/sanjuuni

Converts images and videos into a format that can be displayed in ComputerCraft.

Primary LanguageC++GNU General Public License v2.0GPL-2.0

NOTE

just compile ffmpeg or find a ppa if ur on ubuntu or similar, this is archived 4 a reason

i changed a few lines so it compiled for me, clone this repo if it won't compile and try it if ur on a ubuntu 22.04 based or have a similar problem

i wont pr this because i did a very bad and lazy solution that may work, just look at the commit and you'll see what i mean

AUDIO DOESN'T WORK, UNPREDICTABLE RESULTS IF YOU USE IT

sanjuuni

Converts images and videos into a format that can be displayed in ComputerCraft. Spiritual successor to juroku, which is hard to build and isn't as flexible.

Installation

Windows

Download the latest release from the releases tab. This includes the built binary, the Lua player programs, plus all required libraries.

Linux

Arch Linux (AUR)

sanjuuni is available in the Arch User Repository; use your favorite AUR helper to install it:

yay -S sanjuuni

The sanjuuni-git package is the bleeding edge version of sanjuuni.

Nix/NixOS

sanjuuni is available in the Nixpkgs unstable branch. To use it, update your Nix channels and launch a shell with sanjuuni in your path:

nix-channel --update
nix-shell -p sanjuuni
# You will now be in a bash shell with sanjuuni on your path.
sanjuuni --help # Use sanjuuni like normal
exit
# sanjuuni is no longer on the path; execute nix-shell again to get it back.

Alternatively, if your project uses sanjuuni in a script, add sanjuuni to mkShell.buildInputs.

with (import <nixpkgs> {});
mkShell {
  buildInputs = [
    bash
    sanjuuni
  ];
}

Nix support is maintained by Tomodachi94. For any issues with the Nix package itself, please contact him by opening an issue on Nixpkgs.

Building

Requirements:

  • C++17 or later compiler
  • FFmpeg libraries
  • Poco (Foundation and Util required; Net/NetSSL optional)
  • zlib (usually required by Poco)
  • OpenCL (optional, for GPU support)
  • GNU sed (installed by default on Linux; brew install gsed on Mac)

To build:

./configure
make

On Windows, use the Visual Studio solution with vcpkg to build.

Usage

usage: ./sanjuuni [options] -i <input> [-o <output> | -s <port> | -w <port> | -u <url>]
sanjuuni converts images and videos into a format that can be displayed in 
ComputerCraft.

-ifile, --input=file                   Input image or video
-Sfile, --subtitle=file                ASS-formatted subtitle file to add to the video
-fformat, --format=format              Force a format to use for the input file
-opath, --output=path                  Output file path
-l, --lua                              Output a Lua script file (default for images; only does one frame)
-n, --nfp                              Output an NFP format image for use in paint (changes proportions!)
-r, --raw                              Output a rawmode-based image/video file
-b, --blit-image                       Output a blit image (BIMG) format image/animation file (default for videos)
-3, --32vid                            Output a 32vid format binary video file with compression + audio
-sport, --http=port                    Serve an HTTP server that has each frame split up + a player program
-wport, --websocket=port               Serve a WebSocket that sends the image/video with audio
-uurl, --websocket-client=url          Connect to a WebSocket server to send image/video with audio
-T, --streamed                         For servers, encode data on-the-fly instead of doing it ahead of time (saves memory at the cost of speed and only one client)
-p, --default-palette                  Use the default CC palette instead of generating an optimized one
-Ppalette, --palette=palette           Use a custom palette instead of generating one, or lock certain colors
-t, --threshold                        Use thresholding instead of dithering
-O, --ordered                          Use ordered dithering
-L, --lab-color                        Use CIELAB color space for higher quality color conversion
-8, --octree                           Use octree for higher quality color conversion (slower)
-k, --kmeans                           Use k-means for highest quality color conversion (slowest)
-cmode, --compression=mode             Compression type for 32vid videos; available modes: none|ans|deflate|custom
-B, --binary                           Output blit image files in a more-compressed binary format (requires opening the file in binary mode)
-S, --separate-streams                 Output 32vid files using separate streams (slower to decode)
-d, --dfpwm                            Use DFPWM compression on audio
-m, --mute                             Remove audio from output
-Wsize, --width=size                   Resize the image to the specified width
-Hsize, --height=size                  Resize the image to the specified height
-M[WxH[@S]], --monitor-size[=WxH[@S]]  Split the image into multiple parts for large monitors (images only)
--trim-borders                         For multi-monitor images, skip pixels that would be hidden underneath monitor borders, keeping the image size consistent
--disable-opencl                       Disable OpenCL computation; force CPU-only
-h, --help                             Show this help

Custom palettes are specified as a list of 16 comma-separated 6-digit hex codes, optionally preceeded by #. Blank entries can be left empty or filled with an X. Example: #FFFFFF,X,X,X,X,X,X,#999999,777777,,,,,,,#000000

Playback programs

  • 32vid-player.lua plays back separate-stream 32vid video/audio files from the disk. Simply give it the file name and it will decode and play the file. (Deprecated)
  • 32vid-player-mini.lua plays back combined-stream 32vid video/audio files from the disk or web in real-time. Simply give it the file name or URL and it will decode and play the file in real-time.
  • bimg-player.lua displays BIMG images or animations. Simply give it the file name and it will decode and play the file.
  • raw-player.lua plays back raw video files from the disk. Simply give it the file name and it will decode and play the file.
  • websocket-player.lua plays a stream from a sanjuuni WebSocket server. Simply give it the WebSocket URL and it will play the stream, with audio if a speaker is attached.

Formats

  • The Lua file output creates a simple script that displays the image/animation, and if there's only one frame, waits for the return key to be pressed. The data is stored as plain blit table(s), so it can be copied to another file as desired with the display code.
  • The raw file output creates a file based on CraftOS-PC Raw Mode. Each frame packet is stored on one line, and the first two lines contain a version header and the FPS. (If the FPS is 0, this is a plain image.)
  • The blit image file output creates a file based on the BIMG specification. This is similar to Lua output, but stored in a serialized table for reading by other files. It also supports animations, but no audio.
  • The 32vid file output creates a file that uses the 32vid format described below, which is a binary file that stores compressed and optimized versions of the video and audio data in multiple streams.
  • The HTTP server output starts an HTTP server that serves a single player file at the root (/), which can be run through wget run. The metadata of the stream is stored at /info as a JSON file with the fields length and fps. Each frame is stored in a separate URL under a video or audio folder, e.g. /video/0 returns the first frame of the video, and /audio/0 returns the first second of audio.
  • The WebSocket server output starts a WebSocket server that sends frames over the connection. It uses a simple request/response protocol, with the first character of the frame indicating the request type, and an optional parameter follows the character. For v and a commands, success is indicated by the message being a binary message. (Failure messages will always be exactly "!", but successful messages may be "!" as well!) The following commands are available:
    • v<n>: Returns the nth frame of video as a Lua script that returns the image + palette
    • a<n>: Returns one second of audio starting at the nth sample in unsigned 8-bit PCM
    • n: Returns the number of video frames available
    • f: Returns the framerate of the video
  • The WebSocket client output functions the same as the WebSocket server output, but connects to an existing WebSocket server instead of hosting its own. This allows reverse-server connections and use of pipe servers.

32vid file format

The 32vid format consists of a number of streams, which can hold video, audio, or subtitles/overlay text. Each stream may be compressed as specified in the flags. Video data is stored in an optimized format for drawing characters, using only 5-6 + 8 bits per character cell, and pixels and colors are split into two planes to optimize for compression algorithms. Audio data is always at 48000 Hz, and (in the current version) is unsigned 8-bit PCM or DFPWM.

Header

Offset Bytes Description
0x00 4 Magic "32VD"
0x04 2 Video width in characters
0x06 2 Video height in characters
0x08 1 Frames per second
0x09 1 Number of streams
0x0A 2 Flags (see below)
0x0C n List of streams

Flags:

  • Bits 0-1: Compression for video; 0 = none, 1 = custom ANS, 2 = DEFLATE, 3 = custom
  • Bits 2-3: Compression for audio; 0 = none (PCM), 1 = DFPWM
  • Bit 4: Always set to 1
  • Bit 5: Whether multiple monitors are required
  • Bit 6-8: Multiple monitor array width - 1 (if bit 5 is set)
  • Bit 9-11: Multiple monitor array height - 1 (if bit 5 is set)

Streams

Offset Bytes Description
0x00 4 Size of data
0x04 4 Data length: number of frames for video, number of samples for audio, number of events for subtitles
0x08 1 Type of chunk
0x09 n Compressed stream data

Chunk types:

  • 0: Video
  • 1: Audio (mono)
  • 2: Left audio (stereo)
  • 3: Right audio (stereo)
  • 4-7: Additional audio channels if desired
  • 8: Primary subtitles
  • 9-11: Alternate subtitles if desired
  • 12: Combo data stream
  • 13: Combo stream indexes
  • 64-127: Multi-monitor video
    • Bitfield describes monitor placement:
      • 2 bits (01) for chunk type
      • 3 bits for monitor X (0-7)
      • 3 bits for monitor Y (0-7)

As of sanjuuni 0.5, the old-style format with separate streams is deprecated. It remains available for legacy applications, but new features will only be supported in the combo stream format.

Video data

Video data is stored as a list of frames, with each frame consisting of packed pixel data, then colors. Pixel data is stored in a bitstream as 5-bit codes. The low 5 bits correspond to the low 5 bits in the drawing characters, and the character can be derived by adding 128 to the value.

Pixels are grouped in tokens of 5 bytes/8 characters. If the characters cannot fit in a multiple of 8 characters, the token is right-padded with zeroes to fit. After pixel data, each cell's colors are written with one byte per cell, with the high nibble storing the background and the low nibble storing the text color. Finally, the palette is written as 16 sets of 24-bit RGB colors.

The length of a frame can be determined with the formula ceil(width * height / 8) * 5 + width * height.

For multi-monitor frames, the first 4 bytes contain the width and height of the encoded image (in characters), since the global width/height is different from the per-frame width/height.

Custom video compression

32vid implements a custom compression format for faster and more efficient compression. When custom compression is enabled, each frame is stored as a pair of screen and color blocks, each encoded using Huffman coding. The screen block uses 32 symbols corresponding to the 5-bit drawing characters, and the color block uses 24 symbols, with the low 16 representing the 16 colors, and the last 8 representing repeats of the last literal value from 2 to 256. (For example, a sequence of 8, 18, 19 means to repeat color 8 25 times.)

The code tree is encoded using canonical Huffman codes, with 4 bits per symbol for the length of the code. Therefore, the screen block's table is 16 bytes in size, and the color block's table is 12 bytes. Decoding is accomplished by reading the table, constructing a tree from the canonical bit lengths, and then reading the bits in order from most significant bit to least.

Unlike uncompressed frames, the color block is stored in two sections: the foreground colors are coded first, and then the background colors. This is to allow better run-length encoding. Each frame is compressed separately as well, as opposed to LZW and DEFLATE compression.

Custom video compression - ANS

This is a variant of the normal custom format, but uses asymmetrical numeral systems to encode the data. This compresses similarly to the Huffman coding used in normal custom compression, but is easier to decode as it doesn't need to step through each bit (all bits are read at once). The image is also encoded backwards as required by the ANS algorithm.

Subtitle events

Offset Bytes Description
0x00 4 Frame number to show the text on
0x04 4 Number of frames to display for
0x08 2 X position of the text in characters
0x0A 2 Y position of the text in characters
0x0C 1 Color set for the text (BG+FG)
0x0D 1 Flags (reserved)
0x0E 2 Text length
0x10 n Text

Subtitle streams are arranged as sequences of subtitle events. Events MUST be ordered by start time; decoders are not required to respect events that are out of order.

Combined audio/video streams

This stream format is used to encode audio and video together, which allows real-time decoding of video. It's split into frames of video, audio, and subtitles, which are each prefixed with a 4 byte size, and a 1 byte type code using the stream type codes. A frame only contains a single event of its type: video is one single frame, subtitles are one single event, and audio is a single chunk (which can be any length, ideally around 0.5s). The length field of the stream is used to store the number of frames in the stream. If the file contains a combined stream, it SHOULD NOT contain any other type of stream, except an index if available.

Combined stream index table

This chunk type stores an index table for the audio/video stream, which can speed up seeking in the file. It contains a single byte with the number of video frames per entry, and afterwards is split up into 32-bit words, where each word is an offset into the file for the start of that video frame. For example, if the first byte is 60, the first word will point to video frame 0, the next will point to frame 60, then frame 120, and so on. Note that this counts video frames specifically - the index will never point to an audio or subtitle frame.

Index tables MAY be stored at either the beginning or end of the file. If your application is looking for an index table and it is not the first stream, seek past the combo stream and check whether it's after the stream. sanjuuni stores the index at the end for efficiency.

Library usage

It's possible to use much of the core of sanjuuni as a library for other programs. To do this, simply include all files but sanjuuni.cpp in your program, and include sanjuuni.hpp in the source you want to use sanjuuni in. Then create a global WorkQueue work variable in your source, which is used to delegate tasks to threads. Then use any of the functions in sanjuuni.hpp as you need. Basic documentation is available in the header.

License

sanjuuni is licensed under the GPLv2 license. Player files are licensed under separate licenses - see the header of each file for more info.