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I know I'm being lazy here and I should trawl the header files for myself, but what are the actual types for LPARAM and WPARAM parameters? Are they pointers, or four byte ints? I'm doing some C# interop code and want to be sure I get it working on x64 systems.

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    You could just right-click on LAPARAM and select 'Go to declaration'... Mar 25, 2010 at 12:34
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    @John - I could if I had a Visual C++ IDE, but I'm doing C# dev. Finding the actual definitions of these things is annoyingly time consuming if you're not working with a C++ IDE. I just had to manually follow a trail of several typedefs to find out what was at the end of HACMDRIVERID. If the MSDN documentation was properly hyperlinked it would have saved me a lot of bother.
    – Mark Heath
    Mar 25, 2010 at 14:19
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    @Mark: Then why is this question marked C++? Mar 25, 2010 at 15:26
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    Might be a lazy question... On the other hand it's the top answer at google when searching for wparam, so your not the only one that want a fast answer, and now everyone gets just that!
    – Markus
    Feb 25, 2013 at 9:03
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    @JesonPark: This question is tagged c#. Dec 21, 2014 at 16:47

6 Answers 6

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LPARAM is a typedef for LONG_PTR which is a long (signed 32-bit) on win32 and __int64 (signed 64-bit) on x86_64.

WPARAM is a typedef for UINT_PTR which is an unsigned int (unsigned 32-bit) on win32 and unsigned __int64 (unsigned 64-bit) on x86_64.

MSDN link

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    @Charles Bailey: maybe I'm misunderstanding you but when you say: "__int64 (signed 64-bit) on x86" don't you mean "on x86-64" or win64 or something? I take x86 to be 32-bit.
    – User
    Oct 20, 2011 at 19:12
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    @User: Yes, it's supposed to say x86_64 which is how Microsoft now refer to amd64.
    – CB Bailey
    Oct 20, 2011 at 20:43
  • Please notice that the description refers to long in C++. In C#, a long is a signed 64bit, also when compiling to 32bit. Dec 4, 2017 at 14:52
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These typedefs go back to the 16-bit days. Originally, LPARAM was a long (signed 32-bit) and WPARAM was a WORD (unsigned 16-bit), hence the W and L. Due to the common practice of passing casted pointers as message parameters, WPARAM was expanded to 32 bits on Win32, and both LPARAM and WPARAM were expanded to 64 bits on Win64.

In C#, you should use IntPtr for LPARAM and UIntPtr for WPARAM.

Note that despite the LP prefix, LPARAM is not a far pointer to an ARAM.

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  • Note that the term "word" in the field of computer means a data size a CPU can process at a time (such as the size of the register) and it's related to the bus size. OTOH, WORD is Microsoft term, and it was the same size as "word" in the 16-bit days, but now their sizes are different. DWORD(32bit), and QWORD(64bit) have fixed sizes, too. From Wikipedia: "Microsoft's Windows API maintains the programming language definition of WORD as 16 bits, despite the fact that the API may be used on a 32- or 64-bit x86 processor, where the standard word size would be 32 or 64 bits, respectively." Jul 28, 2022 at 11:26
  • WPARAM is 32-bit because handles in Win32 are 32-bit pointers, where they used to be 16-bit selectors. In 16-bit Windows, passing pointers was done via LPARAM. It didn't become significantly more prevalent in Win32, because it was already quite common. Jan 2, 2023 at 8:30
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LPARAM refers to a LONG_PTR and WPARAM refers to a UINT_PTR

On x86 they will be 4 bytes and on x64 they will be 8 bytes.

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Here:

typedef UINT_PTR WPARAM;
typedef LONG_PTR LPARAM;
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What you need my friend is http://www.pinvoke.net/

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    yes, its a useful site, although very mixed quality interop conversions
    – Mark Heath
    Mar 25, 2010 at 14:38
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c++ in linux and windows 64bit tested, the most simple solution I found:

#define WPARAM long long unsigned int
#define LPARAM long long int

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