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Introduction
For more information about HALCON by MVtec, we refer to the product owner´s online presence: https://www.mvtec.com/products/halcon/
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HALCON can be pre-installed on the camera via |
HALCON Examples on iam
Open an SSH Shell connection to the camera. In some cases X-Server support is required.
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There are some examples pre-installed to iam. They can be found here:
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On top of the file system see for README.md.
There is detailed information about the provided samples.
Structure of the test_HALCON folder:
The folder contains the file system below. The three examples have a similar file structure.
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Description of samples:
test_halcon_aniso_test:
This sample is derived from find_aniso_shape_model.hdev (MVTec Software GmbH).
This sample is designed for testing the performance of the FindAnisoShapeModel() function.
With 50 loops a mean value of the consumed time of FindAnisoShapeModel() is evaluated.
OPTIONS:
NO_WINDOWS ; if defined no windows are shown
test_halcon_live_view:
This sample is derived from error_handling_timeout.cpp (MVTec Software GmbH).
This sample is designed for testing the live view of the iam platform.
OPTIONS:
SAVE_IMAGE ; if defined, a image is saved at the end of program
SET_EXPOSURE_TIME ; if defined, a exposure time is set
test_halcon_sw_trigger:
This sample is derived from error_handling_timeout.cpp (MVTec Software GmbH).
This sample is designed to show the software trigger functionality.
This sample aquires 100 software triggered frames.
No live view is implemented.
OPTIONS:
NONE
Execution of one of the provided HALCON examples
The binaries of the prebuild examples can be found in the ../bin
directory of each example project. The test_halcon_live_view
can be executed applying the commands below. The other two examples can be executed in the same way.
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The |
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The two other examples |
Compiling the provided HALCON examples
It is possible to compile the examples on a Linux Host system (e.g. by using the provided virtual machine image) or native on the camera (over OpenSSH) both using makefiles.
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For cross compiling, source profile_halcon: Test successful sourcing with: See then for: |
The next section describes the process of building the software trigger project as an example.
Build e.g. the software trigger example
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The steps described below are simillar in the native and the cross compile environment. |
Navigate into the makefile directory
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Remove the prebuild binary by executing the command make make clean
and build it from source by make
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For more details: The exact behaviour of both commands is defined in the |
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The compiled binary can be found in the ../bin
directory and can be executed as follow
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The other examples |
Building your own HALCON examples:
Prepare Makefiles
Possibly the easiest way is to copy the complete folder of one of the examples and rename it to your project name:
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cd /home/root/040530_test_halcon/cpp/ mkdir your_project_name cp -vr test_halcon_sw_trigger/* your_project_name |
Now edit and rename the given source file from the director your_project_name/source/
or simply replace it by your own cpp file.
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On will get a well-arranged file structure if you use the |
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cd /home/root/040530_test_halcon/cpp/your_project_name/makefiles/ make clean |
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For analysis of a monochrome image sensor it is important to use a monochrome pixel fomat. Therefore the given examples do all show how to configure the pixel format in source code. With reference to |
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try { acqdevice.SetFramegrabberParam("PixelFormat", "Mono8"); } catch (HException &except) { cout << "---> PixelFormat failed!\n"; cout << "---> Cause: " << except.ErrorMessage() << "(HALCON error " << except.ErrorCode() << ")\n"; cout << "---> CloseFramegrabber!\n"; acqdevice.CloseFramegrabber(); return except.ErrorCode(); } |
Edit the makefile as shown below in line 38 with regard to the naming of your cpp source file.
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Using make command
Navigate into the makefile directory and execute the make
command.
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You may need to remove your binaries which were built before when executing the command |
The binary can be found now in the ../bin
directory and can be executed by the commands below.
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Attachments
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🔍 References
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