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Windows Coding Conventions

If you are new to Windows programming, it can be disconcerting when you first see a Windows program. The code is filled with strange type definitions like DWORD_PTR and LPRECT, and variables have names like hWnd and pwsz (called Hungarian notation). It's worth taking a moment to learn some of the Windows coding conventions.

The vast majority of Windows APIs consist of either functions or Component Object Model (COM) interfaces. Very few Windows APIs are provided as C++ classes. (A notable exception is GDI+, one of the 2-D graphics APIs.)

Typedefs

The Windows headers contain a lot of typedefs. Many of these are defined in the header file WinDef.h. Here are some that you will encounter often.

Integer types

Data type Size Signed?
BYTE 8 bits Unsigned
DWORD 32 bits Unsigned
INT32 32 bits Signed
INT64 64 bits Signed
LONG 32 bits Signed
LONGLONG 64 bits Signed
UINT32 32 bits Unsigned
UINT64 64 bits Unsigned
ULONG 32 bits Unsigned
ULONGLONG 64 bits Unsigned
WORD 16 bits Unsigned

As you can see, there is a certain amount of redundancy in these typedefs. Some of this overlap is simply due to the history of the Windows APIs. The types listed here have fixed size, and the sizes are the same in both 32-bit and 64-applications. For example, the DWORD type is always 32 bits wide.

Boolean Type

BOOL is a type alias for int, distinct from C++'s bool, and from other types that represent a Boolean value. The header file WinDef.h also defines two values for use with BOOL.

#define FALSE    0 
#define TRUE     1

Despite this definition of TRUE, however, most functions that return a BOOL type can return any non-zero value to indicate Boolean truth. Therefore, you should always write this:

// Right way.
if (SomeFunctionThatReturnsBoolean()) 
{ 
    ...
}

// or

if (SomeFunctionThatReturnsBoolean() != FALSE)
{ 
    ...
}

and not this:

if (result == TRUE) // Wrong!
{
    ... 
}

BOOL is an integer type, and is not interchangeable with C++'s bool.

Pointer Types

Windows defines many data types of the form pointer-to-X. These usually have the prefix P- or LP- in the name. For example, LPRECT is a pointer to a RECT, where RECT is a structure that describes a rectangle. The following variable declarations are equivalent.

RECT*  rect;  // Pointer to a RECT structure.
LPRECT rect;  // The same
PRECT  rect;  // Also the same.

On 16-bit architectures (16-bit Windows) there are 2 types of pointers, P for "pointer" and LP stands for "long pointer". Long pointers (also called far pointers) were needed to address memory ranges outside of the current segment. The LP prefix has been preserved to make it easier to port 16-bit code to 32-bit Windows. Today there is no distinction, and these pointer types are all equivalent. Avoid using these prefixes; or if you must use one, then use P.

Pointer Precision Types

The following data types are always the size of a pointer—that is, 32 bits wide in 32-bit applications, and 64 bits wide in 64-bit applications. The size is determined at compile time. When a 32-bit application runs on 64-bit Windows, these data types are still 4 bytes wide. (A 64-bit application cannot run on 32-bit Windows, so the reverse situation does not occur.)

  • DWORD_PTR
  • INT_PTR
  • LONG_PTR
  • ULONG_PTR
  • UINT_PTR

These types are used in situations where an integer might be cast to a pointer. They are also used to define variables for pointer arithmetic and to define loop counters that iterate over the full range of bytes in memory buffers. More generally, they appear in places where an existing 32-bit value was expanded to 64 bits on 64-bit Windows.

Hungarian Notation

Hungarian notation is the practice of adding prefixes to the names of variables, to give additional information about the variable. (The notation's inventor, Charles Simonyi, was Hungarian, hence its name).

In its original form, Hungarian notation gives semantic information about a variable, telling you the intended use. For example, i means an index, cb means a size in bytes ("count of bytes"), and rw and col mean row and column numbers. These prefixes are designed to avoid the accidental use of a variable in the wrong context. For example, if you saw the expression rwPosition + cbTable, you would know that a row number is being added to a size, which is almost certainly a bug in the code

A more common form of Hungarian notation uses prefixes to give type information—for example, dw for DWORD and w for WORD.

Note

The C++ Core Guidelines discourage prefix notation (for example, Hungarian notation). See NL.5: Avoid encoding type information in names. Internally, the Windows team no longer uses it. But its use remains in samples and documentation.

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Working with Strings