We create another custom window class that does `WM_PAINT` and handles input events thereof.
For this mockup, I'll extract the message handling into its own function and assume I can call Windows API functions and use their types and constants as normal. For `WM_PAINT` both `wparam` and `lparam` are unused.
```go
func repaint(s *sysData) HRESULT {
var xrect RECT
var ps PAINTSTRUCT
// TODO send TRUE if we want to erase the clip area
if GetUpdateRect(s.hwnd, &xrect, FALSE) == 0 {
// no update rect, so we're done
return 0
}
hdc, err := BeginPaint(s.hwnd, &ps)
if hdc == 0 { // failure
panic(fmt.Errorf("error beginning Area repaint: %v", err))
(`GpBitmap` extends `GpImage`.) The only problem is the pixel format: the most appropriate one is `PixelFormat32bppARGB`, which is not premultiplied, but the components are in the wrong order... (specifically in BGRA order) (there is no RGBA pixel format in any bit width) (TODO `GdipDisposeImage` seems wrong since it bypasses `~Bitmap()` and goes right for `~Image()` but I don't see an explicit `~Bitmap()`...)
Upon further review, there really doesn't seem to be any way around it: we have to shuffle the image data around. We seem to be in good company: [go.wde needs to do so as well](https://github.com/skelterjohn/go.wde/blob/master/win/dib_windows.go). But you can't be too sure...
For scrolling, the custom window class will come with scrollbars. We are reponsible for scrolling ourselves:
- we handle `WM_HSCROLL` and `WM_VSCROLL` messages, extrapolating the scroll data
- we can use `GetScrollInfo` to get the current position, but the example code on MSDN adjusts it manually and then calls `ScrollWindow` then `UpdateWindow` (to accelerate redraw) and then `SetScrollInfo` (to update the scroll info)
- line size is 1, page size is visible dimension
- call `SetScrollInfo` on control resizes, passing in a `SCROLLINFO` which indicates the above, does not include `SIF_DISABLENOSCROLL` so scrollbars are auto-hidden, and does not change either thumb position (`nPos` and `nTrackPos`)
- the clipping rectangle must take scrolling into account; `GetScrollInfo` and add the position to the sent-out `cliprect` (only; still need regular `cliprect` for drawing) with `cliprect.Add()`
- we should probably cache the scroll position and window sizes so we wouldn't need to call those respective functions each `WM_PAINT` and `WM_HSCROLL`/`WM_VSCROLL`, respectively
- TODO will resizing a window with built-in scrollbars/adjusting the page size set the thumb and signal repaint properly?
TODO note http://msdn.microsoft.com/en-us/library/windows/desktop/bb775501%28v=vs.85%29.aspx#win_class for information on handling some key presses, tab switch, etc. (need to do this for the ones below too)
TODO standard scrollbars cannot be controlled by the keyboard; either we must provide an option for doing that or allow scrolling ourselves (the `myAreaGoroutine` would read the keyboard events and scroll manually, in the same way)
[Example 1 on this page](https://developer.gnome.org/gdk-pixbuf/2.26/gdk-pixbuf-The-GdkPixbuf-Structure.html) indicates the pixels are in RGBA order, which is good.
12:27 andlabs Hi. Is the pixel data fed to gdk-pixbuf alpha premultiplied, not alpha premultiplied, or is that settable? I need to feed it data from a source that doesn't know about the underlying rendering system. Thanks.
12:29 *** KaL_out is now known as KaL
12:29 desrt andlabs: pixbuf is non-premultiplied
12:30 mclasen sad that this information is not obvious in the docs
12:30 andlabs there is no information about premultiplied in any of the GTK+ documentation, period
12:30 desrt andlabs: we have a utility function to copy it to a cairo surface that does the multiply for you...
12:30 andlabs (in versions compatible with ubuntu 12.04, at least)
12:31 andlabs good to know, thanks
12:31 desrt andlabs: i think it's because gdkpixbuf existed before premultiplication was a wide practice
12:31 desrt so at the time nobody would have asked the question
`GtkDrawingArea` is not natively scrollable, so we use `gtk_scrolled_window_add_with_viewport()` to add it to a `GtkScrolledWindow` with an implicit `GtkViewport` that handles scrolling for us. Otherwise, it's like what we did for Listbox.
TODO "Note that GDK automatically clears the exposed area to the background color before sending the expose event" decide what to do for the other platforms
For this one we **must** create a subclass of `NSView` that overrides the drawing and keyboard/mouse event messages.
The drawing message is `-[NSView drawRect:]`, which just takes the `NSRect` as an argument. So we already need to use `bleh_darwin.m` to grab the actual `NSRect` and convert it into something with a predictable data type before passing it back to Go. If we do this:
```go
//export our_drawRect
func our_drawRect(self C.id, rect C.struct_xrect) {
```
we can call `our_drawRect()` from this C wrapper:
```objective-c
extern void our_drawRect(id, struct xrect);
void _our_drawRect(id self, SEL sel, NSRect r)
{
struct xrect t;
t.x = (int64_t) s.origin.x;
t.y = (int64_t) s.origin.y;
t.width = (int64_t) s.size.width;
t.height = (int64_t) s.size.height;
our_drawRect(self, t);
}
```
This just leaves `our_drawRect` itself. For this mockup, I will use "Objective-Go":
bitmapFormat:NSAlphaNonpremultipliedBitmapFormat // this is where the flag for placing alpha first would go if alpha came first; the default is alpha last, which is how we're doing things (otherwise the docs say "Color planes are arranged in the standard order—for example, red before green before blue for RGB color.")
Due to the size of the `NSBitmapImageRep` constructor, I might just have another C function that performs the `NSBitmapImageRep` constructor using the `image.NRGBA` fields.
Back to our custom window prodcedure again. We receive:
```
WM_LBUTTONDBLCLK
WM_LBUTTONDOWN
WM_LBUTTONUP
WM_MBUTTONDBLCLK
WM_MBUTTONDOWN
WM_MBUTTONUP
WM_RBUTTONDBLCLK
WM_RBUTTONDOWN
WM_RBUTTONUP
WM_XBUTTONDBLCLK
WM_XBUTTONDOWN
WM_XBUTTONUP
```
which specify the left, middle, right, and up to two additional mouse buttons.
Each of these returns the coordinates in the LPARAM and the modifier flags in the WPARAM:
```
MK_CONTROL
MK_LBUTTON
MK_MBUTTON
MK_RBUTTON
MK_SHIFT
MK_XBUTTON1
MK_XBUTTON2
```
where the button modifier flags allow handling simultaneous clicks. The XBUTTON messages also use WPARAM to encode which button was pressed.
In order to register double-clicks, we have to specify the `CS_DBLCLKS` style when calling `RegisterClass`. A mouse click event will always be sent before a double-click event.
That just leaves mouse moves. All mouse moves are handled with `WM_MOUSEMOVE`, which returns the same WPARAM and LPARAM format as above (so we use the WPARAM to see which mouse buttons were held during a move).
All of these messages expect us to return 0, except the XBUTTON messages, which expect us to return TRUE.
MSDN says to use macros to get the position and XBUTTON information:
```c
/* for all messages */
xPos = GET_X_LPARAM(lParam);
yPos = GET_Y_LPARAM(lParam);
/* for XBUTTON messages */
fwKeys = GET_KEYSTATE_WPARAM (wParam);
fwButton = GET_XBUTTON_WPARAM (wParam);
```
We will need to reimplement these macros ourselves.
All messages are supported on at least Windows 2000, so we're good using them all.
There does not seem to be an equivalent to the mouse entered signal provided by GTK+ and Cocoa. There *is* an equivalent to mouse left (`WM_MOUSELEAVE`), but it requires tracking support, which has to be set up in special ways.
Finally, the Alt key has to be retrieved a differnet way. [This](http://stackoverflow.com/questions/9205534/win32-mouse-and-keyboard-combination) says we can use `GetKeyState(VK_MENU)`.
- button ID of event, with order 1 - left, 2 - middle, 3 - right
`GdkEventCrossing` tells us
- whether this was an enter or a leave
- x and y positions of event
- "crossing mode" and "notification type" [not sure if I'll need these - https://developer.gnome.org/gdk3/stable/gdk3-Event-Structures.html#GdkEventCrossing]
(thanks to Daniel_S and daniels (two different people) in irc.gimp.net/#gtk+) (note: the GDK 3.4 documentation has a rather complex description of what `gdk_keymap_add_virtual_modifiers()` does; the latest version has a much better description)
...almost. `NSEvent` doesn't record mouse position directly, but rather relative to the view's parent window. The NSView Programming Guide says we can do
For the button number, there's `-[e buttonNumber]`. The exact number is described below. The reference also says "This method is intended for use with the NSOtherMouseDown, NSOtherMouseUp, and NSOtherMouseDragged events, but will return values for NSLeftMouse... and NSRightMouse... events also.", so since we build our class at runtime, we can just assign the same implementation function to each type of event (the `sel` argument will differ, but since we can just get the button number directly we don't have to worry).
The click count is specified in `-[e clickCount]`, so we can distinguish between single-click and double-click easily. Note "Returns 0 for a mouse-up event if a time threshold has passed since the corresponding mouse-down event. This is because if this time threshold passes before the mouse button is released, it is no longer considered a mouse click, but a mouse-down event followed by a mouse-up event.". The Event Programing Guide says "Find out how many mouse clicks occurred in quick succession (clickCount); multiple mouse clicks are conceptually treated as a single mouse-down event within a narrow time threshold (although they arrive in a series of mouseDown: messages). As with modifier keys, a double- or triple-click can change the significance of a mouse event for an application. (See Listing 4-3 for an example.)" which indicates that a click event is sent before a double-click.
`-[e modifierFlags]` gives us the modifier flags. The flag reference is https://developer.apple.com/library/mac/documentation/Cocoa/Reference/ApplicationKit/Classes/NSEvent_Class/Reference/Reference.html#//apple_ref/doc/uid/20000016-SW14 - no info on left/right keys seems to be provided.
The first held mouse button could be handled by the drag events. The rest can be grabbed with `+[NSEvent pressedMouseButtons]` (thanks to Psy| in irc.freenode.net/#macdev for confirming)
Also according to Psy|, the bit order of `pressedMouseButtons` corresponds to the `buttonNumber`, so 0 is the left button, 1 is the right button, 2 is the middle button, and so on.
// (TODO "If additional buttons are supported, they will be returned with 4 being the first additional button (XBUTTON1 on Windows), 5 being the second (XBUTTON2 on Windows), and so on."?) (TODO get the user-facing name for XBUTTON1/2; find out if there's a way to query available button count)
> Note: all messages here except `WM_UNICHAR` work on Windows 2000 and newer and require us to return 0 on handled. All messages (including `WM_UNICHAR` take the same parameter format.
Windows distinguishes between typical user input and "system keys"; system keys constitute three conditions:
* Alt+(any key)
* F10 (in some cases? *TODO*)
* any key when there is no active window on screen
System keys are special: if we don't handle them explicitly, we have to send them up to the `DefWindowProc()`. If we don't, things like Alt+Tab (!) won't be handled.
The `TranslateMessage()` call that appears in the message loop takes key down events, and if possible, converts them into Unicode character requests, handling IME properly. The key down events are not removed; new character events are inserted instead. There does not seem to be a good way to tell if one (or more! different parts of the docs say different things about how many character events come in per key down event **TODO**) has been inserted except with `PeekMessage()`, as `TranslateMessage()` always returns nonzero if a key down event is passed in, regardless of whether or not it was converted.
There's a lot of information in the high word of the LPARAM, but none of that is really important (and is useless for the character messages because of multi-character codes; it'll just match the last key down event). GLFW does use bit 24, the "extended key" bit, to differentiate between left and right keys (which is documented0, however there are some catches that we'll get to in a bit. For reference, though, the docs say
> For enhanced 101- and 102-key keyboards, extended keys are the right ALT and the right CTRL keys on the main section of the keyboard; the INS, DEL, HOME, END, PAGE UP, PAGE DOWN and arrow keys in the clusters to the left of the numeric keypad; and the divide (/) and ENTER keys in the numeric keypad. Some other keyboards may support the extended-key bit in the lParam parameter.
I'm not entirely sure if this is the case, but GLFW seems to think Windows sends the base `VK_xxx` codes on keys that have both left and right equivalents, not the dedicated `VK_Lxxx`/`VK_Rxxx` codes. (Compatibility?) For most cases, the extended key bit mentioned above is sufficient to differentiate. There are two exceptions
* Shift requires [checking the hardware scancode](https://github.com/glfw/glfw/blob/master/src/win32_window.c#L182) (which, fortunately, Windows provides a way to find out from the virtual key code at runtime)
* left Control: Windows apparently does not send a single key code on the ["AltGr" key found on some keyboards](https://en.wikipedia.org/wiki/AltGr_key), but rather both a left Control and a right Alt at the same time; [fortunately we can check](https://github.com/glfw/glfw/blob/master/src/win32_window.c#L199)
Key release also has some snags that the GLFW sources point out:
* The Shift key differentiation in Windows is broken: [only one key up is sent, even if two Shift keys were released](https://github.com/glfw/glfw/blob/master/src/win32_window.c#L538)
Finally, Windows XP adds `WM_UNICHAR`, another key down event. According to the GLFW sources, Windows itself doesn't use this, but some IME drivers do. WPARAM (which is 32-bit now) stores the UTF-32 representation of a requested character, and LPARAM works as usual.
* If WPARAM is the special constant `UNICODE_NOCHAR`, we return `TRUE` if we handle this event, and `FALSE` otherwise (`DefWindowProc()` returns `FALSE`). This is how drivers will tell if we support `WM_UNICHAR` at all.
* Otherwise, we handle the character and return `FALSE`.
> Note: GLFW doesn't really help here since we're using GDK for event handling and GLFW uses X11 directly. (I don't want to call out to X11 functions because of Wayland support; hell I don't know if GDK even provides the X11 key code!)
There are two events here: `key-press-event` and `key-release-event`. These take the same shared event function prototype as the mouse events above, with the `GdkEvent` actual type being `GdkEventKey`. This type tells us:
- the modifier flags, just like with mouse events (even mouse buttons!)
- the GDK virtual key code, which aren't explicitly listed in the documentation; the docs say to [check `<gdk/gdkkeysyms.h>` instead](https://git.gnome.org/browse/gtk+/tree/gdk/gdkkeysyms.h?h=gtk-3-4).
- The only way to properly handle IME with GTK+ is to use GTK+ input methods via `GtkIMContext`, however there does not seem to be a way to get available contexts, only make new ones or pull the context from an existing `GtkEntry`/`GtkTextView`. (You [can get a list of available context names](https://developer.gnome.org/gtk3/3.4/GtkSettings.html#GtkSettings--gtk-im-module), but that's as much as I could find, and even then this can be `NULL`.) *TODO*
Now, as with GTK+, I lie: there is a way to get a raw key code: `[e keyCode]`. Unfortunately, unlike with Windows and GTK+, this key code table is [not device-independent and not keymap-independent](http://stackoverflow.com/questions/3202629/where-can-i-find-a-list-of-mac-virtual-key-codes): they are keyboard layout-specific, and do not appear to have been updated since the pre-Cocoa days. Indeed, neither Carbon nor Cocoa provide a definite list in their documentation, and the Xcode 5.0 version of Carbon's `HIToolbox/Events.h` header (`/System/Library/Frameworks/Carbon.framework/Versions/A/Frameworks/HIToolbox.framework/Versions/A/Headers/Events.h`) even says
```
* keyboard. Those constants with "ANSI" in the name are labeled
* according to the key position on an ANSI-standard US keyboard.
* For example, kVK_ANSI_A indicates the virtual keycode for the key
* with the letter 'A' in the US keyboard layout. Other keyboard
* layouts may have the 'A' key label on a different physical key;
* in this case, pressing 'A' will generate a different virtual
* keycode.
```
The only thing we can guarantee is that the Cocoa and Carbon codes are the same (as the documentation does guarantee this). (If you ever wondered why GLFW talks about US English keyboards in its virtual keycode docs... this is why. Yes, [GLFW interprets the raw key codes](https://github.com/glfw/glfw/blob/master/src/cocoa_window.m#L599).)
Thankfully there IS a way to get keys that aren't printable characters! ...Mac OS X steals the private use area block of the Unicode BMP and reserves it for [its own virtual key codes](https://developer.apple.com/library/mac/documentation/cocoa/Reference/ApplicationKit/Classes/NSEvent_Class/Reference/Reference.html#//apple_ref/doc/uid/20000016-SW136); the first character of a one-character return from the `characters` methods will have a Unicode code point value equal to these. ([There's also these non-graphic characters constants.](https://developer.apple.com/library/mac/documentation/cocoa/Reference/ApplicationKit/Classes/NSText_Class/Reference/Reference.html#//apple_ref/doc/uid/20000367-SW46))
(Technically you're supposed to send incoming key events to `[self interpretKeyEvents:]`, which will generate a bunch of text-related method calls to make things easier, but we don't have to. Technically you're also supposed to use key equivalents, but that doesn't apply here...)
For modifier keys pressed by themselves, neither `keyDown:` nor `keyUp:` appears to be sent; we need to handle `flagsChanged:` (if I'm reading this right, anyway). Whatever the case, `[e modifierFlags]` will always be valid. In `flagsChanged:`, `characters` will **NOT** be valid and **WILL** throw an exception.
There's also `[e isARepeat]`, which tells us whether a key was repeated; it does not say how many times. (*TODO* does this mean `keyDown:` is sent multiple times?)
* What happens if I hold down a key, then switch programs with the mouse and release the key? If I decide to intercept modifiers and hand them out like with mouse events, this will be an issue. (Otherwise, I could just poll them each time, like with mouse events; on Windows and Cocoa this will work (GLFW seems to do this on Windows anyway) but I'm not sure about GTK+.)
* How is Shift handled in Windows character events?
* Figure out which keys we can provide and which we can't...
I forgot I wanted to make a tracker, whose input should in theory be layout independent; if we do the above we can't do this... we would need to use the key codes and hope key codes are keymap-dependent on both Windows and GTK+...
and guess what? they're keymap-independent on Windows and and likely so on GTK+ (thanks to tristan and LRN in irc.gimp.net/#gtk+ and exDM69 in irc.efnet.net/#winprog). Guess I'll need to write a quick test...<br>
A on keyboard; US English QWERTY - keyval:0x61<br>
A on keyboard; Georgian AZERTY Tskapo (A = ქ) - keyval:0x10010e5<br>
so.
So this leaves character-based input as the only real option. The only two questions that remain are:
- on Windows is there a reliable way to tell if a `WM_CHAR` DOES come up for the next code? `WM_UNICHAR`?
- related: will both a `WM_CHAR` and a `WM_UNCIHAR` ever come up for the same keystroke?
- how DO you load an existing `GtkIMContext`?
- related: will Cocoa's `charactersIgnoringModifiers`*always* ignore modifiers?
Actually the real question is: is it possible to just get ONE domain of keyboard input on all platforms? GDK has constants for every possible language... so someone not using a Latin-based keyboard will wind up having their keystorkes rejected by the `GdkDrawingArea`...
>Keyboard input **MUST** be well defined, and it must be well defined **NOW**. As the author of the GUI library, I **MUST** guarantee that someone typing a character on the same physical machine on different operating systems each with the same keyboard layout gets the exact same response (with no unwanted side effects), and by extension that the programmer sees the same thing. But things are just different enough to screw this up.
Virtual key code mapping | Adjusted by layout | Adjusted by layout | NOT adjusted by layout
Virtual key code range | Limited to physical keys on conventional keyboards; outside drivers do IME | NOT limited thus; virtual keycodes exist for languages | Limited to physical keys on conventional keyboards; OS provides IME facilities
Character translation at all | Provided by OS, but not sure about some behavioral details (*TODO*) | multiple; see the GTK+ section above; each problematic | Provided by OS; escape hatches available
Single-keystroke character translation | *TODO* | Constants exist for whatever keyboard layout you can imagine | *TODO*
Multi-keystroke character translation | `WM_DEADCHAR`/`WM_UNICHAR` | (see GTK+ s ectiona bove for issues) | Provided by OS; escape hatches avialable
Character translation ignoring input language (so the programmer can know that the A key was pressed regardless of language) | *TODO* | *TODO* | *maybe*`charactersIgnoringModifiers`? *TODO*
// Due to platform differences regarding text input,
// keyboard events have beem compromised in
// such a way that attempting to read Unicode data
// in platform-native ways is painful.
// [Use TextArea instead, providing a TextAreaHandler.]
(corollary: this means multi-line edits will need a different name; corollary 2: this means I will have to start providing font resource acquisition, something I didn't want to do (I wanted to relegate that to freetype-go or similar, assuming that was even capable of doing so))
// A KeyEvent represents a keypress in an Area.
//
// KeyEvent has been designed to be predictable.
// As the different operating systems supported by package ui
// expose wildly different APIs and rules for reading keystrokes,
// this means that KeyEvent has certain rules and restrictions
// that you must mind. This makes KeyEvent unsuitable
// for reading text (as Area's comment will say).
// As another consequence, no KeyEvent will be generated if
// package ui cannot portably report a given key. Supported
// keys are described in the comments for the Rune field and
// ExtKey represents keys that do not have a Rune representation.
// There is no way to differentiate between left and right ExtKeys.
type ExtKey uintptr
const (
keyname1 ExtKey = iota
keyname2
keyname3
)
(notes: this will have to be produced based on what's available on each platform (Mac OS X might be the biggest filter here); also as a personal favor-the-user decision Print Screen shall not be supported)
```
If I ever intend on providing alternate text-based widgets, I will need to use `GtkTextArea` and `NSTextArea` to make things work the most fluidly, so this will require another type. Woo...
Also this answers the what if a key has been held down and switches away from the program question: Windows does not send a key up.
This just leaves the GTK+ geometry mapping: there is a way to do it if X11 is the only supported backend, but Wayland exists...
VK_BACK (0x08) - BACKSPACE key | GDK_KEY_BackSpace | either NSBackspaceCharacter or NSDeleteCharacter (TODO)
VK_TAB (0x09) - TAB key | GDK_KEY_Tab | NSTabCharacter; TODO do we also need to handle NSBackTabCharacter (Shift+Tab)?
VK_RETURN (0x0D) - ENTER key (note: also for numeric keypad) | [TODO either GDK_KEY_Linefeed or GDK_KEY_Return] and GDK_KEY_KP_Enter | either NSNewlineCharacter or NSCarriageReturnCharacter (TODO) (TODO also NSEnterCharacter?)
VK_SHIFT (0x10)/VK_LSHIFT (0xA0) - Left SHIFT key/VK_RSHIFT (0xA1) - Right SHIFT key - SHIFT key | [modifier] | [modifier]
VK_CONTROL (0x11)/VK_LCONTROL (0xA2) - Left CONTROL key/VK_RCONTROL (0xA3) - Right CONTROL key - CTRL key | [modifier] | [modifier]
VK_MENU (0x12)/VK_LMENU (0xA4) - Left MENU key/VK_RMENU (0xA5) - Right MENU key - ALT key | [modifier] | [modifier]
VK_LWIN (0x5B) - Left Windows key (Natural keyboard) | [modifier] | [modifier]
VK_RWIN (0x5C) - Right Windows key (Natural keyboard) | [modifier] | [modifier]
VK_APPS (0x5D) - Applications key (Natural keyboard) (TODO which key is this? the right click shortcut key?) | TODO | TODO if this is the right click key, is it NSMenuFunctionKey?
VK_OEM_1 (0xBA) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the ';:' key (**TODO** see if the varying will hurt us somehow) | GDK_KEY_semicolon and GDK_KEY_colon
VK_OEM_PLUS (0xBB) - For any country/region, the '+' key | GDK_KEY_plus and GDK_KEY_equal
VK_OEM_COMMA (0xBC) - For any country/region, the ',' key | GDK_KEY_comma and GDK_KEY_less
VK_OEM_MINUS (0xBD) - For any country/region, the '-' key | GDK_KEY_minus and GDK_KEY_underscore
VK_OEM_PERIOD (0xBE) - For any country/region, the '.' key | GDK_KEY_period and GDK_KEY_greater
VK_OEM_2 (0xBF) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the '/?' key | GDK_KEY_slash and GDK_KEY_question
VK_OEM_3 (0xC0) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the '`~' key | GDK_KEY_quoteleft (TODO really?) and GDK_KEY_asciitilde
VK_OEM_4 (0xDB) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the '[{' key | GDK_KEY_bracketleft and GDK_KEY_braceleft
VK_OEM_5 (0xDC) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the '\|' key | GDK_KEY_backslash and GDK_KEY_bar (TODO really _bar?)
VK_OEM_6 (0xDD) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the ']}' key | GDK_KEY_bracketright and GDK_KEY_braceright
VK_OEM_7 (0xDE) - Used for miscellaneous characters; it can vary by keyboard. For the US standard keyboard, the 'single-quote/double-quote' key | GDK_KEY_apostrophe and GDK_KEY_apostrophe (TODO really this one?)
VK_PACKET (0xE7) - Used to pass Unicode characters as if they were keystrokes. The VK_PACKET key is the low word of a 32-bit Virtual Key value used for non-keyboard input methods. For more information, see Remark in KEYBDINPUT, SendInput, WM_KEYDOWN, and WM_KEYUP
BONUS OS X NOTE (which means we're right in ignoring numpad differences)
>`NSNumericPadKeyMask`
>Set if any key in the numeric keypad is pressed. The numeric keypad is generally on the right side of the keyboard. This is also set if any of the arrow keys are pressed (NSUpArrowFunctionKey, NSDownArrowFunctionKey, NSLeftArrowFunctionKey, and NSRightArrowFunctionKey).
For the character keys on Windows, I suppose I could get away with checking all character keys for a WM_CHAR... will need to check, but first, need to find a keyboard layout that has different rules for symbols
* will also need to check what GTK+ and OS X do, in this case
For the locks: I'll need a way to get their state anyway, so simply checking keypresses isn't really effective
* **Caps Lock**: simply checking this and simulating Shift isn't good, because Windows and Unix have Caps Lock act like an inverse Shift, while Mac OS X has it act like a permanent Shift. I might have to add "The case of Rune is undefined; it does not necessarily correspond to the state of the Shift key. Correct code will need to check both uppercase and lowercase forms of letters."
* **Num Lock**: already handled; we're not differentiating between numpad and non-numpad anyway so knowing the Num Lock state is meaningless
* **Scroll Lock**: ...will need to figure out how to read lock state for this one.
Mac OS X always sends shifted characters, even with `charactersIgnoringModifiers`. GTK+ has separate keycodes that we can use. This just leaves Windows. It appears what we need to do is process `WM_CHAR` and `WM_SYSCHAR` events, filtering out the characters that we can support.
I wonder if I should change Rune to ASCII because with the filtering we have applied these are guaranteed to be ASCII bytes...
oh you have got to be kidding me (Spanish keyboard layout)
OK so it looks like the only thing I can really do is just pretend that the keyboard input routines are perfect and handle the character events on Windows and OS X (and use `charactersIgnoringModifiers` on OS X because otherwise we can't handle the Option key) and HOPE TO GOD ALMIGHTY that all GDK users see the non-IME forms. SCREW THIS.
### Final Consensus, For Fuck's Sake.
```go
// A KeyEvent represents a keypress in an Area.
//
// In a perfect world, KeyEvent would be 100% predictable.
// Despite my best efforts to do this, however, the various
// differences in input handling between each backend
// environment makes this completely impossible (I can
// work with two of the three identically, but not all three).
// Keep this in mind, and remember that Areas are not ideal
// for text.
//
// If a key is pressed that is not supported by ASCII, ExtKey,
// or Modifiers, no KeyEvent will be produced and package
// ui will act as if false was sent on Handled.
type KeyEvent struct {
// ASCII is a byte representing the character pressed.
// Despite my best efforts, this cannot be trivialized
// to produce predictable input rules on all OSs, even if
// I try to handle physical keys instead of equivalent
// characters. Therefore, what happens when the user
// inserts a non-ASCII character is undefined (some systems
// will give package ui the underlying ASCII key and we
// return it; other systems do not). This is especially important
// if the given input method uses Modifiers to enter characters.
// If the parenthesized rule cannot be followed and the user
// enters a non-ASCII character, it will be ignored (package ui
// will act as above regarding keys it cannot handle).
// In general, alphanumeric characters, ',', '.', '+', '-', and the
// (space) should be available on all keyboards. Other ASCII
// whitespace keys mentioned below may be available, but
// mind layout differences.
// Whether or not alphabetic characters are uppercase or
// lowercase is undefined, and cannot be determined solely
// by examining Modifiers for Shift. Correct code should handle
// both uppercase and lowercase identically.
// In addition, ASCII will contain
// - ' ' (space) if the spacebar was pressed
// - '\t' if Tab was pressed, regardless of Modifiers
// - '\n' if any Enter/Return key was pressed, regardless of which
// - '\b' if the typewriter Backspace key was pressed