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// +build !darwin
// Mac OS X uses its own set of position-independent key codes
// 29 march 2014
package ui
import (
"image"
)
/ *
Windows and GTK + have a limit of 2 and 3 clicks , respectively , natively supported . Fortunately , we can simulate the double / triple - click behavior to build higher - order clicks . We can use the same algorithm Windows uses on both :
http : //blogs.msdn.com/b/oldnewthing/archive/2004/10/18/243925.aspx
For GTK + , we pull the double - click time and double - click distance , which work the same as the equivalents on Windows ( so the distance is in all directions ) , from the GtkSettings system .
On GTK + this will also allow us to discard the GDK_BUTTON_2PRESS and GDK_BUTTON_3PRESS events , so the button press stream will be just like on other platforms .
Thanks to mclasen , garnacho_ , halfline , and tristan in irc . gimp . net / # gtk + .
* /
// the zero value is a reset clickCounter ready for use
// it doesn't matter that all the non-count fields are zero: the first click will fail the curButton test straightaway, so it'll return 1 and set the rest of the structure accordingly
type clickCounter struct {
curButton uint
rect image . Rectangle
prevTime uintptr
count uint
}
// x, y, xdist, ydist, and c.rect must have the same units
// so must time, maxTime, and c.prevTime
func ( c * clickCounter ) click ( button uint , x int , y int , time uintptr , maxTime uintptr , xdist int , ydist int ) uint {
if button != c . curButton { // different button; start over
c . count = 0
}
if ! image . Pt ( x , y ) . In ( c . rect ) { // not in the allowed region for a double-click; don't count
c . count = 0
}
if ( time - c . prevTime ) > maxTime { // too slow; don't count
// note the above expression; time > (c.prevTime + maxTime) can overflow!
c . count = 0
}
c . count ++ // if either of the above ifs happened, this will make the click count 1; otherwise it will make the click count 2, 3, 4, 5, ...
// now we need to update the internal structures for the next test
c . curButton = button
c . prevTime = time
c . rect = image . Rect ( x - xdist , y - ydist ,
x + xdist , y + ydist )
return c . count
}
// call this when losing focus, etc.
func ( c * clickCounter ) reset ( ) {
c . count = 0
}
/ *
For position independence across international keyboard layouts , typewriter keys are read using scancodes ( which are always set 1 ) .
Windows provides the scancodes directly in the LPARAM .
GTK + provides the scancodes directly from the underlying window system via GdkEventKey . hardware_keycode .
On X11 , this is scancode + 8 ( because X11 keyboard codes have a range of [ 8 , 255 ] ) .
Wayland is guaranteed to give the same result ( thanks ebassi in irc . gimp . net / # gtk + ) .
On Linux , where evdev is used instead of polling scancodes directly from the keyboard , evdev ' s typewriter section key code constants are the same as scancodes anyway , so the rules above apply .
Typewriter section scancodes are the same across international keyboards with some exceptions that have been accounted for ( see KeyEvent ' s documentation ) ; see http : //www.quadibloc.com/comp/scan.htm for details.
Non - typewriter keys can be handled safely using constants provided by the respective backend API .
Because GTK + keysyms may or may not obey Num Lock , we also handle the 0 - 9 and . keys on the numeric keypad with scancodes ( they match too ) .
* /
// use uintptr to be safe; the size of the scancode/hardware key code field on each platform is different
var scancodeKeys = map [ uintptr ] byte {
0x02 : '1' ,
0x03 : '2' ,
0x04 : '3' ,
0x05 : '4' ,
0x06 : '5' ,
0x07 : '6' ,
0x08 : '7' ,
0x09 : '8' ,
0x0A : '9' ,
0x0B : '0' ,
0x0C : '-' ,
0x0D : '=' ,
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0x0E : '\b' ,
0x0F : '\t' ,
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0x10 : 'q' ,
0x11 : 'w' ,
0x12 : 'e' ,
0x13 : 'r' ,
0x14 : 't' ,
0x15 : 'y' ,
0x16 : 'u' ,
0x17 : 'i' ,
0x18 : 'o' ,
0x19 : 'p' ,
0x1A : '[' ,
0x1B : ']' ,
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0x1C : '\n' ,
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0x1E : 'a' ,
0x1F : 's' ,
0x20 : 'd' ,
0x21 : 'f' ,
0x22 : 'g' ,
0x23 : 'h' ,
0x24 : 'j' ,
0x25 : 'k' ,
0x26 : 'l' ,
0x27 : ';' ,
0x28 : '\'' ,
0x29 : '`' ,
0x2B : '\\' ,
0x2C : 'z' ,
0x2D : 'x' ,
0x2E : 'c' ,
0x2F : 'v' ,
0x30 : 'b' ,
0x31 : 'n' ,
0x32 : 'm' ,
0x33 : ',' ,
0x34 : '.' ,
0x35 : '/' ,
0x39 : ' ' ,
}
var scancodeExtKeys = map [ uintptr ] ExtKey {
0x47 : N7 ,
0x48 : N8 ,
0x49 : N9 ,
0x4B : N4 ,
0x4C : N5 ,
0x4D : N6 ,
0x4F : N1 ,
0x50 : N2 ,
0x51 : N3 ,
0x52 : N0 ,
0x53 : NDot ,
}
func fromScancode ( scancode uintptr ) ( ke KeyEvent , ok bool ) {
if key , ok := scancodeKeys [ scancode ] ; ok {
ke . Key = key
return ke , true
}
if extkey , ok := scancodeExtKeys [ scancode ] ; ok {
ke . ExtKey = extkey
return ke , true
}
return ke , false
}