of characters (4096 bytes).
|
$D000-$D7FF 53248-55295 | Shape of characters
in uppercase/graphics character set (2048 bytes, 256 entries).
|
$D800-$DFFF 55295-57343 | Shape of characters
in lowercase/uppercase character set (2048 bytes, 256 entries).
|
$D000-$D3FF, 53248-54271 VIC-II; video
display
|
$D000 53248 | Sprite #0 X-coordinate (only bits
#0-#7).
|
$D001 53249 | Sprite #0 Y-coordinate.
|
$D002 53250 | Sprite #1 X-coordinate (only bits
#0-#7).
|
$D003 53251 | Sprite #1 Y-coordinate.
|
$D004 53252 | Sprite #2 X-coordinate (only bits
#0-#7).
|
$D005 53253 | Sprite #2 Y-coordinate.
|
$D006 53254 | Sprite #3 X-coordinate (only bits
#0-#7).
|
$D007 53255 | Sprite #3 Y-coordinate.
|
$D008 53256 | Sprite #4 X-coordinate (only bits
#0-#7).
|
$D009 53257 | Sprite #4 Y-coordinate.
|
$D00A 53258 | Sprite #5 X-coordinate (only bits
#0-#7).
|
$D00B 53259 | Sprite #5 Y-coordinate.
|
$D00C 53260 | Sprite #6 X-coordinate (only bits
#0-#7).
|
$D00D 53261 | Sprite #6 Y-coordinate.
|
$D00E 53262 | Sprite #7 X-coordinate (only bits
#0-#7).
|
$D00F 53263 | Sprite #7 Y-coordinate.
|
$D010 53264 | Sprite #0-#7 X-coordinates (bit
#8). Bits:
|
$D011 53265 | Screen control register #1.
Bits:
Bits #0-#2: Vertical raster scroll.
Bit #3: Screen height; 0 = 24 rows; 1 = 25 rows.
Bit #4: 0 = Screen off, complete screen is covered by
border; 1 = Screen on, normal screen contents are visible.
Bit #5: 0 = Text mode; 1 = Bitmap mode.
Bit #6: 1 = Extended background mode on.
Bit #7: Read: Current raster line (bit #8).
Write: Raster line to generate interrupt at (bit #8).
Default: $1B, %00011011.
|
$D012 53266 | Read: Current raster line (bits
#0-#7).
Write: Raster line to generate interrupt at (bits #0-#7).
|
$D013 53267 | Light pen X-coordinate (bits
#1-#8).
Read-only.
|
$D014 53268 | Light pen Y-coordinate.
Read-only.
|
$D015 53269 | Sprite enable register. Bits:
|
$D016 53270 | Screen control register #2.
Bits:
Bits #0-#2: Horizontal raster scroll.
Bit #3: Screen width; 0 = 38 columns; 1 = 40
columns.
Bit #4: 1 = Multicolor mode on.
Default: $C8, %11001000.
|
$D017 53271 | Sprite double height register.
Bits:
|
$D018 53272 | Memory setup register. Bits:
Bits #1-#3: In text mode, pointer to character memory
(bits #11-#13), relative to VIC bank, memory address $DD00. Values:
%000, 0: $0000-$07FF, 0-2047.
%001, 1: $0800-$0FFF, 2048-4095.
%010, 2: $1000-$17FF, 4096-6143.
%011, 3: $1800-$1FFF, 6144-8191.
%100, 4: $2000-$27FF, 8192-10239.
%101, 5: $2800-$2FFF, 10240-12287.
%110, 6: $3000-$37FF, 12288-14335.
%111, 7: $3800-$3FFF, 14336-16383.
Values %010 and %011 in VIC bank #0 and #2 select
Character ROM instead.
In bitmap mode, pointer to bitmap memory (bit #13), relative to VIC bank,
memory address $DD00. Values:
%0xx, 0: $0000-$1FFF, 0-8191.
%1xx, 4: $2000-$3FFF, 8192-16383.
Bits #4-#7: Pointer to screen memory (bits #10-#13),
relative to VIC bank, memory address $DD00. Values:
%0000, 0: $0000-$03FF, 0-1023.
%0001, 1: $0400-$07FF, 1024-2047.
%0010, 2: $0800-$0BFF, 2048-3071.
%0011, 3: $0C00-$0FFF, 3072-4095.
%0100, 4: $1000-$13FF, 4096-5119.
%0101, 5: $1400-$17FF, 5120-6143.
%0110, 6: $1800-$1BFF, 6144-7167.
%0111, 7: $1C00-$1FFF, 7168-8191.
%1000, 8: $2000-$23FF, 8192-9215.
%1001, 9: $2400-$27FF, 9216-10239.
%1010, 10: $2800-$2BFF, 10240-11263.
%1011, 11: $2C00-$2FFF, 11264-12287.
%1100, 12: $3000-$33FF, 12288-13311.
%1101, 13: $3400-$37FF, 13312-14335.
%1110, 14: $3800-$3BFF, 14336-15359.
%1111, 15: $3C00-$3FFF, 15360-16383.
|
$D019 53273 | Interrupt status register. Read
bits:
Bit #0: 1 = Current raster line is equal to the
raster line to generate interrupt at.
Bit #1: 1 = Sprite-background collision occurred.
Bit #2: 1 = Sprite-sprite collision occurred.
Bit #3: 1 = Light pen signal arrived.
Bit #7: 1 = An event (or more events), that may generate an
interrupt, occurred and it has not been (not all of them have been) acknowledged
yet.
Write bits:
Bit #0: 1 = Acknowledge raster interrupt.
Bit #1: 1 = Acknowledge sprite-background collision
interrupt.
Bit #2: 1 = Acknowledge sprite-sprite collision
interrupt.
Bit #3: 1 = Acknowledge light pen interrupt.
|
$D01A 53274 | Interrupt control register.
Bits:
Bit #0: 1 = Raster interrupt enabled.
Bit #1: 1 = Sprite-background collision interrupt
enabled.
Bit #2: 1 = Sprite-sprite collision interrupt
enabled.
Bit #3: 1 = Light pen interrupt enabled.
|
$D01B 53275 | Sprite priority register.
Bits:
|
$D01C 53276 | Sprite multicolor mode register.
Bits:
|
$D01D 53277 | Sprite double width register.
Bits:
|
$D01E 53278 | Sprite-sprite collision register.
Read bits:
Write: Enable further detection of sprite-sprite
collisions.
|
$D01F 53279 | Sprite-background collision
register. Read bits:
Write: Enable further detection of sprite-background
collisions.
|
$D020 53280 | Border color (only bits
#0-#3).
|
$D021 53281 | Background color (only bits
#0-#3).
|
$D022 53282 | Extra background color #1 (only
bits #0-#3).
|
$D023 53283 | Extra background color #2 (only
bits #0-#3).
|
$D024 53284 | Extra background color #3 (only
bits #0-#3).
|
$D025 53285 | Sprite extra color #1 (only bits
#0-#3).
|
$D026 53286 | Sprite extra color #1 (only bits
#0-#3).
|
$D027 53287 | Sprite #0 color (only bits
#0-#3).
|
$D028 53288 | Sprite #1 color (only bits
#0-#3).
|
$D029 53289 | Sprite #2 color (only bits
#0-#3).
|
$D02A 53290 | Sprite #3 color (only bits
#0-#3).
|
$D02B 53291 | Sprite #4 color (only bits
#0-#3).
|
$D02C 53292 | Sprite #5 color (only bits
#0-#3).
|
$D02D 53293 | Sprite #6 color (only bits
#0-#3).
|
$D02E 53294 | Sprite #7 color (only bits
#0-#3).
|
$D02F-$D03F 53295-53311 | Unusable (17
bytes).
|
$D040-$D3FF 53312-54271 | VIC-II register
images (repeated every $40, 64 bytes).
|
$D400-$D7FF, 54272-55295 SID; audio
|
$D400-$D401 54272-54273 | Voice #1
frequency.
Write-only.
|
$D402-$D403 54274-54275 | Voice #1 pulse
width.
Write-only.
|
$D404 54276 | Voice #1 control register.
Bits:
Bit #0: 0 = Voice off, Release cycle; 1 = Voice on,
Attack-Decay-Sustain cycle.
Bit #1: 1 = Synchronization enabled.
Bit #2: 1 = Ring modulation enabled.
Bit #3: 1 = Disable voice, reset noise generator.
Bit #4: 1 = Triangle waveform enabled.
Bit #5: 1 = Saw waveform enabled.
Bit #6: 1 = Rectangle waveform enabled.
Bit #7: 1 = Noise enabled.
Write-only.
|
$D405 54277 | Voice #1 Attack and Decay length.
Bits:
Write-only.
|
$D406 54278 | Voice #1 Sustain volume and
Release length. Bits:
Write-only.
|
$D407-$D408 54279-54280 | Voice #2
frequency. Write-only.
|
$D409-$D40A 54281-54282 | Voice #2 pulse
width. Write-only.
|
$D40B 54283 | Voice #2 control register.
Write-only.
|
$D40C 54284 | Voice #2 Attack and Decay
length.
Write-only.
|
$D40D 54285 | Voice #2 Sustain volume and
Release length.
Write-only.
|
$D40E-$D40F 54286-54287 | Voice #3
frequency.
Write-only.
|
$D410-$D411 54288-54289 | Voice #3 pulse
width.
Write-only.
|
$D412 54290 | Voice #3 control register.
Write-only.
|
$D413 54291 | Voice #3 Attack and Decay
length.
Write-only.
|
$D414 54292 | Voice #3 Sustain volume and
Release length.
Write-only.
|
$D415 54293 | Filter cut off frequency (bits
#0-#2).
Write-only.
|
$D416 54294 | Filter cut off frequency (bits
#3-#10).
Write-only.
|
$D417 54295 | Filter control. Bits:
Bit #0: 1 = Voice #1 filtered.
Bit #1: 1 = Voice #2 filtered.
Bit #2: 1 = Voice #3 filtered.
Bit #3: 1 = External voice filtered.
Bits #4-#7: Filter resonance.
Write-only.
|
$D418 54296 | Volume and filter modes.
Bits:
Bits #0-#3: Volume.
Bit #4: 1 = Low pass filter enabled.
Bit #5: 1 = Band pass filter enabled.
Bit #6: 1 = High pass filter enabled.
Bit #7: 1 = Voice #3 disabled.
Write-only.
|
$D419 54297 | X value of paddle selected at
memory address $DD00. (Updates at every 512 system cycles.)
Read-only.
|
$D41A 54298 | Y value of paddle selected at
memory address $DD00. (Updates at every 512 system cycles.)
Read-only.
|
$D41B 54299 | Voice #3 waveform output.
Read-only.
|
$D41C 54300 | Voice #3 ADSR output.
Read-only.
|
$D41D-$D41F 54301-54303 | Unusable (3
bytes).
|
$D420-$D7FF 54304-55295 | SID register images
(repeated every $20, 32 bytes).
|
$D800-$DBFF, 55296-56319 Color RAM
|
$D800-$DBE7 55296-56295 | Color RAM (1000
bytes, only bits #0-#3).
|
$DBE8-$DBFF 56296-56319 | Unused (24 bytes,
only bits #0-#3).
|
$DC00-$DCFF, 56320-56575 CIA#1; inputs
(keyboard, joystick, mouse), datasette, IRQ control
|
$DC00 56320 | Port A, keyboard matrix columns
and joystick #2. Read bits:
Bit #0: 0 = Port 2 joystick up pressed.
Bit #1: 0 = Port 2 joystick down pressed.
Bit #2: 0 = Port 2 joystick left pressed.
Bit #3: 0 = Port 2 joystick right pressed.
Bit #4: 0 = Port 2 joystick fire pressed.
Write bits:
|
$DC01 56321 | Port B, keyboard matrix rows and
joystick #1. Bits:
Bit #x: 0 = A key is currently being pressed in
keyboard matrix row #x, in the column selected at memory address
$DC00.
Bit #0: 0 = Port 1 joystick up pressed.
Bit #1: 0 = Port 1 joystick down pressed.
Bit #2: 0 = Port 1 joystick left pressed.
Bit #3: 0 = Port 1 joystick right pressed.
Bit #4: 0 = Port 1 joystick fire pressed.
|
$DC02 56322 | Port A data direction
register.
|
$DC03 56323 | Port B data direction
register.
|
$DC04-$DC05 56324-56325 | Timer A. Read:
Current timer value.
Write: Set timer start value.
|
$DC06-$DC07 56326-56327 | Timer B. Read:
Current timer value.
Write: Set timer start value.
|
$DC08 56328 | Time of Day, tenth seconds (in
BCD). Values: $00-$09. Read: Current TOD value.
Write: Set TOD or alarm time.
|
$DC09 56329 | Time of Day, seconds (in BCD).
Values: $00-$59. Read: Current TOD value.
Write: Set TOD or alarm time.
|
$DC0A 56330 | Time of Day, minutes (in BCD).
Values: $00-$59. Read: Current TOD value.
Write: Set TOD or alarm time.
|
$DC0B 56331 | Time of Day, hours (in BCD). Read
bits:
Bits #0-#5: Hours.
Bit #7: 0 = AM; 1 = PM.
Write: Set TOD or alarm time.
|
$DC0C 56332 | Serial shift register. (Bits are
read and written upon every positive edge of the CNT pin.)
|
$DC0D 56333 | Interrupt control and status
register. Read bits:
Bit #0: 1 = Timer A underflow occurred.
Bit #1: 1 = Timer B underflow occurred.
Bit #2: 1 = TOD is equal to alarm time.
Bit #3: 1 = A complete byte has been received into or
sent from serial shift register.
Bit #4: Signal level on FLAG pin, datasette
input.
Bit #7: An interrupt has been generated.
Write bits:
Bit #0: 1 = Enable interrupts generated by timer A
underflow.
Bit #1: 1 = Enable interrupts generated by timer B
underflow.
Bit #2: 1 = Enable TOD alarm interrupt.
Bit #3: 1 = Enable interrupts generated by a byte
having been received/sent via serial shift register.
Bit #4: 1 = Enable interrupts generated by positive
edge on FLAG pin.
Bit #7: Fill bit; bits #0-#6, that are set to 1, get
their values from this bit; bits #0-#6, that are set to 0, are left
unchanged.
|
$DC0E 56334 | Timer A control register.
Bits:
Bit #0: 0 = Stop timer; 1 = Start timer.
Bit #1: 1 = Indicate timer underflow on port B bit
#6.
Bit #2: 0 = Upon timer underflow, invert port B bit
#6; 1 = upon timer underflow, generate a positive edge on port B bit #6
for 1 system cycle.
Bit #3: 0 = Timer restarts upon underflow; 1 = Timer
stops upon underflow.
Bit #4: 1 = Load start value into timer.
Bit #5: 0 = Timer counts system cycles; 1 = Timer
counts positive edges on CNT pin.
Bit #6: Serial shift register direction; 0 = Input,
read; 1 = Output, write.
Bit #7: TOD speed; 0 = 60 Hz; 1 = 50 Hz.
|
$DC0F 56335 | Timer B control register.
Bits:
Bit #0: 0 = Stop timer; 1 = Start timer.
Bit #1: 1 = Indicate timer underflow on port B bit
#7.
Bit #2: 0 = Upon timer underflow, invert port B bit
#7; 1 = upon timer underflow, generate a positive edge on port B bit #7
for 1 system cycle.
Bit #3: 0 = Timer restarts upon underflow; 1 = Timer
stops upon underflow.
Bit #4: 1 = Load start value into timer.
Bits #5-#6: %00 = Timer counts system cycles; %01 =
Timer counts positive edges on CNT pin; %10 = Timer counts underflows of
timer A; %11 = Timer counts underflows of timer A occurring along with a
positive edge on CNT pin.
Bit #7: 0 = Writing into TOD registers sets TOD; 1 =
Writing into TOD registers sets alarm time.
|
$DC10-$DCFF 56336-56575 | CIA#1 register images
(repeated every $10, 16 bytes).
|
$DD00-$DDFF, 56576-56831 CIA#2; serial
bus, RS232, NMI control
|
$DD00 56576 | Port A, serial bus access.
Bits:
Bits #0-#1: VIC bank. Values:
%00, 0: Bank #3, $C000-$FFFF, 49152-65535.
%01, 1: Bank #2, $8000-$BFFF, 32768-49151.
%10, 2: Bank #1, $4000-$7FFF, 16384-32767.
%11, 3: Bank #0, $0000-$3FFF, 0-16383.
Bit #2: RS232 TXD line, output bit.
Bit #3: Serial bus ATN OUT; 0 = High; 1 = Low.
Bit #4: Serial bus CLOCK OUT; 0 = High; 1 = Low.
Bit #5: Serial bus DATA OUT; 0 = High; 1 = Low.
Bit #6: Serial bus CLOCK IN; 0 = Low; 1 = High.
Bit #7: Serial bus DATA IN; 0 = Low; 1 = High.
|
$DD01 56577 | Port B, RS232 access. Read
bits:
Bit #0: RS232 RXD line, input bit.
Bit #3: RS232 RI line.
Bit #4: RS232 DCD line.
Bit #5: User port H pin.
Bit #6: RS232 CTS line; 1 = Sender is ready to
send.
Bit #7: RS232 DSR line; 1 = Receiver is ready to
receive.
Write bits:
|
$DD02 56578 | Port A data direction
register.
|
$DD03 56579 | Port B data direction
register.
|
$DD04-$DD05 56580-56581 | Timer A. Read:
Current timer value.
Write: Set timer start value.
|
$DD06-$DD07 56582-56583 | Timer B. Read:
Current timer value.
Write: Set timer start value.
|
$DD08 56584 | Time of Day, tenth seconds (in
BCD). Values: $00-$09. Read: Current TOD value.
Write: Set TOD or alarm time.
|
$DD09 56585 | Time of Day, seconds (in BCD).
Values: $00-$59. Read: Current TOD value.
Write: Set TOD or alarm time.
|
$DD0A 56586 | Time of Day, minutes (in BCD).
Values: $00-$59. Read: Current TOD value.
Write: Set TOD or alarm time.
|
$DD0B 56587 | Time of Day, hours (in BCD). Read
bits:
Bits #0-#5: Hours.
Bit #7: 0 = AM; 1 = PM.
Write: Set TOD or alarm time.
|
$DD0C 56588 | Serial shift register. (Bits are
read and written upon every positive edge of the CNT pin.)
|
$DD0D 56589 | Interrupt control and status
register. Read bits:
Bit #0: 1 = Timer A underflow occurred.
Bit #1: 1 = Timer B underflow occurred.
Bit #2: 1 = TOD is equal to alarm time.
Bit #3: 1 = A complete byte has been received into or
sent from serial shift register.
Bit #4: Signal level on FLAG pin.
Bit #7: A non-maskable interrupt has been
generated.
Write bits:
Bit #0: 1 = Enable non-maskable interrupts generated
by timer A underflow.
Bit #1: 1 = Enable non-maskable interrupts generated
by timer B underflow.
Bit #2: 1 = Enable TOD alarm non-maskable
interrupt.
Bit #3: 1 = Enable non-maskable interrupts generated
by a byte having been received/sent via serial shift register.
Bit #4: 1 = Enable non-maskable interrupts generated
by positive edge on FLAG pin.
Bit #7: Fill bit; bits #0-#6, that are set to 1, get
their values from this bit; bits #0-#6, that are set to 0, are left
unchanged.
|
$DD0E 56590 | Timer A control register.
Bits:
Bit #0: 0 = Stop timer; 1 = Start timer.
Bit #1: 1 = Indicate timer underflow on port B bit
#6.
Bit #2: 0 = Upon timer underflow, invert port B bit
#6; 1 = upon timer underflow, generate a positive edge on port B bit #6
for 1 system cycle.
Bit #3: 0 = Timer restarts upon underflow; 1 = Timer
stops upon underflow.
Bit #4: 1 = Load start value into timer.
Bit #5: 0 = Timer counts system cycles; 1 = Timer
counts positive edges on CNT pin.
Bit #6: Serial shift register direction; 0 = Input,
read; 1 = Output, write.
Bit #7: TOD speed; 0 = 60 Hz; 1 = 50 Hz.
|
$DD0F 56591 | Timer B control register.
Bits:
Bit #0: 0 = Stop timer; 1 = Start timer.
Bit #1: 1 = Indicate timer underflow on port B bit
#7.
Bit #2: 0 = Upon timer underflow, invert port B bit
#7; 1 = upon timer underflow, generate a positive edge on port B bit #7
for 1 system cycle.
Bit #3: 0 = Timer restarts upon underflow; 1 = Timer
stops upon underflow.
Bit #4: 1 = Load start value into timer.
Bits #5-#6: %00 = Timer counts system cycles; %01 =
Timer counts positive edges on CNT pin; %10 = Timer counts underflows of
timer A; %11 = Timer counts underflows of timer A occurring along with a
positive edge on CNT pin.
Bit #7: 0 = Writing into TOD registers sets TOD; 1 =
Writing into TOD registers sets alarm time.
|
$DD10-$DDFF 56592-56831 | CIA#2 register images
(repeated every $10, 16 bytes).
|
$DE00-$DEFF, 56832-57087 I/O Area
#1
|
$DE00-$DEFF 56832-57087 | I/O Area #1, memory
mapped registers or machine code routines of optional external devices (256
bytes). Layout and contents depend on the actual device.
|
$DF00-$DFFF, 57088-57343 I/O Area
#2
|
$DF00-$DFFF 57088-57343 | I/O Area #2, memory
mapped registers or machine code routines of optional external devices (256
bytes). Layout and contents depend on the actual device.
|
$E000-$FFFF, 57344-65535 KERNAL ROM
|
$E000-$FFFF 57344-65535 | KERNAL ROM or RAM
area (8192 bytes); depends on the value of bits #0-#2 of the processor port
at memory address $0001:
%x0x: RAM area.
%x1x: KERNAL ROM.
|
$FFFA-$FFFF, 65530-65535 Hardware
vectors
|
$FFFA-$FFFB 65530-65531 | Execution address of
non-maskable interrupt service routine.
Default: $FE43.
|
$FFFC-$FFFD 65532-65533 | Execution address of
cold reset.
Default: $FCE2.
|
$FFFE-$FFFF 65534-65535 | Execution address of
interrupt service routine.
Default: $FF48.
|