This project is an attempt to create optimized version of an openFrameworks projection mapping add-on for the Raspberry Pi. It is also my master thesis project at Aalto University, School of Arts, Design and Architecture (Helsinki Media Lab).

ofxPiMapper is mainly for people who want to use the Raspberry Pi as a cheaper way to create standalone mapping installations. Let's say someone has 10 generative mapping pieces and gets an offer to exhibit them in an art gallery, museum or any other kind of place. 10 expensive computers? No! PiMapper is here to save you!

ofxPiMapper features FBO sources that allow you to create generative openFrameworks patches to be used with ofxPiMapper. Extend the FboSource class, override setup(), update() and draw() methods and then create an instance of your custom source to add it to your ofxPiMapper object.

ofxPiMapper * mapper = new ofxPiMapper();
CustomSource * source = new CustomSource();
mapper.addFboSource(*source);
mapper.setup(); // Setup must be run after adding the FBO source

Since version 0.2.0 ofxPiMapper supports video sources and since version 0.2.3 ofxPiMapper supports undo.

As the projects gets a bit more popular, I see that people want to add missing features. I have a whole bunch of features that I want to add in future releases, but right now I'm trying to understand how to keep it more or less organized.

Currently I have decided to use A successful Git branching model by Vincent Driessen, so read this article and I do not doubt that it will help you with other Git related projects.

I'm trying to organize the project by adding future release version milestones and assigning specific issues as TODO items to them. If you notice something strange or see that there is something that can be done in a better way, don't hesitate and add an issue.

As of Release 0.2.0 some refractoring has been done (thanks aspeteRakete), namespaces have been added and we are thinking about introducing a code style for this project. Still improving on the overal structure.

ofxPiMapper is distributed under the MIT License. See the LICENSE file for further details.

If you don't have a clue on how to set up your Pi - go to the Raspberry Pi website and follow the instructions there. I have been using Raspbian so far as well as Satellite CCRMA without problems.

Another thing you need is a working openFrameworks installation. There are 2 openFrameworks setup guides now as there are 2 versions of Raspberry Pi:

• Raspberry Pi 1 oF Setup Guide
• Raspberry Pi 2 oF Setup Guide

Clone this (the ofxPiMapper) repository into your openFrameworks/addons folder. If your openFrameworks installation on the Pi resides in the home directory, you have to type the following in the terminal:

cd ~/openFrameworks/addons
git clone https://github.com/kr15h/ofxPiMapper.git

Before moving on, make sure that you have all the dependencies installed.

• ofxGui (available in oF by default)
• ofxXmlSettings (available in oF by default)
• ofxIO
• ofxOMXPlayer

To install dependencies, cd into openFrameworks/addons directory and execute the following:

git clone https://github.com/jvcleave/ofxOMXPlayer.git && git clone https://github.com/bakercp/ofxIO.git

And you are good to go!

To test the addon, you will have to compile and run it:

cd ~/openFrameworks/addons/ofxPiMapper/example
make && make run

After it compiles, run it with either make run or ./bin/example. You can exit the application by pressing ESC or Ctrl + C.

It will take a while first (not so long on the RPi 2), but once it runs, press 1, 2, 3 and 4 keys to switch between modes of the software. Switch to mode 3 at first to select a surface. Afterwards you will be able to edit the texture mapping of it in mode 2 and choose a source in mode 4. Mode 1 is the presentation mode. It is activated on start by default.

Right now a keyboard and a mouse has to be used in order to do the mapping with ofxPiMapper.

PiMapper has 4 modes:

1. Presentation mode
2. Texture mapping mode
3. Surface editing mode
4. Source assignment mode

You can access these modes by pressing 1, 2, 3 or 4 respectively.

This mode is activated once the application starts up. It does not show anything else except the final projection mapping as it was saved previously.

In this mode you can adjust the texture coordinates of the surface you have selected in the surface editing mode.

Here you can select, move and distort the surfaces you have created.

After you select a surface in surface editing mode, activate this mode to be able to choose a source for the surface. Afterwards you might want to go to the texture mapping mode to adjust texture coordinates.

These other shortcuts that you can use while using the example app. Remember that you can assign your own by editing the app.cpp file.

Tested with 0.8.4 (OS X and Raspbian)

Keyboard and mouse input is being lost sometimes on the Raspberry Pi. Not sure how and why. Probably because of bad drivers and it seems that Raspberry Pi keyboard and mouse code in openFrameworks is not quite ready yet. Some claim that the following commands solves the issue:

sudo apt-get update && sudo apt-get dist-upgrade  
sudo rpi-update

ofxOMXPlayer has an issue, it throws an error when compiling:

fatal error: libavcodec/opt.h: No such file or directory

To fix that, create a file opt.h in addons/ofxOMXPlayer/libs/ffmpeg/include/libavcodec/ with the following contents:

opt.h

#ifndef AVCODEC_OPT_H
#define AVCODEC_OPT_H
#include "libavcodec/version.h"
#if FF_API_OPT_H
#include "libavutil/opt.h"
#endif
#endif // AVCODEC_OPT_H

More about this issue here.