This is a fork of RP2040 Doom targeting the Thumby. It switches the display between different contrast levels fast enough to generate pretty reasonable greyscale. Sound is currently unsupported. It doesn't overclock the device like the VGA version.
Different batches have slightly different displays. If you get a display that doesn't sync, or doesn't do the greyscale trick, try
fiddling with the FRAME_PERIOD
in i_video.c
. The settings here work on the Thumby I have, but other
devices have sometimes needed a frame period of around 6400, and PARK_LINES
of 2.
D-pad moves, top button is fire. The bottom button is run, strafe and use, and in combination with d-pad down, switches weapon. You're not actually intending to play this, though?
Most of the details are in the original readme below. Briefly:
install pico-sdk, pico-extras & their requisites. You'll also need picotool to install the Doom wad.
mkdir thumby-build
cd thumby-build
cmake -DCMAKE_BUILD_TYPE=MinSizeRel -DPICO_BOARD=jthumby -DPICO_SDK_PATH=/path/to/pico-sdk -DPICO_EXTRAS_PATH=/path/to/pico-extras ..
Then make
to make doom_tiny.uf2
.
To install it on the Thumby, you'll need to boot into BOOTSEL mode. Turn it off, then hold the down button on the dpad while turning it on. It should pop up as a flash drive on your computer.
Copy doom_tiny.uf2
to that flash drive. (This will delete everything on your Thumby! If you ever want to not play Doom on it, you'll
have to follow the same process to reinstall its original firmware, and download all your games again.)
Finally, you need to install the Doom data on it. Boot the Thumby into BOOTSEL mode again, and run
picotool load -v -t bin doom1.whx -o 0x10040000.
Turn it off and on again.
You can build a version that simulates the 72x40 glory on your PC.
./cup.sh <whd/whx_file>
mkdir host-build
cd host-build
cmake -DPICO_PLATFORM=host -DPICO_SDK_PATH=/path/to/pico-sdk -DPICO_EXTRAS_PATH=/path/to/pico-extras -DPICO_SDK_PRE_LIST_DIRS=/path/to/pico_host_sdl ..
make
This is a port of Doom for RP2040 devices, derived from Chocolate Doom.
Significant changes have been made to support running on the RP2040 device, but particularly to support running the
entire shareware DOOM1.WAD
which is 4M big on a Raspberry Pi Pico with only 2M flash!
You can read many details on this port in the blog post here.
Note that a hopefully-fully-functional chocolate-doom
executable is buildable from this RP2040 code base as a
means of
verification that everything still works, but whilst they can still be built, Hexen, Strife and Heretic are almost
certainly broken, so are not built by default.
This chocolate-doom commit that the code is branched off can be found in the upstream
branch.
The original Chocolate Doom README is here.
Thus far, the focus has been entirely on getting RP2040 Doom running. Not a lot of time has been
spent
cleaning
the code up. There are a bunch of defunct #ifdefs
and other code that was useful at some point,
but no longer are, and indeed changing them may result in non-functional code. This is particularly
true of
the
whd_gen
tool
used to
convert/compress WADs
who's code is
likely completely incomprehensible!
You can find a RP2040 Doom UF2s based on the standard VGA/I2S pins in the releases of this repository. There are also versions with the shareware DOOM1.WAD already embedded.
Note you can always use picotool info -a <UF2 file>
to see the pins used by a particular build.
The main goals for this port were:
- Everything should match the original game experience, i.e. all the graphics at classic 320x200 resolution, stereo sound, OPL2 music, save/load, demo playback, cheats, network multiplayer... basically it should feel like the original game.
DOOM1.WAD
should run on a Raspberry Pi Pico. There was also to be no sneaky discarding of splash screens, altering of levels, down-sampling of textures or whatever. RP2040 boards with 8M should be able to play at least the full Ultimate Doom and DOOM II WADs.- The RP2040 should output directly to VGA (16 color pins for RGB565 along with HSync/VSync) along with stereo sound.
Features:
- Full
DOOM1.WAD
playable on Raspberry Pi Pico with 2M flash. - Ultimate Doom and Doom II are playable on 8M devices.
- 320x200x60 VGA output (really 1280x1024x60).
- 9 Channel OPL2 Sound at 49716Hz.
- 9 Channel Stereo Sound Effects.
- I2C networking for up to 4 players.
- Save/Load of games.
- All cheats supported.
- Demos from original WADs run correctly.
- USB Keyboard Input support.
- All end scenes, intermissions, help screens etc. supported.
- Good frame rate; generally 30-35+ FPS.
- Uses 270Mhz overclock (requires flash chip that will run at 135Mhz)
RP2040 Doom should build fine on Linux and macOS. The RP2040 targeting builds should also work on Windows, though I haven't tried.
The build uses CMake
.
To build everything, assuming you have SDL2 dependencies installed, you can create a build directory:
mkdir build
cd build
cmake ..
And then run make
or make -j<num_cpus>
from that directory. To build a particular target e.g. chocolate-doom
,
do make chocolate-doom
Note this is the way you build the whd_gen
tool too.
You must have pico-sdk and
the latest version of pico-extras installed, along with the regular
pico-sdk requisites (e.g.
arm-none-eabi-gcc
). If in doubt, see the Raspberry Pi
documentation. I have been building against
the develop
branch of pico-sdk
, so I recommend that..
NOTE: I was building with arm-none-eabi-gcc 9.2.1 .. it seems like other versions may cause problems with binary size, so stick with that for now.
For USB keyboard input support, RP2040 Doom currently uses a modified version of TinyUSB included as a submodule.
Make sure you have initialized this submodule via git submodule update --init
You can create a build directly like this:
mkdir rp2040-build
cd rp2040-build
cmake -DCMAKE_BUILD_TYPE=MinSizeRel -DPICO_BOARD=vgaboard -DPICO_SDK_PATH=/path/to/pico-sdk -DPICO_EXTRAS_PATH=/path/to/pico-extras ..
Note that the PICO_BOARD
setting is for the standard VGA demo board which has RGB on pins 0->15, sync pins on 16,17
and
I2S on 26,27,28.
As before, use make
or make <target>
to build.
The RP2040 version has four targets, each of which create a similarly named UF2
file (e.g. doom_tiny.uf2
).
These UF2 files contain the executable code/data, but they do not contain the WAD data which is converted into a
RP2040 Domom
specific WHD/WHX format by whd_gen
(for more see below). The WHD/WHX file must also be loaded onto the device at a
specific address which varies by binary.
"super-tiny" refers to RP2040 Doom builds that use the more compressed WHX format, and
required forDOOM1. WAD
to
run
on a 2M Raspberry Pi Pico. "Non super-tiny" refers to RP2040 Doom builds that use the WHD format which is larger, but
also is
required for Ultimate Doom and Doom II WADs. These binaries are distinct as supporting both formats in the same
binary would just have made things bigger and slower.
- doom_tiny This is a "super tiny" version with no USB keyboard support. You can use
SDL Event Forwarder to tunnel keyboard input from your host
computer over UART. The WHX file must be loaded at
0x10040000
. - doom_tiny_usb This is a "super tiny" version with additional USB keyboard support. Because of the extra USB
code, the WHX file must be loaded at
0x10042000
. As you can see USB support via TinyUSB causes the binary to grow by 2K (hence the move of the WHX file address) leaving less space for saved games (which are also stored in flash). - doom_tiny_nost This is a "non super tiny" version of
doom_tiny
supporting larger WADs stored as WHD. The WHD file must be loaded at0x10048000
- doom_tiny_nost_usb This is a "non super tiny" version of
doom_tiny_usb
supporting larger WADs stored as WHD. The WHD file must be loaded at0x10048000
You can load you WHD/WHX file using picotool. e.g.
picotool load -v -t bin doom1.whx -o 0x10042000.
See whd_gen
further below for generating WHX
or WHD
files.
Note that TinyUSB host mode support for keyboard may not work with all keyboards especially since the RP2040 Doom has been built with small limits for number/sizes of hubs etc. I know that Raspberry Pi keyboards work fine, as did my ancient Dell keyboard. Your keyboard may just do nothing, or may cause a crash. If so, for now, you are stuck forwarding keys from another PC via sdl_event_forwarder.
You can also build the RP2040 Doom to run on your host computer (Linux or macOS) by using pico_host_sdl which simulates RP2040 based video/audio output using SDL.
This version currently embeds the WHD/WHX in src/tiny.whd.h
so you must generate this file.
You can do this via ./cup.sh <whd/whx_file>
mkdir host-build
cd host-build
cmake -DPICO_PLATFORM=host -DPICO_SDK_PATH=/path/to/pico-sdk -DPICO_EXTRAS_PATH=/path/to/pico-extras -DPICO_SDK_PRE_LIST_DIRS=/path/to/pico_host_sdl ..
... and then make
as usual.
doom1.whx
is includd in this repository, otherwise you need to build whd_gen
using the regular native build
instructions above.
To generate a WHX file (you must use this to convert DOOM1.WAD to run on a 2M Raspberry Pi Pico)
whd_gen <wad_file> <whx_file>
The larger WADs (e.g. Ultimate Doom or Doom II have levels which are too complex to convert into a super tiny WHX file. These larger WADs are not going to fit in a 2M flash anywy, so the less compressed WHD format can be used given that the device now probably has 8M of flash.
whd_gen <wad_file> <whd_file> -no-super-tiny
Note that whd_gen
has not been tested with a wide variety of WADs, so whilst it is possible that non Id WADs may
work, it is by no means guaranteed!
NOTE: You should use a release build of whd_gen
for the best sound effect fidelity, as the debug build
deliberately lowers the encoding quality for the sake of speed.
The releases here use pins as defined when building with PICO_BOARD=vgaboard
:
0-4: Red 0-4
6-10: Green 0-4
11-15: Blue 0-4
16: HSync
17: VSync
18: I2C1 SDA
19: I2C1 SCL
20: UART1 TX
21: UART1 RX
26: I2S DIN
27: I2S BCK
28: I2S LRCK
You can always find these from your ELF or UF2 with
picotool info -a <filename>
These match for example the Pimoroni Pico VGA Demo Base which itself is based on the suggested Raspberry Pi Documentation here and the design files zipped here.
Evilution and Plutonia are not yet supported. There is an issue tracking it here.
- Any code derived from chocolate-doom matinains its existing license (generally GPLv2).
- New RP2040 Doom specific code not implementing existing chocolate-doom interfaces is licensed BSD-3.
- ADPCM-XA is unmodified and is licensed BSD-3.
- Modified emu8950 derived code retains its MIT license.