MAME
MAME (Multiple Arcade Machine Emulator) is a multi-platform emulator for arcade games, home computers, gaming consoles, chess computers, calculators, etc. MAME 0.162 (released on May 27, 2015) merged the previously separate MAME and MESS (Multi Emulator Super System) projects into one, so that a single executable now combines the emulation capabilities of pre-0.162 MAME/MESS.
The most important goal of MAME is highly accurate emulation, not speed. MAME is mainly a preservation project that aims to reproduce the behaviour of the real hardware perfectly, so CPU usage may be slightly higher than many dedicated CPC emulators.
Contents
Emulated systems
Currently, over a thousand systems are supported by MAME, including the CPC and CPC Plus ranges and the GX4000. This is probably the main reason for using MAME: A single download is enough to emulate more or less every home computer and gaming console that ever existed in the late 1970s and 1980s—provided one can find a ROM set that works (see below).
MAME does not have the depth of other CPC emulators, but it sure has enormous breadth. Its flexible input mapping and pixel shader effects make MAME particularly suited for gaming.
Installation
MAME runs on Windows, Mac OS X, Linux, and FreeBSD. You can get Windows binaries from mamedev.org.
On OS X, you can install MAME via Homebrew:
brew install mame
On Windows and OS X, the MAME binary is called mame, on Linux sdlmame. On some Linux distros such as Arch Linux you have to use absolute paths for disk images or ROMs because /usr/bin/sdlmame is a wrapper script that will cd to the directory with the MAME binary. Or you could simply skip the wrapper script and run /usr/share/sdlmame/sdlmame directly:
alias mame=/usr/share/sdlmame/sdlmame
First get the CPC ROMs for MAME and unzip them into the MAME roms folder.
Typical command line to start MAME in CPC mode (windowed mode and with a disc inserted in drive A):
mame cpc6128 -skip_gameinfo -window -flop1 disk.dsk
Supported CPC models are cpc464, cpc464p, cpc664, cpc6128, cpc6128p, gx4000, cpc6128f (French), cpc6128s (Swedish), and the clones kccomp (KC Compact) and al520ex (Aleste 520EX; hold Shift during boot to go to Basic).
Press Scroll Lock to toggle partial keyboard emulation mode. Now you can use P to pause MAME, Tab to enter the MAME menu, and Escape to quit MAME. Alt-Return toggles fullscreen mode. (See also default keys.)
You can use the "-ab" commandline option to type text into MAME, e.g.
mame cpc6128 -flop1 disk.dsk -ab "run\"disc\n"
will boot the disc.
Device options for the CPC from sysinfo.dat
Name | Argument | Allowed file extensions |
Printer | -prin | .prn |
Snapshot | -dump | .sna |
Disk drive A | -flop1 | .dsk; .d77; .d88; .1dd; .dfi; .imd; .ipf; .mfi; .mfm |
Disk drive B | -flop2 | |
Tape | -cass | .wav; .cdt |
Cartridge | -cart | .cpr; .bin (Plus series and GX4000 only) |
Supported file types can also be shown with the "-listmedia" command line option.
You can use zipped disk images too. If there is more than one DSK image in the zip file, treat the zip file like a directory, e.g.
mame cpc6128 -flop1 disk.zip/disk0.dsk
Python script to start MAME in CPC mode
On Linux, you can also set your file manager (e.g. Nautilus or Konqueror) to open .dsk files with the following Python script:
#!/usr/bin/env python # Call as # "cpc" : emulated keyboard # "cpcn" : natural import os, os.path, zipfile from sys import argv if 'cpcn' in argv[0]: nat = '-natural' else: nat = '' s = "/usr/share/sdlmame/sdlmame cpc6128 -skip_gameinfo -window %s -keymap -keymap_file /usr/share/sdlmame/keymaps/km_de_LINUX.map" % nat def checkzip(t): "Check if file is a ZIP file; use the first file in the archive" if t[-4:].lower() == '.zip': a = zipfile.ZipFile(t).namelist() t = os.path.join(t, a[0]) return t if len(argv) > 1: for x in range(1, len(argv)): s += ' -flop%u "%s"' % (x, checkzip(argv[x])) os.system(s)
This script should open a MAME window with the disc inserted in drive A. (Note that this also selects the German keymap.) You can also use this to open ZIP files containing disc images, e.g. "cpc mydisc.zip" will try to insert the first file in the ZIP archive.
GUI front-ends
Several GUI front-ends for MAME/MESS exist for Windows, Linux, and OS X:
Keyboard layouts
MAME supports two keyboard modes:
- emulated (the default; keys are assigned based on key position on the emulated hardware)
- natural (command line option "-natural"; based on the character generated by a key, e.g. pressing "z" will always generate a "z" on the emulated system)
To use a German keyboard in emulated keyboard mode, start MAME e.g. with (key map path on Linux):
mame cpc6128 -keymap -keymap_file /usr/share/sdlmame/keymaps/km_de_LINUX.map
You can also put these settings in your mame.ini like this:
keymap 1 keymap_file /usr/share/sdlmame/keymaps/km_de_LINUX.map
In emulated mode, keys can also be remapped in the emulator menu. First press Scroll Lock to enable the MAME control keys, then Tab to open the menu, and finally select Input (this system). Return, Esc clears an assigned key.
Note that the Delete and Backspace keys are swapped on the emulated keyboard because of the CPC keyboard layout. So you may want to reassign those. Escape on the CPC is mapped to the key left of "1" on the PC keyboard. Alt-Enter switches between windowed and full screen mode.
CPC artwork
You can add optional bezel artwork to MAME to simulate a CPC monitor:
- MAME artwork (CPC6128/GT65 bezel)
Rename this file to cpc6128.zip and put it in MAME's artwork folder (~/.mame/artwork/ on Linux).
ROMs and extension hardware
CPC ROMs for MAME. Just unzip the file and move the ZIPs inside into the MAME ROM folder.
General notes about MAME and ROMs
Some MAME ROMs have parent ROMs that also need to be installed. E.g., cpc6128.zip also requires cpc464.zip to run. (See the links section for CPC ROM files for MAME.)
ROMs often only work with a specific version of MAME. This does not seem to affect CPC ROMs, but other systems sometimes give an error message when ROM filenames or checksums do not match what MAME expected.
Slot options (extension hardware)
You can get a list of slot options with
mame cpc6128 -lslot
These are (as of MAME 0.168):
- for "-centronics"
pl80 | COMX PL-80 |
ex800 | Epson EX-800 |
lx800 | Epson LX-800 |
lx810l | Epson LX-810L |
ap2000 | Epson ActionPrinter 2000 |
printer | Centronics Printer |
digiblst | Digiblaster (DIY) |
- for "-exp"
ssa1 | Amstrad SSA-1 Speech Synthesizer |
dkspeech | Dk'tronics Speech Synthesizer |
rom | ROM Box |
multiface2 | Multiface II |
pds | Programmers Development System (CPC Target) |
rs232 | Pace RS232C interface |
amsrs232 | Amstrad RS232C interface |
sf2 | SYMBiFACE II |
amdrum | Amdrum |
playcity | PlayCity |
smartwatch | Dobbertin Smart Watch |
brunword4 | BrunWord Elite MK4 |
hd20 | Dobbertin Harddisc |
doubler | Draysoft Doubler |
transtape | HM Transtape |
Loading external ROMs
The ROM Box expansion can be used to load external ROMs such as MAXAM:
mame cpc6128 -exp rom -rom1 /path/to/MAXAM.ROM
Up to 8 external ROMs (-rom1 to -rom8) are supported this way.
Dobbertin Harddisc
From the forum post:
To use, add -exp hd20 to the commandline, which will also allow you to add -hard <filename>. Code:
mame cpc6128 -exp hd20 -hard1 disk.chd
Only MAME CHDs are supported, you can create a blank hard disk image using chdman. Geometry is 615/4/17. Code:
chdman createhd -o disk.chd -c none -chs 615,4,17
(-c none means no compression, but this is required for MAME to write directly to the CHD image. If you use compression, then data writes will be written to a separate file)
You can use X-DDOS 2.00 or 2.10 by using -exp hd20,bios=xddos200 or -exp hd20,bios=xddos210. v2.10 is the default.
See http://mahlemiut.marpirc.net/cpc_hd20.avi, a quick demo loading a game from HD.
CRT simulation
MAME can use shaders to simulate typical CRT graphics artifacts such as scanlines, colors bleeding into each other, jitter, and display curvature.
BGFX
The easiest way to do this (works on Windows, OS X, and Linux) since MAME 0.172 is to enable BGFX video output: Put this in your mame.ini:
video bgfx bgfx_screen_chains hlsl
(You may also have to set bgfx_path to the bgfx directory if MAME cannot find the shaders.)
Check with F11 if you still get 100% performance. If not, adjust frame skip with F8/F9.
Also, if you press the tilde (~) and then cursor up/down, you can adjust the shader settings (they are also under Slider Controls in the MAME menu). These are not saved at the moment though.[1]
If you edit bgfx/chains/hlsl.json in a text editor, you can change the default values. E.g., to reduce the Moiré pattern, search for "Shadow Mask Amount" and change it to:
"default": 0.20
HLSL and GLSL
Older methods for CRT simulation are manual HLSL and GLSL configurations, here are some examples:
- Windows (using HLSL shaders)
- Linux (using GLSL shaders): MAME tutorial [4]
Remaining issues with CPC emulation
- MAME may fail to read DSK images with certain kinds of copy protection. Speedlock seems to work fine though.
- MAME cannot write to disc images in DSK format; only MFI (MESS floppy image) and MFM (HxCFloppyEmulator floppy image) are supported for writing.
- Some demo tricks may be broken in MAME, e.g. overscan pictures are horizontally misaligned (i.e., shifted to the right).
- CPC+/GX4000 emulation still has some obvious graphics glitches.
- The emulated CPC464 has the AMSDOS ROM loaded which is a problem with early 464-only programs that rely on the 464's larger free memory.
Compiling to JavaScript
Since MAME 0.168 (released in November 2015), MAME can compile to JavaScript using Emscripten's emmake command.[5] JSMESS is therefore no longer necessary to compile e.g. the MAME/MESS CPC emulator for web browsers.