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问题:
I am using DllImport in my solution.
My problem is that I have two versions of the same DLL one built for 32 bit and another for 64 bit.
They both expose the same functions with identical names and identical signatures. My problem is that I have to use two static methods which expose these and then at run time use IntPtr size to determine the correct one to invoke.
private static class Ccf_32 { [DllImport(myDllName32)] public static extern int func1(); } private static class Ccf_64 { [DllImport(myDllName64)] public static extern int func1(); }
I have to do this because myDllName32 and myDllName64 must be constant and I have not found a way to set it at run time.
Does anyone have an elegant solution for this so I could get rid of the code duplication and the constant IntPtr size checking.
If I could set the file name, I would only have to check once and I could get rid of a ton of repeated code.
回答1:
You can probably achieve this with the #if keyword. If you define a conditional compiler symbol called win32, the following code will use the win32-block, if you remove it it will use the other block:
#if win32 private static class ccf_32 { [DllImport(myDllName32)] public static extern int func1(); } #else private static class ccf_64 { [DllImport(myDllName64)] public static extern int func1(); } #endif
This probably means that you can remove the class wrapping that you have now:
private static class ccf { #if win32 [DllImport(myDllName32)] public static extern int func1(); #else [DllImport(myDllName64)] public static extern int func1(); #endif }
For convenience, I guess you could create build configurations for controlling the compilation symbol.
回答2:
I prefer to do this by using the LoadLibrary call from kernel32.dll to force a particular DLL to load from a specific path.
If you name your 32-bit and 64-bit DLLs the same but placed them in different paths, you could then use the following code to load the correct based on the version of Windows you are running. All you need to do is call ExampleDllLoader.LoadDll() BEFORE any code referencing the ccf class is referenced:
private static class ccf { [DllImport("myDllName")] public static extern int func1(); } public static class ExampleDllLoader { [DllImport("kernel32", CharSet = CharSet.Unicode, SetLastError = true)] private extern static IntPtr LoadLibrary(string librayName); public static void LoadDll() { String path; //IntPtr.Size will be 4 in 32-bit processes, 8 in 64-bit processes if (IntPtr.Size == 4) path = "c:/example32bitpath/myDllName.dll"; else path = "c:/example64bitpath/myDllName.dll"; LoadLibrary(path); } }
回答3:
I know this is a really old question (I'm new - is it bad to answer an old question?), but I just had to solve this same problem. I had to dynamically reference a 32-bit or 64-bit DLL based on OS, while my .EXE is compiled for Any CPU.
You can use DLLImport, and you don't need to use LoadLibrary().
I did this by using SetDLLDirectory. Contrary to the name, SetDLLDirectory adds to the DLL search path, and does not replace the entire path. This allowed me to have a DLL with the same name ("TestDLL.dll" for this discussion) in Win32 and Win64 sub-directories, and called appropriately.
public partial class frmTest : Form { static bool Win32 = Marshal.SizeOf(typeof(IntPtr)) == 4; private string DLLPath = Win32 ? @"\Win32" : @"\Win64"; [DllImport("kernel32.dll", SetLastError = true)] public static extern bool SetDllDirectory(string lpPathName); [DllImport("TestDLL.dll", SetLastError = true)] static extern IntPtr CreateTestWindow(); private void btnTest_Click(object sender, EventArgs e) { string dllDir = String.Concat(Directory.GetCurrentDirectory(), DLLPath); SetDllDirectory(dllDir); IntPtr newWindow = CreateTestWindow(); } }
回答4:
Why not wrap them into a method?
private static class ccf_32_64 { private static class ccf_32 { [DllImport(myDllName32)] private static extern int func1(); } private static class ccf_64 { [DllImport(myDllName64)] private static extern int func1(); } public static int func1() { if (32bit) { return ccf_32.func1(); } else { return ccf_64.func1(); } } }
回答5:
One alternative option is to have both the 32- and 64-bit versions of the unmanaged DLL have the same name, but have them live in separate folders in your build output (say, x86\ and x64\).
Then, your installer or however else you're distributing this is updated so it knows to install the proper DLL for the platform it's installing on.
回答6:
you can create two methods and choose one in a runtime, so you can keep Any CPU
public static class Ccf { [DllImport(myDllName32)] private static extern int func32(); [DllImport(myDllName64)] private static extern int func64(); public static int func() { if(Environment.Is64BitProcess) { return func64(); } return func32(); }
}
回答7:
You can't do this the way you want. You need to think of the DllImport attribute as metadata that is used at compile time. As a result you can't change the DLL it is importing dynamically.
If you want to keep your managed code targeted to "Any CPU" then you either need to import both the 32-bit and 64-bit libraries wrapped as two different functions that you can call depending on the runtime environment or use some additional Win32 API calls to late-load the correct version of the unmanaged assembly at runtime and additional Win32 calls to execute the required methods. The drawback there is that you won't have compile time support for any of that type of code for type safety, etc.
回答8:
Hmm, I'm wondering if you could create an interface and then a class with the methods based on the 32 bit and 64 bit dlls.
I'm not sure if there is an explicit method to determine if you are running 64 bit, but the following might work: allow unsafe code and have an unsafe function that gets a pointer to some address and then determine whether the pointer is 4 or 8 bytes in size. Based on the result determine which implementation of the interface to create.
回答9:
You can determine whether you are running 64Bits or not by checking the size of the IntPtr type (which is called native int anyways). Then you can load the approriate DLL using an imported LoadLibraryW call, get the function pointer using GetProcAddress, and then, check out Marshal.GetDelegateForFunctionPointer
This not nearly as complicated as it might look like. You have to DllImport both LoadLibraryW and GetProcAddress.
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