This is a userland driver for the Mightex TCE-1304-u CCD line cameras. It is based on libusb.
Note: at the moment it is all very preliminary. Do not expect a finished product, although it can prove helpful in understanding how to communicate with the camera using the public protocol provided by Mightex. The libraries (shared and static) produced by this project, though, are now functional enough to be used directly in your projects.
A simple interface to a Mightex CCD line camera, as simple as possible. Look at the src/main/test.c
program to see how simple it can be ;)
The project compiles a static and a dynamic library: the documentation for the library can be build with Doxygen (make doc
). The dynamic library embeds the libusb
library, so there are no dependencies. If you rather want to use the static library, then you also need to link in your program the vendor/lib/libusb-1.0.a
static library.
The library is designed to make the life easier to you if you want to use it within an interpreted language via FFI. As an example, the matlab
folder contains a Matlab class that wraps the library. I plan to add FFI examples for Python and Ruby too.
The project also enables quick creation of binary language extensions for scripting languages via SWIG. See later on.
Linux, OS X, and Windows. For the latter, see the dedicated section in this document.
Cmake style:
cmake -Bbuild -H. -DCMAKE_BUILD_TYPE=Release
make -Cbuild -j4 install
make -Cbuild doc
and you will find the compiled files under products_host
and Doxygen documentation under doc
.
The project is ready for an easy, Docker-based cross-compilation. See README-xcomp.md for details.
If you want to build the project on Windows, things are a tad more complicated. For starters you need to install:
- Visual Studio 2019 (Community edition is fine), with Windows C++ SDK.
- Git
- CMake
- Most importantly do not use the driver provided by Mightex, it won't work. Instead, you have to use the WinUSB driver: the easiest way to install it is by using the Zadig tool.
Then you shall be able to do:
cmake -Bbuild -S. -DBUILD_DOC=no -DCMAKE_BUILD_TYPE=Release
cmake --build build -j4 -t install
and you'll find all the goodies in products_host
.
If you only want to use the library on Windows, perhaps via Matlab, then you need to download a release version of the library (in zip format) and also be sure to have installed the Microsoft Visual C++ Redistributable package. Also, remember to use the proper WinUSB driver as per the point 4. above.
At the moment, the Docker-based cross compilation is not enabled on Windows.
SWIG is a commandline utility that simplifies the creation of C/C++ wrappers to be compiled into binary libraries for many common scripting languages.
This project enables that with a special C++ header, which can also be parsed by SWIG: src/mightex.hh
.
This file also plays as a header only C++ interface to the Mightex1304 library, so if you want to use the library in a C++ fashion, just #include "mightex.hh"
and properly link to the libraries, and you are set.
The file also contains some conditional code that enables SWIG to parse it and generate the proper code. Let's see how it works for lua:
$ cd products_host/include
$ swig -lua -c++ -o mightex_lua.cpp mightex.hh
this generates the source file mightex_lua.cpp
, which can be compiled into a shared object run-time loadable by the lua interpreter:
$ clang++ mightex_lua.cpp -shared -I /usr/local/opt/[email protected]/include/lua -L /usr/local/opt/[email protected]/lib/ -llua -framework IOKit -framework CoreFoundation ../lib/libusb-1.0.a ../lib/libmightex_static.a -omightex.so
# mightex.so is created...
$ lua -l mightex # this starts the interpreter loading the mightex library
Lua 5.3.5 Copyright (C) 1994-2018 Lua.org, PUC-Rio
> mightex.version()
Mightex1304 v.0.2.2-9-g8337fbc for x86_64-apple-darwin19.6.0, Release build.
> m = mightex.Mightex1304()
> Found device: Mightex - USB-TCD1304-1
> Version: 1.3.0
> SerialNo.: 13-201114-002
> m:read_frame()
1.0
> v = m:frame()
> v[0]
2039.0
which shall be clear considering that: mightex
is the name of the module and Mightex1304
is the name of the class, so mightex.version()
is a module function and m:read_frame()
is an object method.
A Python interface can be rather analogously generated and used with swig -python -c++ -o mightex_lua.cpp mightex.hpp
.
The binary release already contains wrappers for Lua, Python, and Ruby. In particular, from the binary release you can quickly run the Python library like this:
$ cd interfaces/wrappers
$ python3 setup.py build_ext -fi
$ python3
Python 3.9.1 (default, Jan 8 2021, 17:17:43)
[Clang 12.0.0 (clang-1200.0.32.28)] on darwin
Type "help", "copyright", "credits" or "license" for more information.
>>> import mightex
>>> m = mightex.Mightex1304()
> Found device: Mightex - USB-TCD1304-1
> Version: 1.3.0
> SerialNo.: 13-201114-002
>>> m.set_exptime(0.1)
1
>>> m.read_frame()
1
>>> v = m.frame()
>>> v[1]
1955
NOTE: On linux and MacOS, the script seyup.py
builds a statically linked shared object, so you can move the extension around by just copying the files mightex.py
and the shared object generated with extension .pyd
. On Windows, on the other hand, the script build a shared object that is dynamically linked to the mightex dynamic library, which is copied locally for convenience; so if you want to move it around, you have to copy three files: mightex.py
, the dynamic library libmightex.dll
, and the shared object .pyd
generated by setup.py
.
Paolo Bosetti, University of Trento.