322 lines
9.7 KiB
Go
322 lines
9.7 KiB
Go
// 13 december 2015
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package ui
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// #include <stdlib.h>
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// #include "ui.h"
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// extern void doAreaHandlerDraw(uiAreaHandler *, uiArea *, uiAreaDrawParams *);
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// extern void doAreaHandlerMouseEvent(uiAreaHandler *, uiArea *, uiAreaMouseEvent *);
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// extern void doAreaHandlerMouseCrossed(uiAreaHandler *, uiArea *, int);
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// extern void doAreaHandlerDragBroken(uiAreaHandler *, uiArea *);
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// extern int doAreaHandlerKeyEvent(uiAreaHandler *, uiArea *, uiAreaKeyEvent *);
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// static inline uiAreaHandler *allocAreaHandler(void)
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// {
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// uiAreaHandler *ah;
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//
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// ah = (uiAreaHandler *) malloc(sizeof (uiAreaHandler));
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// if (ah == NULL) // TODO
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// return NULL;
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// ah->Draw = doAreaHandlerDraw;
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// ah->MouseEvent = doAreaHandlerMouseEvent;
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// ah->MouseCrossed = doAreaHandlerMouseCrossed;
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// ah->DragBroken = doAreaHandlerDragBroken;
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// ah->KeyEvent = doAreaHandlerKeyEvent;
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// return ah;
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// }
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// static inline void freeAreaHandler(uiAreaHandler *ah)
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// {
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// free(ah);
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// }
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import "C"
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// no need to lock this; only the GUI thread can access it
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var areahandlers = make(map[*C.uiAreaHandler]AreaHandler)
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// AreaHandler defines the functionality needed for handling events
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// from an Area. Each of the methods on AreaHandler is called from
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// the GUI thread, and every parameter (other than the Area itself)
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// should be assumed to only be valid during the life of the method
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// call (so for instance, do not save AreaDrawParams.AreaWidth, as
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// that might change without generating an event).
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//
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// Coordinates to Draw and MouseEvent are given in points. Points
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// are generic, floating-point, device-independent coordinates with
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// (0,0) at the top left corner. You never have to worry about the
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// mapping between points and pixels; simply draw everything using
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// points and you get nice effects like looking sharp on high-DPI
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// monitors for free. Proper documentation on the matter is being
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// written. In the meantime, there are several referenes to this kind of
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// drawing, most notably on Apple's website: https://developer.apple.com/library/mac/documentation/GraphicsAnimation/Conceptual/HighResolutionOSX/Explained/Explained.html#//apple_ref/doc/uid/TP40012302-CH4-SW1
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//
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// For a scrolling Area, points are automatically offset by the scroll
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// position. So if the mouse moves to position (5,5) while the
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// horizontal scrollbar is at position 10 and the horizontal scrollbar is
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// at position 20, the coordinate stored in the AreaMouseEvent
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// structure is (15,25). The same applies to drawing.
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type AreaHandler interface {
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// Draw is sent when a part of the Area needs to be drawn.
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// dp will contain a drawing context to draw on, the rectangle
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// that needs to be drawn in, and (for a non-scrolling area) the
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// size of the area. The rectangle that needs to be drawn will
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// have been cleared by the system prior to drawing, so you are
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// always working on a clean slate.
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//
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// If you call Save on the drawing context, you must call Release
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// before returning from Draw, and the number of calls to Save
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// and Release must match. Failure to do so results in undefined
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// behavior.
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Draw(a *Area, dp *AreaDrawParams)
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// MouseEvent is called when the mouse moves over the Area
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// or when a mouse button is pressed or released. See
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// AreaMouseEvent for more details.
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//
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// If a mouse button is being held, MouseEvents will continue to
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// be generated, even if the mouse is not within the area. On
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// some systems, the system can interrupt this behavior;
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// see DragBroken.
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MouseEvent(a *Area, me *AreaMouseEvent)
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// MouseCrossed is called when the mouse either enters or
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// leaves the Area. It is called even if the mouse buttons are being
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// held (see MouseEvent above). If the mouse has entered the
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// Area, left is false; if it has left the Area, left is true.
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//
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// If, when the Area is first shown, the mouse is already inside
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// the Area, MouseCrossed will be called with left=false.
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// TODO what about future shows?
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MouseCrossed(a *Area, left bool)
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// DragBroken is called if a mouse drag is interrupted by the
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// system. As noted above, when a mouse button is held,
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// MouseEvent will continue to be called, even if the mouse is
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// outside the Area. On some systems, this behavior can be
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// stopped by the system itself for a variety of reasons. This
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// method is provided to allow your program to cope with the
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// loss of the mouse in this case. You should cope by cancelling
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// whatever drag-related operation you were doing.
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//
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// Note that this is only generated on some systems under
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// specific conditions. Do not implement behavior that only
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// takes effect when DragBroken is called.
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DragBroken(a *Area)
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// KeyEvent is called when a key is pressed while the Area has
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// keyboard focus (if the Area has been tabbed into or if the
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// mouse has been clicked on it). See AreaKeyEvent for specifics.
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//
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// Because some keyboard events are handled by the system
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// (for instance, menu accelerators and global hotkeys), you
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// must return whether you handled the key event; return true
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// if you did or false if you did not. If you wish to ignore the
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// keyboard outright, the correct implementation of KeyEvent is
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// func (h *MyHandler) KeyEvent(a *ui.Area, ke *ui.AreaKeyEvent) (handled bool) {
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// return false
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// }
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// DO NOT RETURN TRUE UNCONDITIONALLY FROM THIS
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// METHOD. BAD THINGS WILL HAPPEN IF YOU DO.
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KeyEvent(a *Area, ke *AreaKeyEvent) (handled bool)
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}
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func registerAreaHandler(ah AreaHandler) *C.uiAreaHandler {
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uah := C.allocAreaHandler()
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areahandlers[uah] = ah
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return uah
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}
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func unregisterAreaHandler(uah *C.uiAreaHandler) {
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delete(areahandlers, uah)
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C.freeAreaHandler(uah)
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}
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// AreaDrawParams provides a drawing context that can be used
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// to draw on an Area and tells you where to draw. See AreaHandler
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// for introductory information.
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type AreaDrawParams struct {
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// Context is the drawing context to draw on. See DrawContext
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// for how to draw.
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Context *DrawContext
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// AreaWidth and AreaHeight provide the size of the Area for
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// non-scrolling Areas. For scrolling Areas both values are zero.
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//
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// To reiterate the AreaHandler documentation, do NOT save
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// these values for later; they can change without generating
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// an event.
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AreaWidth float64
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AreaHeight float64
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// These four fields define the rectangle that needs to be
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// redrawn. The system will not draw anything outside this
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// rectangle, but you can make your drawing faster if you
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// also stay within the lines.
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ClipX float64
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ClipY float64
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ClipWidth float64
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ClipHeight float64
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}
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//export doAreaHandlerDraw
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func doAreaHandlerDraw(uah *C.uiAreaHandler, ua *C.uiArea, udp *C.uiAreaDrawParams) {
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ah := areahandlers[uah]
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a := areas[ua]
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dp := &AreaDrawParams{
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Context: &DrawContext{udp.Context},
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AreaWidth: float64(udp.AreaWidth),
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AreaHeight: float64(udp.AreaHeight),
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ClipX: float64(udp.ClipX),
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ClipY: float64(udp.ClipY),
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ClipWidth: float64(udp.ClipWidth),
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ClipHeight: float64(udp.ClipHeight),
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}
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ah.Draw(a, dp)
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}
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// TODO document all these
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//
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// TODO note that in the case of a drag, X and Y can be out of bounds, or in the event of a scrolling area, in places that are not visible
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type AreaMouseEvent struct {
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X float64
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Y float64
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// AreaWidth and AreaHeight provide the size of the Area for
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// non-scrolling Areas. For scrolling Areas both values are zero.
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//
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// To reiterate the AreaHandler documentation, do NOT save
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// these values for later; they can change without generating
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// an event.
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AreaWidth float64
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AreaHeight float64
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Down uint
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Up uint
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Count uint
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Modifiers Modifiers
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Held []uint
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}
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func appendBits(out []uint, held C.uint64_t) []uint {
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n := uint(1)
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for i := 0; i < 64; i++ {
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if held & 1 != 0 {
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out = append(out, n)
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}
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held >>= 1
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n++
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}
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return out
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}
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//export doAreaHandlerMouseEvent
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func doAreaHandlerMouseEvent(uah *C.uiAreaHandler, ua *C.uiArea, ume *C.uiAreaMouseEvent) {
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ah := areahandlers[uah]
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a := areas[ua]
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me := &AreaMouseEvent{
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X: float64(ume.X),
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Y: float64(ume.Y),
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AreaWidth: float64(ume.AreaWidth),
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AreaHeight: float64(ume.AreaHeight),
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Down: uint(ume.Down),
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Up: uint(ume.Up),
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Count: uint(ume.Count),
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Modifiers: Modifiers(ume.Modifiers),
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Held: make([]uint, 0, 64),
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}
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me.Held = appendBits(me.Held, ume.Held1To64)
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ah.MouseEvent(a, me)
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}
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//export doAreaHandlerMouseCrossed
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func doAreaHandlerMouseCrossed(uah *C.uiAreaHandler, ua *C.uiArea, left C.int) {
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ah := areahandlers[uah]
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a := areas[ua]
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ah.MouseCrossed(a, tobool(left))
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}
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//export doAreaHandlerDragBroken
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func doAreaHandlerDragBroken(uah *C.uiAreaHandler, ua *C.uiArea) {
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ah := areahandlers[uah]
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a := areas[ua]
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ah.DragBroken(a)
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}
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// TODO document all these
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type AreaKeyEvent struct {
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Key rune
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ExtKey ExtKey
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Modifier Modifiers
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Modifiers Modifiers
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Up bool
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}
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//export doAreaHandlerKeyEvent
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func doAreaHandlerKeyEvent(uah *C.uiAreaHandler, ua *C.uiArea, uke *C.uiAreaKeyEvent) C.int {
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ah := areahandlers[uah]
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a := areas[ua]
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ke := &AreaKeyEvent{
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Key: rune(uke.Key),
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ExtKey: ExtKey(uke.ExtKey),
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Modifier: Modifiers(uke.Modifier),
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Modifiers: Modifiers(uke.Modifiers),
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Up: tobool(uke.Up),
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}
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return frombool(ah.KeyEvent(a, ke))
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}
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// TODO document
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//
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// Note: these must be numerically identical to their libui equivalents.
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type Modifiers uint
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const (
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Ctrl Modifiers = 1 << iota
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Alt
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Shift
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Super
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)
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// TODO document
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//
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// Note: these must be numerically identical to their libui equivalents.
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type ExtKey int
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const (
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Escape ExtKey = iota + 1
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Insert // equivalent to "Help" on Apple keyboards
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Delete
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Home
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End
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PageUp
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PageDown
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Up
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Down
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Left
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Right
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F1 // F1..F12 are guaranteed to be consecutive
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F2
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F3
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F4
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F5
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F6
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F7
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F8
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F9
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F10
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F11
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F12
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N0 // numpad keys; independent of Num Lock state
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N1 // N0..N9 are guaranteed to be consecutive
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N2
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N3
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N4
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N5
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N6
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N7
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N8
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N9
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NDot
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NEnter
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NAdd
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NSubtract
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NMultiply
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NDivide
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)
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