According to MSDN wparam should hold the key code. The problem is, when pressing shift, the code is 16(VK_SHIFT), but I need to distinguish between VK_LSHIFT and VK_RSHIFT.

For VK_CONTROL, there seems to be a workaround:

if(wParam == VK_CONTROL) {
    if ( lParam&EXTENDED_KEYMASK )
        wParam = VK_RCONTROL;
        wParam = VK_LCONTROL;

However, the same won't work for VK_SHIFT:

if(wparam == VK_SHIFT) {
    if ( lParam&EXTENDED_KEYMASK )
        wParam = VK_RSHIFT;
        wParam = VK_LSHIFT;

In the latter example, it will just always assume LSHIFT.

  • It's been a while, but as far as I remember, older systems did not distinguish between left or right shift key presses. – DragonZero Apr 12 '13 at 8:37
  • 2
    Only GetKeyState() and GetAsyncKeyState() will distinguish between left and right key presses (from WinUser.h). – Anish Ramaswamy Apr 12 '13 at 8:46

To distinguish between the left and right versions of the Shift, Ctrl, or Alt keys, you have to use the MapVirtualKey() function or the 'extended key' bit in the lParam passed with the virtual key's message. The following function will perform that translation for you - just pass in the virtual keycode and the lParam from the message, and you'll get back the left/right specific virtual keycodes as appropriate:

WPARAM MapLeftRightKeys( WPARAM vk, LPARAM lParam)
    WPARAM new_vk = vk;
    UINT scancode = (lParam & 0x00ff0000) >> 16;
    int extended  = (lParam & 0x01000000) != 0;

    switch (vk) {
    case VK_SHIFT:
        new_vk = MapVirtualKey(scancode, MAPVK_VSC_TO_VK_EX);
    case VK_CONTROL:
        new_vk = extended ? VK_RCONTROL : VK_LCONTROL;
    case VK_MENU:
        new_vk = extended ? VK_RMENU : VK_LMENU;
        // not a key we map from generic to left/right specialized
        //  just return it.
        new_vk = vk;

    return new_vk;

If the virtual keycode passed in isn't one that maps to a left/right version, the original keycode is passed back unchanged. So you can just run the WM_KEYDOWN/WM_KEYUP/WM_SYSKEYDOWN/WM_SYSKEYUP message parameters through the function whenever you need to distinguish between the left and right variants.

By using MapVirtualKey() you don't need to know the lore about the left-shift and right-shift scancodes being 0x2a and 0x36 - the API takes care of that detail. And if they ever do happen to be different (not that that will ever really happen), Windows will be responsible for dealing with it, not you.

So in your WM_KEYDOWN/WM_KEYUP/WM_SYSKEYDOWN/WM_SYSKEYUP handlers you just have to add a line of code that looks like:

wparam = MapLeftRightKeys(wparam, lparam);

and the rest of your code can act on the left/right-specific VK codes as if the system message just gave them to you in the first place.

  • Thank you, kind sir! I've tested this, and it appears to work out just fine. It's also a lot cleaner and safer than the other suggestions, so I'm accepting this one. :) – cib Apr 16 '13 at 14:22

There's ancient history behind your question. The original IBM PC keyboard didn't have the right Alt and Ctrl keys. They got added later on the extended keyboard layout, the keyboard controller sends them with the 0xe0 prefix to the scan code to distinguish them as extended keys. But the original keyboard layout always had two shift keys so they have their own non-extended scan codes. Which is why your code doesn't work.

David's answer is a good way to solve your problem. But you actually can get it out of the message, those scan codes are cast in stone by the Windows logo requirements. Available in lParam, the left shift key has scan code 42, the right shift key is 54. No #define in the windows headers for them unfortunately, that makes it ugly.

  • Thanks for the history lesson. :) – cib Apr 12 '13 at 10:22
  • How do you get the scancode? unsigned char scancode = (unsigned char) (lParam >> 16); doesn't seem to work, or gives different numbers at least. Sorry, I haven't worked with the WinAPI much. – cib Apr 12 '13 at 10:53
  • The scan code is stored in bits 16-23, so it is (lParam & 0xff0000) >> 16. – Hans Passant Apr 12 '13 at 11:08
  • Actually, I'm getting 42 and 54 as scancodes for lshift and rshift respectively. A quick check on the net also agrees with those numbers. Could you update your answer? – cib Apr 12 '13 at 11:10
  • ... The more I look, the more contradicting values I get for these scancodes. Are you sure they're "cast in stone"? – cib Apr 12 '13 at 11:18

Call GetKeyState passing VK_LSHIFT or VK_RSHIFT.

  • Good idea, I'd obviously prefer something like the "hack" in my example, but if there's nothing like that, this'd definitely work. – cib Apr 12 '13 at 8:44
  • This is a very clean way to do it. Using the synchronous key state API. – David Heffernan Apr 12 '13 at 8:45
  • It's clean as long as we can assume that key states are always updated before the WM_KEYDOWN message is dispatched. I wasn't sure about that before, but you seem to be right, from what I can read further down in the GetKeyState docs. – cib Apr 12 '13 at 8:53
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    Actually, I just thought of a problem: If you're holding down the other shift key at the same time, there'd be no way to tell which of them was just pressed. Not that it's likely to come up, but the issue exists. – cib Apr 12 '13 at 8:58
  • @cib: What do you mean? If both shift keys are down, GetKeyState can tell you that are both were down. Or are you trying to determine in which order both Shift keys were pressed? – jamesdlin Apr 12 '13 at 9:27

"According to MSDN":


These left- and right-distinguishing constants are available to an application only through the GetKeyboardState, SetKeyboardState, GetAsyncKeyState, GetKeyState, and MapVirtualKey functions.

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