I haven't actually verified this by testing it or looking at the disassembled WinForms code, so I'm not sure if this answer will satisfy the bounty condition of "credible and/or official sources". But I think I'm pretty [in]credible, so I'll give it a shot anyway!
You're setting the icon associated with the window class. You're doing it with the
SetClassLong[Ptr] function and
GCL_HICONSM indices, but it has the same effect as setting it in the
WNDCLASSEX structure at the time that the class is registered. This sets the default icon for windows of that class.
However, individual windows can set their own icons, overriding the default icon provided by their class. You do this by sending the
WM_SETICON message, passing either
ICON_SMALL as the
wParam and a handle to the icon as the
lParam. Presumably, this is what WinForms is doing. That's why the "default" WinForms icon is appearing instead of the default window class icon you're assigning, because WinForms is setting its default icon using
WM_SETICON, not via the window class. The only thing "default" about the WinForms icon is that it's assigned automatically by the framework if you don't assign a different custom icon. It doesn't fit any other definition of "default"—certainly not one that might be used from a Win32 perspective.
Form.Icon property definitely uses
WM_SETICON to modify the icon, that's why it is working as expected. Now, you say you don't want to set the Icon property because
I really want to be able to provide two different icons created on the fly, not bind the Form.Icon to an icon on disk. That's why I am trying to use the P/Invoke code to specify the icons in memory.
But that doesn't mean you can't set the
Icon property. You can specify a handle to an icon (
HICON) here, just as well as you can if you use P/Invoke. All you need is the static
Icon.FromHandle method, which creates a new
Icon object from the specified
HICON. You then assign this
Icon object to the form's
You don't have to, though. You can use P/Invoke if you want:
const int WM_SETICON = 0x80;
ICON_BIG = 1;
ICON_SMALL = 0;
static extern IntPtr SendMessage(IntPtr hWnd,
Then, call it similar to what you have:
IntPtr hIcon32x32 = ...;
IntPtr hIcon16x16 = ...;
SendMessage(this.Handle, WM_SETICON, (IntPtr)IconType.ICON_BIG, hIcon32x32);
SendMessage(this.Handle, WM_SETICON, (IntPtr)IconType.ICON_SMALL, hIcon16x16);
Only one thing you're doing wrong: assuming that the "big" icon will always be 32x32 pixels and that the "small" icon will always be 16x16 pixels. At least, I'm assuming that you're doing this from the names of the variables. If so, that's an invalid assumption. Those are only the most common sizes. They are not guaranteed to be the same in all environments. This is why it's important to provide larger icons in your .ico file; for example, a 48x48 icon. Since you're setting the icons dynamically, Windows won't have access to a larger icon to downsample and you might end up with something really blurry and ugly when your 32x32 icon is scaled up.
To retrieve the actual sizes, call the
GetSystemMetrics function. The
SM_CYICON flags will tell you the X and Y dimensions, respectively, of the "big" icon. The
SM_CYSMICON flags will tell you the X and Y dimensions, respectively, of the "small" icon.
const int SM_CXICON = 11;
const int SM_CYICON = 12;
const int SM_CXSMICON = 49;
const int SM_CYSMICON = 50;
static extern int GetSystemMetrics(int smIndex);
static Size GetBigIconSize()
int x = GetSystemMetrics(SM_CXICON);
int y = GetSystemMetrics(SM_CYICON);
return Size(x, y);
static Size GetSmallIconSize()
int x = GetSystemMetrics(SM_CXSMICON);
int y = GetSystemMetrics(SM_CYSMICON);
return Size(x, y);