Awesome
ORCΛ
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.
<img src='https://raw.githubusercontent.com/wiki/hundredrabbits/Orca-c/PREVIEW.jpg' width='600'/>Main git repo | GitHub mirror |
---|---|
git.sr.ht/~rabbits/orca | github.com/hundredrabbits/Orca-c |
Quick Start for Debian/Raspbian (Raspberry Pi)
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... │
│.....................│
Prerequisites
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.
Build
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.
Build using the tool
build script
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/
Build using the make
wrapper
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.
orca
Livecoding Environment Usage
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
Example: build and run orca
livecoding environment with MIDI output
$ ./tool build --portmidi orca # compile orca using build script
$ build/orca # run orca
orca
Livecoding Environment Controls
┌ 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) │
└─────────────────────────────────────────────────────┘
cli
command-line interface interpreter
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
Extras
- Discuss and get help in the forum thread.
- Support this project through Patreon.
- See the License (MIT) file for license rights and limitations.