How to get the applications installed in the system using c# code?
Iterating through the registry key "SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall" seems to give a comprehensive list of installed applications.
Aside from the example below, you can find a similar version to what I've done here.
This is a rough example, you'll probaby want to do something to strip out blank rows like in the 2nd link provided.
string registry_key = #"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall";
using(Microsoft.Win32.RegistryKey key = Registry.LocalMachine.OpenSubKey(registry_key))
{
foreach(string subkey_name in key.GetSubKeyNames())
{
using(RegistryKey subkey = key.OpenSubKey(subkey_name))
{
Console.WriteLine(subkey.GetValue("DisplayName"));
}
}
}
Alternatively, you can use WMI as has been mentioned:
ManagementObjectSearcher mos = new ManagementObjectSearcher("SELECT * FROM Win32_Product");
foreach(ManagementObject mo in mos.Get())
{
Console.WriteLine(mo["Name"]);
}
But this is rather slower to execute, and I've heard it may only list programs installed under "ALLUSERS", though that may be incorrect. It also ignores the Windows components & updates, which may be handy for you.
I wanted to be able to extract a list of apps just as they appear in the start menu. Using the registry, I was getting entries that do not show up in the start menu.
I also wanted to find the exe path and to extract an icon to eventually make a nice looking launcher. Unfortunately, with the registry method this is kind of a hit and miss since my observations are that this information isn't reliably available.
My alternative is based around the shell:AppsFolder which you can access by running explorer.exe shell:appsFolder and which lists all apps, including store apps, currently installed and available through the start menu. The issue is that this is a virtual folder that can't be accessed with System.IO.Directory. Instead, you would have to use native shell32 commands. Fortunately, Microsoft published the Microsoft.WindowsAPICodePack-Shell on Nuget which is a wrapper for the aforementioned commands. Enough said, here's the code:
// GUID taken from https://learn.microsoft.com/en-us/windows/win32/shell/knownfolderid
var FOLDERID_AppsFolder = new Guid("{1e87508d-89c2-42f0-8a7e-645a0f50ca58}");
ShellObject appsFolder = (ShellObject)KnownFolderHelper.FromKnownFolderId(FOLDERID_AppsFolder);
foreach (var app in (IKnownFolder)appsFolder)
{
// The friendly app name
string name = app.Name;
// The ParsingName property is the AppUserModelID
string appUserModelID = app.ParsingName; // or app.Properties.System.AppUserModel.ID
// You can even get the Jumbo icon in one shot
ImageSource icon = app.Thumbnail.ExtraLargeBitmapSource;
}
And that's all there is to it. You can also start the apps using
System.Diagnostics.Process.Start("explorer.exe", #" shell:appsFolder\" + appModelUserID);
This works for regular Win32 apps and UWP store apps. How about them apples.
Since you are interested in listing all installed apps, it is reasonable to expect that you might want to monitor for new apps or uninstalled apps as well, which you can do using the ShellObjectWatcher:
ShellObjectWatcher sow = new ShellObjectWatcher(appsFolder, false);
sow.AllEvents += (s, e) => DoWhatever();
sow.Start();
Edit: One might also be interested in knowing that the AppUserMoedlID mentioned above is the unique ID Windows uses to group windows in the taskbar.
2022: Tested in Windows 11 and still works great. Windows 11 also seems to cache apps that aren't installed per se, portable apps that don't need installing, for example. They appear in the start menu search results and can also be retrieved from shell:appsFolder as well.
I agree that enumerating through the registry key is the best way.
Note, however, that the key given, #"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall", will list all applications in a 32-bit Windows installation, and 64-bit applications in a Windows 64-bit installation.
In order to also see 32-bit applications installed on a Windows 64-bit installation, you would also need to enumeration the key #"SOFTWARE\WOW6432Node\Microsoft\Windows\CurrentVersion\Uninstall".
You can take a look at this article. It makes use of registry to read the list of installed applications.
public void GetInstalledApps()
{
string uninstallKey = #"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall";
using (RegistryKey rk = Registry.LocalMachine.OpenSubKey(uninstallKey))
{
foreach (string skName in rk.GetSubKeyNames())
{
using (RegistryKey sk = rk.OpenSubKey(skName))
{
try
{
lstInstalled.Items.Add(sk.GetValue("DisplayName"));
}
catch (Exception ex)
{ }
}
}
}
}
While the accepted solution works, it is not complete. By far.
If you want to get all the keys, you need to take into consideration 2 more things:
x86 & x64 applications do not have access to the same registry.
Basically x86 cannot normally access x64 registry. And some
applications only register to the x64 registry.
and
some applications actually install into the CurrentUser registry instead of the LocalMachine
With that in mind, I managed to get ALL installed applications using the following code, WITHOUT using WMI
Here is the code:
List<string> installs = new List<string>();
List<string> keys = new List<string>() {
#"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall",
#"SOFTWARE\WOW6432Node\Microsoft\Windows\CurrentVersion\Uninstall"
};
// The RegistryView.Registry64 forces the application to open the registry as x64 even if the application is compiled as x86
FindInstalls(RegistryKey.OpenBaseKey(RegistryHive.LocalMachine, RegistryView.Registry64), keys, installs);
FindInstalls(RegistryKey.OpenBaseKey(RegistryHive.CurrentUser, RegistryView.Registry64), keys, installs);
installs = installs.Where(s => !string.IsNullOrWhiteSpace(s)).Distinct().ToList();
installs.Sort(); // The list of ALL installed applications
private void FindInstalls(RegistryKey regKey, List<string> keys, List<string> installed)
{
foreach (string key in keys)
{
using (RegistryKey rk = regKey.OpenSubKey(key))
{
if (rk == null)
{
continue;
}
foreach (string skName in rk.GetSubKeyNames())
{
using (RegistryKey sk = rk.OpenSubKey(skName))
{
try
{
installed.Add(Convert.ToString(sk.GetValue("DisplayName")));
}
catch (Exception ex)
{ }
}
}
}
}
}
it's worth noting that the Win32_Product WMI class represents products as they are installed by Windows Installer. not every application use windows installer
however "SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall" represents applications for 32 bit. For 64 bit you also need to traverse "HKEY_LOCAL_MACHINE\SOFTWARE\Wow6432Node\Microsoft\Windows\CurrentVersion\Uninstall" and since not every software has a 64 bit version the total applications installed are a union of keys on both locations that have "UninstallString" Value with them.
but the best options remains the same .traverse registry keys is a better approach since every application have an entry in registry[including the ones in Windows Installer].however the registry method is insecure as if anyone removes the corresponding key then you will not know the Application entry.On the contrary Altering the HKEY_Classes_ROOT\Installers is more tricky as it is linked with licensing issues such as Microsoft office or other products.
for more robust solution you can always combine registry alternative with the WMI.
string[] registryKeys = new string[] {
#"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall",
#"SOFTWARE\Wow6432Node\Microsoft\Windows\CurrentVersion\Uninstall" };
public class InstalledApp
{
public string DisplayName { get; set; }
public string DisplayIcon { get; set; }
public string Version { get; set; }
public string InstallLocation { get; set; }
}
private void AddInstalledAppToResultView(RegistryHive hive, RegistryView view, string registryKey,Dictionary<string,InstalledApp> resultView)
{
using (var key = RegistryKey.OpenBaseKey(hive, view).OpenSubKey(registryKey))
{
foreach (string subKeyName in key.GetSubKeyNames())
{
using (RegistryKey subkey = key.OpenSubKey(subKeyName))
{
var displayName = subkey.GetValue("DisplayName");
var displayIcon = subkey.GetValue("DisplayIcon");
if (displayName == null || displayIcon == null)
continue;
var app = new InstalledApp
{
DisplayName = (string)displayName,
DisplayIcon = (string)displayIcon,
InstallLocation = (string)subkey.GetValue("InstallLocation"),
Version = (string)subkey.GetValue("DisplayVersion")
};
if(!resultView.ContainsKey(app.DisplayName))
{
resultView.Add(app.DisplayName,app);
}
}
}
}
}
void Main()
{
var result = new Dictionary<string,InstalledApp>();
var view = Environment.Is64BitOperatingSystem ? RegistryView.Registry64 : RegistryView.Registry32;
AddInstalledAppToResultView(RegistryHive.LocalMachine, view, registryKeys[0],result);
AddInstalledAppToResultView(RegistryHive.CurrentUser, view, registryKeys[0],result);
AddInstalledAppToResultView(RegistryHive.LocalMachine, RegistryView.Registry64, registryKeys[1],result);
Console.WriteLine("==============" + result.Count + "=================");
result.Values.ToList().ForEach(item => Console.WriteLine(item));
}
Iterate through "HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall" keys and check their "DisplayName" values.
Use Windows Installer API!
It allows to make reliable enumeration of all programs. Registry is not reliable, but WMI is heavyweight.
The object for the list:
public class InstalledProgram
{
public string DisplayName { get; set; }
public string Version { get; set; }
public string InstalledDate { get; set; }
public string Publisher { get; set; }
public string UnninstallCommand { get; set; }
public string ModifyPath { get; set; }
}
The call for creating the list:
List<InstalledProgram> installedprograms = new List<InstalledProgram>();
string registry_key = #"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall";
using (RegistryKey key = Registry.LocalMachine.OpenSubKey(registry_key))
{
foreach (string subkey_name in key.GetSubKeyNames())
{
using (RegistryKey subkey = key.OpenSubKey(subkey_name))
{
if (subkey.GetValue("DisplayName") != null)
{
installedprograms.Add(new InstalledProgram
{
DisplayName = (string)subkey.GetValue("DisplayName"),
Version = (string)subkey.GetValue("DisplayVersion"),
InstalledDate = (string)subkey.GetValue("InstallDate"),
Publisher = (string)subkey.GetValue("Publisher"),
UnninstallCommand = (string)subkey.GetValue("UninstallString"),
ModifyPath = (string)subkey.GetValue("ModifyPath")
});
}
}
}
}
As others have pointed out, the accepted answer does not return both x86 and x64 installs. Below is my solution for that. It creates a StringBuilder, appends the registry values to it (with formatting), and writes its output to a text file:
const string FORMAT = "{0,-100} {1,-20} {2,-30} {3,-8}\n";
private void LogInstalledSoftware()
{
var line = string.Format(FORMAT, "DisplayName", "Version", "Publisher", "InstallDate");
line += string.Format(FORMAT, "-----------", "-------", "---------", "-----------");
var sb = new StringBuilder(line, 100000);
ReadRegistryUninstall(ref sb, RegistryView.Registry32);
sb.Append($"\n[64 bit section]\n\n{line}");
ReadRegistryUninstall(ref sb, RegistryView.Registry64);
File.WriteAllText(#"c:\temp\log.txt", sb.ToString());
}
private static void ReadRegistryUninstall(ref StringBuilder sb, RegistryView view)
{
const string REGISTRY_KEY = #"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall";
using var baseKey = RegistryKey.OpenBaseKey(RegistryHive.LocalMachine, view);
using var subKey = baseKey.OpenSubKey(REGISTRY_KEY);
foreach (string subkey_name in subKey.GetSubKeyNames())
{
using RegistryKey key = subKey.OpenSubKey(subkey_name);
if (!string.IsNullOrEmpty(key.GetValue("DisplayName") as string))
{
var line = string.Format(FORMAT,
key.GetValue("DisplayName"),
key.GetValue("DisplayVersion"),
key.GetValue("Publisher"),
key.GetValue("InstallDate"));
sb.Append(line);
}
key.Close();
}
subKey.Close();
baseKey.Close();
}
Your best bet is to use WMI. Specifically the Win32_Product class.
Might I suggest you take a look at WMI (Windows Management Instrumentation).
If you add the System.Management reference to your C# project, you'll gain access to the class `ManagementObjectSearcher', which you will probably find useful.
There are various WMI Classes for Installed Applications, but if it was installed with Windows Installer, then the Win32_Product class is probably best suited to you.
ManagementObjectSearcher s = new ManagementObjectSearcher("SELECT * FROM Win32_Product");
I used Nicks approach - I needed to check whether the Remote Tools for Visual Studio are installed or not, it seems a bit slow, but in a seperate thread this is fine for me. - here my extended code:
private bool isRdInstalled() {
ManagementObjectSearcher p = new ManagementObjectSearcher("SELECT * FROM Win32_Product");
foreach (ManagementObject program in p.Get()) {
if (program != null && program.GetPropertyValue("Name") != null && program.GetPropertyValue("Name").ToString().Contains("Microsoft Visual Studio 2012 Remote Debugger")) {
return true;
}
if (program != null && program.GetPropertyValue("Name") != null) {
Trace.WriteLine(program.GetPropertyValue("Name"));
}
}
return false;
}
My requirement is to check if specific software is installed in my system. This solution works as expected. It might help you. I used a windows application in c# with visual studio 2015.
private void Form1_Load(object sender, EventArgs e)
{
object line;
string softwareinstallpath = string.Empty;
string registry_key = #"SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall";
using (var baseKey = Microsoft.Win32.RegistryKey.OpenBaseKey(RegistryHive.LocalMachine, RegistryView.Registry64))
{
using (var key = baseKey.OpenSubKey(registry_key))
{
foreach (string subkey_name in key.GetSubKeyNames())
{
using (var subKey = key.OpenSubKey(subkey_name))
{
line = subKey.GetValue("DisplayName");
if (line != null && (line.ToString().ToUpper().Contains("SPARK")))
{
softwareinstallpath = subKey.GetValue("InstallLocation").ToString();
listBox1.Items.Add(subKey.GetValue("InstallLocation"));
break;
}
}
}
}
}
if(softwareinstallpath.Equals(string.Empty))
{
MessageBox.Show("The Mirth connect software not installed in this system.")
}
string targetPath = softwareinstallpath + #"\custom-lib\";
string[] files = System.IO.Directory.GetFiles(#"D:\BaseFiles");
// Copy the files and overwrite destination files if they already exist.
foreach (var item in files)
{
string srcfilepath = item;
string fileName = System.IO.Path.GetFileName(item);
System.IO.File.Copy(srcfilepath, targetPath + fileName, true);
}
return;
}
I created an application to run, but build an External Tool from the application for Visual Studio. Up until 15.4.0 the application worked fine, but they modified the registry. Based on Microsoft's changes, the External Tools are saved under this sub key:
SOFTWARE\Microsoft\VisualStudio\14.0_Config\External Tools
When you observe the key, you clearly see folders (sub keys) of tools, Guid, Error Lookup, and a couple others that are included with Visual Studio. The issue though, if you manually create the tool in Visual Studio the key information is dumped directly to the root External Tool key.
So if I do either of these approaches:
var user = RegistryKey.OpenBaseKey(RegistryHive.CurrenUser, RegistryView.Default);
var tools = user.OpenSubKey(#"SOFTWARE\Microsoft\VisualStudio\14.0_Config\External Tools", true);
var path = Environment.GetCommandLineArgs()[0];
tools.SetValue("ToolArg", "$(ItemPath)");
tools.SetValue("ToolCmd", path);
tools.SetValue("ToolDir", String.Empty);
tools.SetValue("ToolOpt", 0x12);
tools.SetValue("ToolsSourceKey", String.Empty);
tools.SetValue("ToolTitle", "My Tool");
var user = RegistryKey.OpenBaseKey(RegistryHive.CurrenUser, RegistryView.Default);
var tools = user.OpenSubKey(#"SOFTWARE\Microsoft\VisualStudio\14.0_Config\External Tools", true);
var sub = tools.CreateSubKey("MyTool");
var path = Environment.GetCommandLineArgs()[0];
sub.SetValue("ToolArg", "$(ItemPath)");
sub.SetValue("ToolCmd", path);
sub.SetValue("ToolDir", String.Empty);
sub.SetValue("ToolOpt", 0x12);
sub.SetValue("ToolsSourceKey", String.Empty);
sub.SetValue("ToolTitle", "My Tool");
The tool doesn't appear in the list, or toolbar. Is there something different for Visual Studio 2017 15.5.* that makes this no longer work from code? To make matters worst, the key doesn't always appear when created in Visual Studio 2017 manually.
In Visual Studio 2017, External Tools are stored in a private registry hive in the user's local application data folder. If you run Sysinternals Process Monitor tool, you'll see Visual Studio reading/writing to a key that starts with \REGISTRY\A\ - that's how you know it's a private registry hive. To update them, you will need to load that registry hive by P/Invoking RegLoadAppKey and attaching to the resulting handle. An example of that can be found here:
RegLoadAppKey working fine on 32-bit OS, failing on 64-bit OS, even if both processes are 32-bit
The title may seem misleading at first, but the example given in the question shows exactly how to call RegLoadAppKey and open a sub key underneath.
The next thing you'll have to contend with is finding the private registry hive. Visual Studio stores the private registry hive in a sub folder of the user's local application data folder. The sub folder name will start with Microsoft\VisualStudio\15.0_ and will then be followed by a 32-bit hexadecimal value. I'm not really sure what that value is, or how to gracefully discover it. It's different for each user. My approach was to select the newest folder that starts with "15.0" and assume it's correct. If someone has a better way to identify this folder, I would love to see it.
I've dubbed the combination of version number and hexadecimal string a "version tag". You'll need to keep track of it, because the version tag will be used again as a sub key in the private registry hive.
Putting it all together, I created a VisualStudioContext class that locates the private registry hive and loads the root key.
public class VisualStudioContext : IDisposable
{
public string VersionTag { get; }
public string UserFolder { get; }
public string PrivateRegistryPath { get; }
public SafeRegistryHandle RegistryHandle { get; }
public RegistryKey RootKey { get; }
private static readonly Lazy<VisualStudioContext> LazyInstance = new Lazy<VisualStudioContext>(() => new VisualStudioContext());
public static VisualStudioContext Instance => LazyInstance.Value;
private VisualStudioContext()
{
try
{
string localAppDataFolder = Environment.GetFolderPath(Environment.SpecialFolder.LocalApplicationData);
string vsFolder = $"{localAppDataFolder}\\Microsoft\\VisualStudio";
var vsFolderInfo = new DirectoryInfo(vsFolder);
DateTime lastDateTime = DateTime.MinValue;
foreach (DirectoryInfo dirInfo in vsFolderInfo.GetDirectories("15.0_*"))
{
if (dirInfo.CreationTime <= lastDateTime)
continue;
UserFolder = dirInfo.FullName;
lastDateTime = dirInfo.CreationTime;
}
if (UserFolder == null)
throw new Exception($"No Visual Studio folders found in \"{vsFolder}\"");
}
catch (Exception ex)
{
throw new Exception("Unable to open Visual Studio folder", ex);
}
VersionTag = Path.GetFileName(UserFolder);
PrivateRegistryPath = $"{UserFolder}\\privateregistry.bin";
int handle = RegistryNativeMethods.RegLoadAppKey(PrivateRegistryPath);
RegistryHandle = new SafeRegistryHandle(new IntPtr(handle), true);
RootKey = RegistryKey.FromHandle(RegistryHandle);
}
public void Dispose()
{
RootKey?.Close();
RegistryHandle?.Dispose();
}
public class Exception : ApplicationException
{
public Exception(string message) : base(message)
{
}
public Exception(string message, Exception innerException) : base(message, innerException)
{
}
}
internal static class RegistryNativeMethods
{
[Flags]
public enum RegSAM
{
AllAccess = 0x000f003f
}
private const int REG_PROCESS_APPKEY = 0x00000001;
// approximated from pinvoke.net's RegLoadKey and RegOpenKey
// NOTE: changed return from long to int so we could do Win32Exception on it
[DllImport("advapi32.dll", SetLastError = true)]
private static extern int RegLoadAppKey(String hiveFile, out int hKey, RegSAM samDesired, int options, int reserved);
public static int RegLoadAppKey(String hiveFile)
{
int hKey;
int rc = RegLoadAppKey(hiveFile, out hKey, RegSAM.AllAccess, REG_PROCESS_APPKEY, 0);
if (rc != 0)
{
throw new Win32Exception(rc, "Failed during RegLoadAppKey of file " + hiveFile);
}
return hKey;
}
}
}
You can use it open the External Tools key like this:
using (var context = VisualStudioContext.Instance)
{
RegistryKey keyExternalTools =
context.RootKey.OpenSubKey($"Software\\Microsoft\\VisualStudio\\{context.VersionTag}\\External Tools", true);
// Do something interesting here
}
It seems you can register external tools in VS 2017 and 2019 by adding a <UserCreatedTool> in the <ExternalTools> section of the Settings/CurrentSettings.vssettings file in the local %AppData% directory of the respective VS version.
Simply create an external tool in VS manually, and search for the entry you created.
This describes how I found out ;)
I develop an outlook add-in using Visual studio 2013 and Add-in express v.7.7.4087.
I have to deal with multiple email accounts (stores). Please see following snapshot and code
private void timerSendFromDraftsFolder_Tick(object sender, EventArgs e)
{
Outlook.Stores stores = null; // CC and OL accounts,
Outlook.Store store = null;
Outlook.MAPIFolder rootFolder = null;
Outlook.Folders rootFolderFolders = null;
Outlook.MAPIFolder draftsFolder = null;
Outlook.Items items = null;
Outlook.MailItem mailItem = null;
bool itemSent = true;
bool allMailItemsSent = true;
try
{
if (Helper.IsOnline())
{
Debug.DebugMessage(3, "AddinModule : timerSendFromSaleswingsFolder_Tick : Fired");
string version = OutlookApp.Version;
if (String.Compare(version, "13") > 0)
{
stores = Globals.ObjNS.Stores;
for (int i = 1; i <= stores.Count; i++)
{
try
{
store = stores[i];
string storeName = store.DisplayName;
if (store.ExchangeStoreType != Outlook.OlExchangeStoreType.olExchangePublicFolder)
{
rootFolder = store.GetRootFolder();
rootFolderFolders = rootFolder.Folders;
if (rootFolderFolders != null)
{
try
{
draftsFolder = rootFolderFolders["drafts"]; // not working for "xxxxxxx#outlook.com" type email accounts
}
catch (Exception )
{
Debug.DebugMessage(3, "AddinModule : timerSendFromSaleswingsFolder_Tick : Excep");
draftsFolder = rootFolderFolders["Drafts (This computer only)"];
}
}
I need to access the drafts folder of each mail account, but the email account of “xxxxxxx#outlook.com“ shows drafts folder as "Drafts (This computer only)" instead of "drafts".
I works fine for me. But I don’t like to introduce this to the production version. Becaues I think this will not work for non-English environments.
Can you please suggest me a solution for that
In redemption (http://www.dimastr.com/redemption/home.htm), is there a solution for that?
P.S
I have used this code in some of my projects
oFolder = oNS.GetDefaultFolder(Outlook.OlDefaultFolders.olFolderDrafts);
But it gives the drafts folder of primary mail account. In my code there is no such method for the “store” object here.
Use the GetDefaultFolder method of the Store class instead. It allows to get a Folder object that represents the default folder in the store and that is of the type specified by the FolderType argument.
This method is similar to the GetDefaultFolder method of the NameSpace object. The difference is that this method gets the default folder on the delivery store that is associated with the account, whereas NameSpace.GetDefaultFolder returns the default folder on the default store for the current profile.
The Redemption library provides the GetDefaultFolder method of the RDOStore class.
GetSharedDefaultFolder is the way to go - call Namespace.CreateRecipient / Recipient.Resolve / Namespace.GetSharedDefaultFolder.
I am publishing a Windows project and on click on form I am installing another setup to install.
I am not getting the current Application Startup Path on clickevent on button.
On debug and Release it is showing the right path but after publishing it is giving
C:\Users\username\AppData\Local\Apps\2.0 path
Already I have used :
Application.StartupPath
Application.Executablepath
Path.Combine(Path.GetDirectoryName(System.Reflection.Assembly.GetEntryAssembly().Location))
System.IO.Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().GetName().CodeBase))
Path.Combine(Directory.GetCurrentDirectory())
But of no use it always show
C:\Users\username\AppData\Local\Apps\2.0 path
You are getting that path because it's the one used by ClickOnce. ClickOnce applications are installed under the profile of the user who installed them.
Edit :
Method 1:
Here's a way to get the path where your application was installed from (works only if your application was installed) (parts of this were written by #codeConcussion) :
// productName is name you assigned to your app in the
// Project properties -> Publish -> Publish Settings
public static string GetInstalledFromDir(string productName)
{
using (var key = Registry.CurrentUser.OpenSubKey(#"Software\Microsoft\Windows\CurrentVersion\Uninstall"))
{
if (key != null)
{
var appKey = key.GetSubKeyNames().FirstOrDefault(x => GetValue(key, x, "DisplayName") == productName);
return appKey == null ? null : GetValue(key, appKey, "UrlUpdateInfo");
}
}
return null;
}
private static string GetValue(RegistryKey key, string app, string value)
{
using (var subKey = key.OpenSubKey(app))
{
if (subKey == null || !subKey.GetValueNames().Contains(value))
{
return null;
}
return subKey.GetValue(value).ToString();
}
}
Here's how to use it :
Uri uri = new Uri(GetInstalledFromDir("ProductName"));
MessageBox.Show(Path.GetDirectoryName(HttpUtility.UrlDecode(uri.AbsolutePath)));
Method 2 :
You can also try
System.Deployment.Application.ApplicationDeployment.CurrentDeployment.ActivationUri
But I think this one works only if your app was installed from the internet
try this:
Process.GetCurrentProcess().MainModule.FileName
BTW, is it ClickOnce deployment? If so then the directory you are getting looks about right.