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***********************************************
Py65 - 6502 Microprocessor Simulation in Python
***********************************************
:Author: Mike Naberezny
:Version: |version|
.. topic:: Overview
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Simulate 6502-based microcomputer systems in Python.
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Using the Monitor
=================
Introduction
------------
Py65 includes a program called Py65Mon that functions as a machine language
monitor. This kind of program is sometimes also called a debugger. Py65Mon
provides a command line with many convenient commands for interacting with the
simulated 6502-based system.
The monitor is started using the ``py65mon`` command::
$ py65mon
Py65 Monitor
<6502: A=00, X=00, Y=00, Flags=20, SP=ff, PC=0000>
.
Once the monitor has started, it will display a register dump and the
dot prompt. You can then enter commands for the monitor at this prompt.
Py65Mon uses commands that are very similar to those used by the monitor
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included with the `VICE emulator <http://viceteam.org>`_ for Commodore
computers. You can get a list of available commands with ``help`` or
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help on a specific command with ``help command``.
Number Systems
--------------
When working with Py65Mon, you will frequently need to enter numbers, addresses,
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and ranges of addresses. Almost all Py65 command support entering numbers in
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binary, decimal, and hexadecimal.
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Numbers can be entered with a prefix to specify the radix, e.g. ``$c000``
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instructs Py65Mon that the number ``c000`` is hexadecimal. The following
prefixes are supported:
- ``$c000``: The dollar sign indicates hexadecimal.
- ``+828``: The plus sign indicates decimal.
- ``%0101``: The percent sign indicates binary.
Numbers can also be entered without a prefix. Most of the time, working in
hexadecimal will be the most convenient so this is the default radix. The
number ``c000`` will be assumed to be hexadecimal unless the default radix
is changed using the ``radix`` command.
Address Ranges
--------------
Some commands accept a range of memory addresses::
.disassemble ff80:ff84
$ff80 d8 CLD
$ff81 a2 ff LDX #$ff
$ff83 9a TXS
$ff84 a0 1c LDY #$1c
The syntax for a range is ``start:end``. Each of the two parts may have
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a prefix to indicate the radix, or no prefix to use the default radix.
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Sometimes it is useful to have the starting and ending address in a range
be the same, such as when you want to inspect a single byte of memory. In
this case, you can enter ``ff80:ff80`` or simply ``ff80``.
Assigning Labels
----------------
Large assembly language programs may have hundreds of procedures. It is
difficult to remember the memory address of each procedure and the addresses
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may change if the program is reassembled.
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You can add a label for any memory address using the ``add_label`` command.
This label can then be used anywhere the address could be used::
.add_label ff80 start
.disassemble start
$ff80 d8 CLD
When using labels, you can also specify an offset (plus or minus)::
.disassemble start:start+4
$ff80 d8 CLD
$ff81 a2 ff LDX #$ff
$ff83 9a TXS
$ff84 a0 1c LDY #$1c
Offsets are interpreted like any other numbers. In the example above,
``start+4`` implies that the offset (``4``) uses the default radix. This
could also be written as ``start+$04`` for explicit hexadecimal.
Command Reference
=================
.. describe:: add_label <address> <label>
Assign a label to an address::
.add_label f000 start
Once defined, the label may be used in place of the address in other
commands. If a label already exists at the address, it will be silently
overwritten.
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.. describe:: assemble <address> [<statement>]
Assemble a single statement at an address::
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.assemble c000 lda $a0,x
$c000 b5 a0 LDA $a0,X
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If no statement is given, interactive assembly mode will start::
.assemble c000
$c000
Enter a statement and it will be assembled at the current address. The
address will then be incremented and another statement may be entered.
Press Enter or Return without entering a statement to exit interactive
assembly mode.
If you have defined labels with add_label, you may use those labels in
the address and the operand.
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.. describe:: cd <path>
Change the current working directory to the path specified::
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.cd /path/to/my/files
/path/to/my/files
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After changing the directory, the new working directory will be displayed.
The default working directory is the directory from which the monitor was
started.
.. describe:: cycles
Display the number of cycles that the microprocessor has run
since it was last reset::
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.cycles
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12
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.. describe:: delete_label <label>
Delete a label that was previously defined with ``add_label``::
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.delete_label foo
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If the label does not exist, the command will fail silently.
.. describe:: disassemble <address_range>
Disassembles a range of memory. All legal NMOS 6502 opcodes and addressing
modes are supported::
.disassemble ff80:ff84
$ff80 d8 CLD
$ff81 a2 ff LDX #$ff
$ff83 9a TXS
$ff84 a0 1c LDY #$1c
If labels have been defined, they will be substituted for
addresses in the operands.
.. describe:: fill <address_range> <byte> [<byte> <byte> ...]
Fill a range of memory using one or more bytes from the list::
.fill c000:c003 aa bb
Wrote +4 bytes from $c000 to $c003
.mem c000:c003
c000: aa bb aa bb
If the range is larger than the number of bytes in the list, the list
will repeat as shown above.
.. describe:: goto <address>
Set the program counter to an address and resume execution::
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.goto c000
.. describe:: help [<command>]
Display help for all commands or a single command. If no command is
given, a list of commands will be displayed::
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.help
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If a command is given, help for that comand is displayed::
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.help disassemble
disassemble <address_range>
Disassemble instructions in the address range.
.. describe:: load <filename> <address>
Load a binary file into memory starting at the address specified::
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.load hello.bin c000
Wrote +29 bytes from $c000 to $c01c
The file will be loaded relative to the current working directory. You
may also specify an absolute path. If the filename contains spaces, use
quotes around it::
.load "say hello.bin" c000
Wrote +29 bytes from $c000 to $c01c
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.. note::
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Unlike the VICE monitor, Py65Mon's ``load`` command does not expect
the first two bytes to be a Commodore-style load address. It will start
reading the file at byte 0, not byte 2.
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If the filename is a URL, it will be retrieved::
.load https://github.com/mnaberez/py65/raw/0.11/examples/ehbasic.bin 0000
Wrote +65536 bytes from $0000 to $ffff
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.. describe:: mem <address_range>
Display the contents of memory an address range::
.mem ff80:ffa0
ff80: d8 a2 ff 9a a0 1c b9 bb ff 99 04 02 88 d0 f7 b9 d8 ff
ff92: f0 06 20 a6 e0 c8 d0 f5 20 a3 e0 90 fb 29 df
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The contents will be wrapped to the terminal width specified by the
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``width`` command.
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.. describe:: mpu [<mpu_name>]
Display or set the current microprocessor. If no argument is given, the
current microprocessor will be displayed::
.mpu
Current MPU is 6502
Available MPUs: 6502, 65C02, 65Org16
If an argument is given, the microprocessor will be changed::
.mpu 65C02
Reset with new MPU 65C02
The default microprocessor is ``6502``, the original NMOS 6502 from
MOS Technology.
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.. describe:: pwd
Display the current working directory::
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.pwd
/home/mnaberez
.. describe:: quit
Quit the monitor::
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.quit
.. describe:: radix [<H|D|O|B>]
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Display or set the default radix that is assumed for numbers that have no prefix.
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If no argument is given, the default radix is displayed::
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.radix
Default radix is Hexadecimal
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If an argument is given, the default radix will be changed::
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.radix d
Default radix is Decimal
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The default radix may be changed to Hexadecimal, Decimal, Octal, or Binary.
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.. describe:: registers [<name=value>, <name=value>, ...>]
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Display or change the registers of the microprocessor. If no arguments are
given, the registers are displayed::
.registers
<6502: A=00, X=00, Y=00, Flags=20, SP=ff, PC=0000>
Registers can changed giving ``name=value``, separated by commas if
multiple registers are to be changed::
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.registers a=02, x=04
<6502: A=02, X=04, Y=00, Flags=20, SP=ff, PC=0000>
.. describe:: reset
Reset the microprocessor to its default state. All memory will
also be cleared::
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.reset
.. describe:: return
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Continue execution and return to the monitor just before the next
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RTS or RTI is executed::
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.return
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.. describe:: show_labels
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Display labels that have been defined with ``add_label``::
.show_labels
ffd2: charout
.. describe:: step
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Execute a single instruction at the program counter. After the instruction
executes, the next instruction is disassembled and printed::
<6502: A=00, X=00, Y=00, Flags=34, SP=fc, PC=0000>
.registers pc=c000
<6502: A=00, X=00, Y=00, Flags=34, SP=fc, PC=c000>
.step
$c002 a9 42 LDA #$42
<6502: A=00, X=00, Y=00, Flags=34, SP=fc, PC=c000>
.
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In the example above, the instruction at ``$C000`` executes and the monitor
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prompt returns.
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.. note::
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After the instruction executes, the disassembly of the **next** instruction
is printed. This allows you to see what will be executed on the next step.
.. describe:: tilde
Display a number in the supported number systems::
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.~ c000
+49152
$c000
140000
1100000000000000
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The number will be displayed in this order: decimal, hexadecimal, octal,
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and then binary.
.. describe:: version
Display version information::
.version
Py65 Monitor
.. describe:: width [<columns>]
Display or set the terminal width. The width is used to wrap the output
of some commands like ``mem``. With no argument, the current width is
displayed::
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.width
Terminal width is 78
If a column count is given, the width will be changed::
.width 130
Terminal width is 130
The number of columns is always specified as a decimal number.