Orca is an esoteric programming language and live editor designed to quickly create procedural sequencers. Every letter of the alphabet is an operation, lowercase letters execute on *bang*
, and uppercase letters execute each frame.
This is the C implementation of the ORCΛ language and terminal livecoding environment. It's designed to be power efficient. It can handle large files, even if your terminal is small.
Orca is not a synthesizer, but a flexible livecoding environment capable of sending MIDI, OSC, and UDP to your audio/visual interfaces like Ableton, Renoise, VCV Rack, or SuperCollider.
Main git repo | GitHub mirror |
---|---|
git.sr.ht/~rabbits/orca | github.com/hundredrabbits/Orca-c |
sudo apt-get install git libncurses5-dev libncursesw5-dev libportmidi-dev
git clone https://github.com/hundredrabbits/Orca-c.git
cd Orca-c
make # Compile orca
build/orca # Run orca
To choose your MIDI output device, press F1
(or Ctrl+D
) to open the main menu, and then select MIDI Output...
┌ ORCA ───────────────┐┌ PortMidi Device Selection ─────┐
│ New ││ > (*) #0 - Midi Through Port-0 │
│ Open... ││ ( ) #2 - ES1371 │
│ Save │└────────────────────────────────┘
│ Save As... │
│ │
│ Set BPM... │
│ Set Grid Size... │
│ Auto-fit Grid │
│ │
│ OSC Output... │
│ > MIDI Output... │
│ │
│ Clock & Timing... │
│.....................│
Core library: A C99 compiler (no VLAs required), plus enough libc for malloc
, realloc
, free
, memcpy
, memset
, and memmove
. (Also, #pragma once
must be supported.)
Command-line interpreter: The above, plus POSIX, and enough libc for the common string operations (strlen
, strcmp
, etc.)
Livecoding terminal UI: The above, plus ncurses (or compatible curses library), and floating point support (for timing.) Optionally, PortMidi can be used to enable direct MIDI output.
The build script, called simply tool
, is written in POSIX sh
. It should work with gcc
(including the musl-gcc
wrapper), tcc
, and clang
, and will automatically detect your compiler. You can manually specify a compiler with the -c
option.
Currently known to build on macOS (gcc
, clang
, tcc
) and Linux (gcc
, musl-gcc
, tcc
, and clang
, optionally with LLD
), and Windows via cygwin or WSL (gcc
or clang
, tcc
untested).
There is a fire-and-forget make
wrapper around the build script.
PortMidi is an optional dependency. It can be enabled by adding the option --portmidi
when running the tool
build script.
Mouse awareness can be disabled by adding the --no-mouse
option.
Run ./tool help
to see usage info. Examples:
./tool build -c clang-7 --portmidi orca
# Build the livecoding environment with a compiler
# named clang-7, with optimizations enabled, and
# with PortMidi enabled for MIDI output.
# Binary placed at build/orca
./tool build -d orca
# Debug build of the livecoding environment.
# Binary placed at build/debug/orca
./tool build -d cli
# Debug build of the headless CLI interpreter.
# Binary placed at build/debug/cli
./tool clean
# Same as make clean. Removes build/
make release # optimized build, binary placed at build/orca
make debug # debugging build, binary placed at build/debug/orca
make clean # removes build/
The make
wrapper will enable --portmidi
by default. If you run the tool
build script on its own, --portmidi
is not enabled by default.
Usage: orca [options] [file]
General options:
--undo-limit <number> Set the maximum number of undo steps.
If you plan to work with large files,
set this to a low number.
Default: 100
--initial-size <nxn> When creating a new grid file, use these
starting dimensions.
--bpm <number> Set the tempo (beats per minute).
Default: 120
--seed <number> Set the seed for the random function.
Default: 1
-h or --help Print this message and exit.
OSC/MIDI options:
--strict-timing
Reduce the timing jitter of outgoing MIDI and OSC messages.
Uses more CPU time.
--osc-midi-bidule <path>
Set MIDI to be sent via OSC formatted for Plogue Bidule.
The path argument is the path of the Plogue OSC MIDI device.
Example: /OSC_MIDI_0/MIDI
$ ./tool build --portmidi orca # compile orca using build script
$ build/orca # run orca
┌ Controls ───────────────────────────────────────────┐
│ Ctrl+Q Quit │
│ Arrow Keys Move Cursor │
│ Ctrl+D or F1 Open Main Menu │
│ 0-9, A-Z, a-z, Insert Character │
│ ! : % / = # * │
│ Spacebar Play/Pause │
│ Ctrl+Z or Ctrl+U Undo │
│ Ctrl+X Cut │
│ Ctrl+C Copy │
│ Ctrl+V Paste │
│ Ctrl+S Save │
│ Ctrl+F Frame Step Forward │
│ Ctrl+R Reset Frame Number │
│ Ctrl+I or Insert Append/Overwrite Mode │
│ ' (quote) Rectangle Selection Mode │
│ Shift+Arrow Keys Adjust Rectangle Selection │
│ Alt+Arrow Keys Slide Selection │
│ ` (grave) or ~ Slide Selection Mode │
│ Escape Return to Normal Mode or Deselect │
│ ( ) _ + [ ] { } Adjust Grid Size and Rulers │
│ < and > Adjust BPM │
│ ? Controls (this message) │
└─────────────────────────────────────────────────────┘
The CLI (cli
binary) reads from a file and runs the orca simulation for 1 timestep (default) or a specified number (-t
option) and writes the resulting state of the grid to stdout.
cli [-t timesteps] infile
You can also make cli
read from stdin:
echo -e "...\na34\n..." | cli /dev/stdin
- Discuss and get help in the forum thread.
- Support this project through Patreon.
- See the License (MIT) file for license rights and limitations.