Found the perfect answer finally
Going to post the whole page without a picture because the page is so old I'm afraid it will be deleted.
For me, I didn't bother making the references "do not copy". Also, I completely skipped stepped 4 since I couldn't add them. I wonder if it has to do with it already being added by Nuget Manager.
In the end, I could just pluck out the exe file and run it anywhere from my HDD.
Copied from the link above:
A while back I was working on a small C# WinForms application in
Visual Studio 2008. For the sake of simplifying the deployment process
of the application, having all of its components bundled up into one
exe file would make it much easier to manage. But–documentation and
tutorials on embedding dll files within an exe file were outdated,
incomplete, or simply didn’t work.
The best example out of the lot was an excerpt from a book, posted on
an MSDN blog by its author. Unfortunately, it didn’t work as presented
and didn’t include clear instructions on how or where to implement it.
However, it still offered a very good starting point. After some
research, trial, and error, and with the help of the Visual Studio
debugger, here’s the solution.
Note: This method allows you to place dll files into any subfolder or
series of subfolders within your project without needing to change any
code after the fact. If you wish to forgo the use of a subfolder
(placing the dll files in the project root), or use a hard-coded path
to your subfolder(s) containing the dll files instead, there are
alternative methods which would be more appropriate, but won’t be
covered here.
The dll files themselves need to be embedded in the Visual Studio
project, rather than just referenced. In your project, create a folder
in the project’s root to store the dll files (right-click on the
project name > add > new folder). I named mine “lib”.
Copy and paste your dll (and any accompanying support or definition
files) into the lib folder. For purposes of this tutorial, the example
dll used will be Cassia.
Next, include the dll as a project resource. Right-click on the
project name > properties (or Project menu > yourprojectname
Properties). Go to the “Resources” tab.
Select “Files”, as shown here:
Click “Add Resource”, change the file type to “all files”, and
navigate to the “lib” file where your dll is located. Select it and
click “Open”.
The dll file should now be included as a project resource:
Add a reference to the dll file in the project. In the Solution
Explorer pane, right-click on “References” > Add Reference (Or,
Project menu > Add Reference). Click the Browse tab, navigate to the
lib folder where the dll is located, select the dll file, and click
“Ok”. A reference to your dll will then appear under the references
folder in your project.
By default, compiled files and project references are copied to the
bin folder when the project is built. This will need to be prevented.
Under the “References” folder, select the reference to your dll file.
In the properties pane (or right-click > properties), look for the
attribute named “Copy to output directory”, and set the value to
false.
Next, select the dll file under the “lib” folder. In the properties
pane, look for the attribute “copy to output directory” and set the
value to “Do not copy”.
Also look for the attribute “Build Action” and set the value to
“Embedded Resource”. This indicates how the file will be treated and
accessed when the project is built.
Lastly, exclude extraneous files accompanying the dll file, such as
help files and XML definitions files–they are not needed in the
project when it is built. Right-click on the file (such as the XML
definitions file) and click “Exclude From Project”. Now it will not be
copied to the bin folder when the project is built.
In the code view for your executing WinForm, include the namespace
System.Reflections. This is important for some of the code responsible
for loading your embedded dll file(s).
In the code view for your executing WinForm, this code should be
placed in the constructor method (usually named the same as the form).
It needs to appear before the InitializeComponent() method: ```
AppDomain.CurrentDomain.AssemblyResolve += (sender, args) => {
string resourceName = new AssemblyName(args.Name).Name + ".dll";
string resource = Array.Find(this.GetType().Assembly.GetManifestResourceNames(), element
=> element.EndsWith(resourceName));
using (var stream = Assembly.GetExecutingAssembly().GetManifestResourceStream(resource))
{
Byte[] assemblyData = new Byte[stream.Length];
stream.Read(assemblyData, 0, assemblyData.Length);
return Assembly.Load(assemblyData);
} }; ```
Upon launching the exe, this code is responsible for detecting what
dll files are needed and are being referenced, and load them from
their embedded location.
In the code view for your executing WinForms application, you can
now include the dll file’s namespace(s).
In order to test everything, you will need to implement code from
the dll file’s namespace(s), so that the AssemblyResolve event is
triggered. However, if you include code from the dll’s namespace(s)
within the constructor, Application.Run() will throw a “file not
found” error for your dll file when the WinForms application is built
and executed.
To correct this, you will need to place any code using the dll file
namespace(s) in another method outside of constructor method. This is
because the event handler for the assembler cannot be located within
the same method that is calling it. It’s simple enough to do, but it’s
just one caveat to be aware of.