shithub: orca

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# ORCΛ

<img src='https://raw.githubusercontent.com/hundredrabbits/Orca/master/resources/logo.png' width="600"/>

Orca is an [esoteric programming language](https://en.wikipedia.org/wiki/Esoteric_programming_language) designed to quickly create procedural sequencers, in which every letter of the alphabet is an operation, where lowercase letters operate on bang, uppercase letters operate each frame.

This application **is not a synthesizer, but a flexible livecoding environment** capable of sending MIDI, OSC & UDP to your audio/visual interfaces, like Ableton, Renoise, VCV Rack or SuperCollider.

If you need <strong>help</strong>, visit the <a href="https://talk.lurk.org/channel/orca" target="_blank" rel="noreferrer" class="external ">chatroom</a> or the <a href="https://llllllll.co/t/orca-live-coding-tool/17689" target="_blank" rel="noreferrer" class="external ">forum</a>.

This is the **C** implementation of the [ORCΛ](https://github.com/hundredrabbits/Orca) language and tools. The livecoding environment for this C version runs in a terminal. It's designed to be power efficient. It can handle large files, even if your terminal is small.

## Quick Start for Debian/Raspbian (Raspberry Pi)

```sh
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 --portmidi-list-devices     # Select MIDI device
build/orca --portmidi-output-device 2  # Start livecoding
```

## 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 `bash`. It should work with `gcc` (including the `musl-gcc` wrapper) 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`) and Linux (`gcc`, `musl-gcc`, and `clang`, optionally with `LLD`), and Windows via cygwin or WSL (`gcc` or `clang`).

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:

```sh
./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

```sh
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.

## Run ORCΛ Livecoding Environment

```
Usage: orca [options] [file]

General options:
    --margins <nxn>        Set cosmetic margins.
                           Default: 2x1
    --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-server <address>
        Hostname or IP address to send OSC messages to.
        Default: loopback (this machine)

    --osc-port <number or service name>
        UDP port (or service name) to send OSC messages to.
        This option must be set for OSC output to be enabled.
        Default: none

    --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
```

Additional options are available if `orca` is built with `--portmidi`:

```
    --portmidi-list-devices
        List the MIDI output devices available through PortMIDI,
        along with each associated device ID number, and then exit.
        Do this to figure out which ID to use with
        --portmidi-output-device

    --portmidi-output-device <number>
        Set MIDI to be sent via PortMIDI on a specified device ID.
        Example: 1
```

### Example: build and run `orca` liveocding environment with MIDI output

```sh
$ ./tool build --portmidi orca           # compile orca using build script
$ build/orca --portmidi-list-devices     # query for midi devices
ID: 3    Name: IAC Driver Bus
ID: 4    Name: USB MIDI Device
$ build/orca --portmidi-output-device 3  # run orca with midi device 3
```

### 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                │
│           Return  Append/Overwrite Mode             │
│                /  Key Trigger Mode                  │
│        ' (quote)  Rectangle Selection Mode          │
│ Shift+Arrow Keys  Adjust Rectangle Selection        │
│           Escape  Return to Normal Mode or Deselect │
│          ( and )  Resize Grid (Horizontal)          │
│          _ and +  Resize Grid (Vertical)            │
│          [ and ]  Adjust Grid Rulers (Horizontal)   │
│          { and }  Adjust Grid Rulers (Vertical)     │
│          < and >  Adjust BPM                        │
│                ?  Controls (this message)           │
└─────────────────────────────────────────────────────┘
```

## CLI 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.

```sh
cli [-t timesteps] infile
```

You can also make `cli` read from stdin:
```sh
echo -e "...\na34\n..." | cli /dev/stdin
```

## Extras

- Support this project through [Patreon](https://patreon.com/100).
- See the [License](LICENSE.md) file for license rights and limitations (MIT).
- Pull Requests are welcome!