Files
gio/app/os_windows.go
T
qiannian 30dc7ff294 app: [Windows] don't make raised windows topmost
Use HWND_TOP instead of HWND_TOPMOST in ActionRaise so raising a
window no longer pins it on top.

Signed-off-by: qiannian <qianniancn@gmail.com>
Signed-off-by: Elias Naur <mail@eliasnaur.com>
2026-06-25 18:53:27 +02:00

1285 lines
32 KiB
Go

// SPDX-License-Identifier: Unlicense OR MIT
package app
import (
"errors"
"fmt"
"gioui.org/io/transfer"
syscall "golang.org/x/sys/windows"
"golang.org/x/sys/windows/registry"
"image"
"io"
"os"
"runtime"
"sort"
"strings"
"sync"
"time"
"unicode"
"unicode/utf8"
"unsafe"
"gioui.org/app/internal/windows"
"gioui.org/op"
"gioui.org/unit"
gowindows "golang.org/x/sys/windows"
"gioui.org/f32"
"gioui.org/io/event"
"gioui.org/io/key"
"gioui.org/io/pointer"
"gioui.org/io/system"
)
type Win32ViewEvent struct {
HWND uintptr
}
type window struct {
hwnd syscall.Handle
hdc syscall.Handle
w *callbacks
// cursorIn tracks whether the cursor was inside the window according
// to the most recent WM_SETCURSOR.
cursorIn bool
cursor syscall.Handle
animating bool
borderSize image.Point
config Config
// frameDims stores the last seen window frame width and height.
frameDims image.Point
loop *eventLoop
}
const _WM_WAKEUP = windows.WM_USER + iota
const copyDataURLType = 0xffffff00
type gpuAPI struct {
priority int
initializer func(w *window) (context, error)
}
// drivers is the list of potential Context implementations.
var drivers []gpuAPI
// winMap maps win32 HWNDs to *windows.
var winMap sync.Map
// iconID is the ID of the icon in the resource file.
const iconID = 1
var resources struct {
once sync.Once
// handle is the module handle from GetModuleHandle.
handle syscall.Handle
// class is the Gio window class from RegisterClassEx.
class uint16
// cursor is the arrow cursor resource.
cursor syscall.Handle
}
func osMain() {
processURLEvent(startupURI())
select {}
}
func newWindow(win *callbacks, options []Option) {
done := make(chan struct{})
go func() {
// GetMessage and PeekMessage can filter on a window HWND, but
// then thread-specific messages such as WM_QUIT are ignored.
// Instead lock the thread so window messages arrive through
// unfiltered GetMessage calls.
runtime.LockOSThread()
w := &window{
w: win,
}
w.loop = newEventLoop(w.w, w.wakeup)
w.w.SetDriver(w)
err := w.init()
done <- struct{}{}
if err != nil {
w.ProcessEvent(DestroyEvent{Err: err})
return
}
winMap.Store(w.hwnd, w)
defer winMap.Delete(w.hwnd)
w.Configure(options)
w.ProcessEvent(Win32ViewEvent{HWND: uintptr(w.hwnd)})
windows.SetForegroundWindow(w.hwnd)
windows.SetFocus(w.hwnd)
// Since the window class for the cursor is null,
// set it here to show the cursor.
w.SetCursor(pointer.CursorDefault)
w.runLoop()
}()
<-done
}
// initResources initializes the resources global.
func initResources() error {
windows.SetProcessDPIAware()
hInst, err := windows.GetModuleHandle()
if err != nil {
return err
}
resources.handle = hInst
c, err := windows.LoadCursor(windows.IDC_ARROW)
if err != nil {
return err
}
resources.cursor = c
icon, _ := windows.LoadImage(hInst, iconID, windows.IMAGE_ICON, 0, 0, windows.LR_DEFAULTSIZE|windows.LR_SHARED)
appid, err := syscall.UTF16PtrFromString(ID)
if err != nil {
return err
}
wcls := windows.WndClassEx{
CbSize: uint32(unsafe.Sizeof(windows.WndClassEx{})),
Style: windows.CS_HREDRAW | windows.CS_VREDRAW | windows.CS_OWNDC,
LpfnWndProc: syscall.NewCallback(windowProc),
HInstance: hInst,
HIcon: icon,
LpszClassName: appid,
}
cls, err := windows.RegisterClassEx(&wcls)
if err != nil {
return err
}
resources.class = cls
return nil
}
const dwExStyle = windows.WS_EX_APPWINDOW | windows.WS_EX_WINDOWEDGE
func (w *window) init() error {
var resErr error
resources.once.Do(func() {
resErr = initResources()
})
if resErr != nil {
return resErr
}
const dwStyle = windows.WS_OVERLAPPEDWINDOW
hwnd, err := windows.CreateWindowEx(
dwExStyle,
resources.class,
"",
dwStyle|windows.WS_CLIPSIBLINGS|windows.WS_CLIPCHILDREN,
windows.CW_USEDEFAULT, windows.CW_USEDEFAULT,
windows.CW_USEDEFAULT, windows.CW_USEDEFAULT,
0,
0,
resources.handle,
0)
if err != nil {
return err
}
if err := windows.RegisterTouchWindow(hwnd, 0); err != nil {
return err
}
if err := windows.EnableMouseInPointer(1); err != nil {
return err
}
w.hdc, err = windows.GetDC(hwnd)
if err != nil {
windows.DestroyWindow(hwnd)
return err
}
w.hwnd = hwnd
return nil
}
// update handles changes done by the user, and updates the configuration.
// It reads the window style and size/position and updates w.config.
// If anything has changed it emits a ConfigEvent to notify the application.
func (w *window) update() {
p := windows.GetWindowPlacement(w.hwnd)
if !p.IsMinimized() {
r := windows.GetWindowRect(w.hwnd)
cr := windows.GetClientRect(w.hwnd)
w.config.Size = image.Point{
X: int(cr.Right - cr.Left),
Y: int(cr.Bottom - cr.Top),
}
w.frameDims = image.Point{
X: int(r.Right - r.Left),
Y: int(r.Bottom - r.Top),
}.Sub(w.config.Size)
}
w.borderSize = image.Pt(
windows.GetSystemMetrics(windows.SM_CXSIZEFRAME),
windows.GetSystemMetrics(windows.SM_CYSIZEFRAME),
)
style := windows.GetWindowLong(w.hwnd, windows.GWL_STYLE)
switch {
case p.IsMaximized() && style&windows.WS_OVERLAPPEDWINDOW != 0:
w.config.Mode = Maximized
case p.IsMaximized():
w.config.Mode = Fullscreen
default:
w.config.Mode = Windowed
}
w.ProcessEvent(ConfigEvent{Config: w.config})
w.draw(true)
}
func windowProc(hwnd syscall.Handle, msg uint32, wParam, lParam uintptr) uintptr {
win, exists := winMap.Load(hwnd)
if !exists {
return windows.DefWindowProc(hwnd, msg, wParam, lParam)
}
w := win.(*window)
switch msg {
case windows.WM_UNICHAR:
if wParam == windows.UNICODE_NOCHAR {
// Tell the system that we accept WM_UNICHAR messages.
return windows.TRUE
}
fallthrough
case windows.WM_CHAR:
if r := rune(wParam); unicode.IsPrint(r) {
w.w.EditorInsert(string(r))
}
// The message is processed.
return windows.TRUE
case windows.WM_DPICHANGED:
// Let Windows know we're prepared for runtime DPI changes.
return windows.TRUE
case windows.WM_ERASEBKGND:
// Avoid flickering between GPU content and background color.
return windows.TRUE
case windows.WM_KEYDOWN, windows.WM_KEYUP, windows.WM_SYSKEYDOWN, windows.WM_SYSKEYUP:
if n, ok := convertKeyCode(wParam); ok {
e := key.Event{
Name: n,
Modifiers: getModifiers(),
State: key.Press,
}
if msg == windows.WM_KEYUP || msg == windows.WM_SYSKEYUP {
e.State = key.Release
}
w.ProcessEvent(e)
if (wParam == windows.VK_F10) && (msg == windows.WM_SYSKEYDOWN || msg == windows.WM_SYSKEYUP) {
// Reserve F10 for ourselves, and don't let it open the system menu. Other Windows programs
// such as cmd.exe and graphical debuggers also reserve F10.
return 0
}
}
case windows.WM_POINTERDOWN, windows.WM_POINTERUP, windows.WM_POINTERUPDATE, windows.WM_POINTERCAPTURECHANGED:
pid := getPointerIDwParam(wParam)
pi, err := windows.GetPointerInfo(uint32(pid))
if err != nil {
panic(err)
}
switch msg {
case windows.WM_POINTERDOWN:
windows.SetCapture(w.hwnd)
case windows.WM_POINTERUP:
windows.ReleaseCapture()
}
kind := pointer.Move
switch pi.ButtonChangeType {
case windows.POINTER_CHANGE_FIRSTBUTTON_DOWN, windows.POINTER_CHANGE_SECONDBUTTON_DOWN, windows.POINTER_CHANGE_THIRDBUTTON_DOWN, windows.POINTER_CHANGE_FOURTHBUTTON_DOWN, windows.POINTER_CHANGE_FIFTHBUTTON_DOWN:
kind = pointer.Press
case windows.POINTER_CHANGE_FIRSTBUTTON_UP, windows.POINTER_CHANGE_SECONDBUTTON_UP, windows.POINTER_CHANGE_THIRDBUTTON_UP, windows.POINTER_CHANGE_FOURTHBUTTON_UP, windows.POINTER_CHANGE_FIFTHBUTTON_UP:
kind = pointer.Release
}
if (pi.PointerFlags&windows.POINTER_FLAG_CANCELED != 0) || (msg == windows.WM_POINTERCAPTURECHANGED) {
kind = pointer.Cancel
}
w.pointerUpdate(pi, pid, kind, lParam)
case windows.WM_CANCELMODE:
w.ProcessEvent(pointer.Event{
Kind: pointer.Cancel,
})
case windows.WM_SETFOCUS:
w.config.Focused = true
w.ProcessEvent(ConfigEvent{Config: w.config})
case windows.WM_KILLFOCUS:
w.config.Focused = false
w.ProcessEvent(ConfigEvent{Config: w.config})
case windows.WM_NCHITTEST:
if w.config.Decorated {
// Let the system handle it.
break
}
x, y := coordsFromlParam(lParam)
np := windows.Point{X: int32(x), Y: int32(y)}
windows.ScreenToClient(w.hwnd, &np)
return w.hitTest(int(np.X), int(np.Y))
case windows.WM_POINTERWHEEL:
w.scrollEvent(wParam, lParam, false, getModifiers())
case windows.WM_POINTERHWHEEL:
w.scrollEvent(wParam, lParam, true, getModifiers())
case windows.WM_DESTROY:
w.ProcessEvent(Win32ViewEvent{})
w.ProcessEvent(DestroyEvent{})
w.w = nil
if w.hdc != 0 {
windows.ReleaseDC(w.hdc)
w.hdc = 0
}
// The system destroys the HWND for us.
w.hwnd = 0
windows.PostQuitMessage(0)
return 0
case windows.WM_NCCALCSIZE:
if w.config.Decorated {
// Let Windows handle decorations.
break
}
// No client areas; we draw decorations ourselves.
if wParam != 1 {
return 0
}
// lParam contains an NCCALCSIZE_PARAMS for us to adjust.
place := windows.GetWindowPlacement(w.hwnd)
if !place.IsMaximized() {
// Nothing do adjust.
return 0
}
// Adjust window position to avoid the extra padding in maximized
// state. See https://devblogs.microsoft.com/oldnewthing/20150304-00/?p=44543.
// Note that trying to do the adjustment in WM_GETMINMAXINFO is ignored by Windows.
szp := (*windows.NCCalcSizeParams)(unsafe.Pointer(lParam))
mi := windows.GetMonitorInfo(w.hwnd)
szp.Rgrc[0] = mi.WorkArea
return 0
case windows.WM_PAINT:
w.draw(true)
case windows.WM_STYLECHANGED:
w.update()
case windows.WM_WINDOWPOSCHANGED:
w.update()
return 0
case windows.WM_GETMINMAXINFO:
mm := (*windows.MinMaxInfo)(unsafe.Pointer(lParam))
var frameDims image.Point
if w.config.Decorated {
frameDims = w.frameDims
}
if p := w.config.MinSize; p.X > 0 || p.Y > 0 {
p = p.Add(frameDims)
mm.PtMinTrackSize = windows.Point{
X: int32(p.X),
Y: int32(p.Y),
}
}
if p := w.config.MaxSize; p.X > 0 || p.Y > 0 {
p = p.Add(frameDims)
mm.PtMaxTrackSize = windows.Point{
X: int32(p.X),
Y: int32(p.Y),
}
}
return 0
case windows.WM_SETCURSOR:
w.cursorIn = (lParam & 0xffff) == windows.HTCLIENT
if w.cursorIn {
windows.SetCursor(w.cursor)
return windows.TRUE
}
case _WM_WAKEUP:
w.loop.Wakeup()
w.loop.FlushEvents()
case windows.WM_IME_STARTCOMPOSITION:
imc := windows.ImmGetContext(w.hwnd)
if imc == 0 {
return windows.TRUE
}
defer windows.ImmReleaseContext(w.hwnd, imc)
sel := w.w.EditorState().Selection
caret := sel.Transform.Transform(sel.Caret.Pos.Add(f32.Pt(0, sel.Caret.Descent)))
icaret := image.Pt(int(caret.X+.5), int(caret.Y+.5))
windows.ImmSetCompositionWindow(imc, icaret.X, icaret.Y)
windows.ImmSetCandidateWindow(imc, icaret.X, icaret.Y)
return windows.TRUE
case windows.WM_IME_COMPOSITION:
imc := windows.ImmGetContext(w.hwnd)
if imc == 0 {
return windows.TRUE
}
defer windows.ImmReleaseContext(w.hwnd, imc)
state := w.w.EditorState()
rng := state.compose
if rng.Start == -1 {
rng = state.Selection.Range
}
if rng.Start > rng.End {
rng.Start, rng.End = rng.End, rng.Start
}
var replacement string
switch {
case lParam&windows.GCS_RESULTSTR != 0:
replacement = windows.ImmGetCompositionString(imc, windows.GCS_RESULTSTR)
case lParam&windows.GCS_COMPSTR != 0:
replacement = windows.ImmGetCompositionString(imc, windows.GCS_COMPSTR)
}
end := rng.Start + utf8.RuneCountInString(replacement)
w.w.EditorReplace(rng, replacement)
state = w.w.EditorState()
comp := key.Range{
Start: rng.Start,
End: end,
}
if lParam&windows.GCS_DELTASTART != 0 {
start := windows.ImmGetCompositionValue(imc, windows.GCS_DELTASTART)
comp.Start = state.RunesIndex(state.UTF16Index(comp.Start) + start)
}
w.w.SetComposingRegion(comp)
pos := end
if lParam&windows.GCS_CURSORPOS != 0 {
rel := windows.ImmGetCompositionValue(imc, windows.GCS_CURSORPOS)
pos = state.RunesIndex(state.UTF16Index(rng.Start) + rel)
}
w.w.SetEditorSelection(key.Range{Start: pos, End: pos})
return windows.TRUE
case windows.WM_IME_ENDCOMPOSITION:
w.w.SetComposingRegion(key.Range{Start: -1, End: -1})
return windows.TRUE
case windows.WM_COPYDATA:
data := (*windows.CopyDataStruct)(unsafe.Pointer(lParam))
switch data.DwData {
case copyDataURLType:
if schemesURI == "" {
return windows.TRUE
}
uri := syscall.UTF16PtrToString((*uint16)(unsafe.Pointer(data.LpData)))
if processURLEvent(uri) {
w.Perform(system.ActionRaise)
}
return windows.TRUE
}
}
return windows.DefWindowProc(hwnd, msg, wParam, lParam)
}
func getModifiers() key.Modifiers {
var kmods key.Modifiers
if windows.GetKeyState(windows.VK_LWIN)&0x1000 != 0 || windows.GetKeyState(windows.VK_RWIN)&0x1000 != 0 {
kmods |= key.ModSuper
}
if windows.GetKeyState(windows.VK_MENU)&0x1000 != 0 {
kmods |= key.ModAlt
}
if windows.GetKeyState(windows.VK_CONTROL)&0x1000 != 0 {
kmods |= key.ModCtrl
}
if windows.GetKeyState(windows.VK_SHIFT)&0x1000 != 0 {
kmods |= key.ModShift
}
return kmods
}
// hitTest returns the non-client area hit by the point, needed to
// process WM_NCHITTEST.
func (w *window) hitTest(x, y int) uintptr {
if w.config.Mode == Windowed {
// Check for resize handle before system actions; otherwise it can be impossible to
// resize a custom-decorations window when the system move area is flush with the
// edge of the window.
top := y <= w.borderSize.Y
bottom := y >= w.config.Size.Y-w.borderSize.Y
left := x <= w.borderSize.X
right := x >= w.config.Size.X-w.borderSize.X
switch {
case top && left:
return windows.HTTOPLEFT
case top && right:
return windows.HTTOPRIGHT
case bottom && left:
return windows.HTBOTTOMLEFT
case bottom && right:
return windows.HTBOTTOMRIGHT
case top:
return windows.HTTOP
case bottom:
return windows.HTBOTTOM
case left:
return windows.HTLEFT
case right:
return windows.HTRIGHT
}
}
p := f32.Pt(float32(x), float32(y))
if a, ok := w.w.ActionAt(p); ok && a == system.ActionMove {
return windows.HTCAPTION
}
return windows.HTCLIENT
}
func (w *window) pointerUpdate(pi windows.PointerInfo, pid pointer.ID, kind pointer.Kind, lParam uintptr) {
if !w.config.Focused {
windows.SetFocus(w.hwnd)
}
src := pointer.Touch
if pi.PointerType == windows.PT_MOUSE {
src = pointer.Mouse
}
x, y := coordsFromlParam(lParam)
np := windows.Point{X: int32(x), Y: int32(y)}
windows.ScreenToClient(w.hwnd, &np)
p := f32.Point{X: float32(np.X), Y: float32(np.Y)}
w.ProcessEvent(pointer.Event{
Kind: kind,
Source: src,
Position: p,
PointerID: pid,
Buttons: getPointerButtons(pi),
Time: windows.GetMessageTime(),
Modifiers: getModifiers(),
})
}
func coordsFromlParam(lParam uintptr) (int, int) {
x := int(int16(lParam & 0xffff))
y := int(int16((lParam >> 16) & 0xffff))
return x, y
}
func (w *window) scrollEvent(wParam, lParam uintptr, horizontal bool, kmods key.Modifiers) {
pid := getPointerIDwParam(wParam)
pi, err := windows.GetPointerInfo(uint32(pid))
if err != nil {
panic(err)
}
x, y := coordsFromlParam(lParam)
// The WM_MOUSEWHEEL coordinates are in screen coordinates, in contrast
// to other mouse events.
np := windows.Point{X: int32(x), Y: int32(y)}
windows.ScreenToClient(w.hwnd, &np)
p := f32.Point{X: float32(np.X), Y: float32(np.Y)}
dist := float32(int16(wParam >> 16))
var sp f32.Point
if horizontal {
sp.X = dist
} else {
// support horizontal scroll (shift + mousewheel)
if kmods == key.ModShift {
sp.X = -dist
} else {
sp.Y = -dist
}
}
w.ProcessEvent(pointer.Event{
Kind: pointer.Scroll,
Source: pointer.Mouse,
Position: p,
Buttons: getPointerButtons(pi),
Scroll: sp,
Modifiers: kmods,
Time: windows.GetMessageTime(),
})
}
// Adapted from https://blogs.msdn.microsoft.com/oldnewthing/20060126-00/?p=32513/
func (w *window) runLoop() {
msg := new(windows.Msg)
loop:
for {
anim := w.animating
p := windows.GetWindowPlacement(w.hwnd)
if anim && !p.IsMinimized() && !windows.PeekMessage(msg, 0, 0, 0, windows.PM_NOREMOVE) {
w.draw(false)
continue
}
switch ret := windows.GetMessage(msg, 0, 0, 0); ret {
case -1:
panic(errors.New("GetMessage failed"))
case 0:
// WM_QUIT received.
break loop
}
windows.TranslateMessage(msg)
windows.DispatchMessage(msg)
}
}
func (w *window) EditorStateChanged(old, new editorState) {
imc := windows.ImmGetContext(w.hwnd)
if imc == 0 {
return
}
defer windows.ImmReleaseContext(w.hwnd, imc)
if old.Selection.Range != new.Selection.Range || old.Snippet != new.Snippet {
windows.ImmNotifyIME(imc, windows.NI_COMPOSITIONSTR, windows.CPS_CANCEL, 0)
}
}
func (w *window) SetAnimating(anim bool) {
w.animating = anim
}
func (w *window) ProcessEvent(e event.Event) {
w.w.ProcessEvent(e)
w.loop.FlushEvents()
}
func (w *window) Event() event.Event {
return w.loop.Event()
}
func (w *window) Invalidate() {
w.loop.Invalidate()
}
func (w *window) Run(f func()) {
w.loop.Run(f)
}
func (w *window) Frame(frame *op.Ops) {
w.loop.Frame(frame)
}
func (w *window) wakeup() {
if err := windows.PostMessage(w.hwnd, _WM_WAKEUP, 0, 0); err != nil {
panic(err)
}
}
func (w *window) draw(sync bool) {
if w.config.Size.X == 0 || w.config.Size.Y == 0 {
return
}
dpi := windows.GetWindowDPI(w.hwnd)
cfg := configForDPI(dpi)
w.ProcessEvent(frameEvent{
FrameEvent: FrameEvent{
Now: time.Now(),
Size: w.config.Size,
Metric: cfg,
},
Sync: sync,
})
}
func (w *window) NewContext() (context, error) {
sort.Slice(drivers, func(i, j int) bool {
return drivers[i].priority < drivers[j].priority
})
var errs []string
for _, b := range drivers {
ctx, err := b.initializer(w)
if err == nil {
return ctx, nil
}
errs = append(errs, err.Error())
}
if len(errs) > 0 {
return nil, fmt.Errorf("NewContext: failed to create a GPU device, tried: %s", strings.Join(errs, ", "))
}
return nil, errors.New("NewContext: no available GPU drivers")
}
func (w *window) ReadClipboard() {
w.readClipboard()
}
func (w *window) readClipboard() error {
if err := windows.OpenClipboard(w.hwnd); err != nil {
return err
}
defer windows.CloseClipboard()
mem, err := windows.GetClipboardData(windows.CF_UNICODETEXT)
if err != nil {
return err
}
ptr, err := windows.GlobalLock(mem)
if err != nil {
return err
}
defer windows.GlobalUnlock(mem)
content := gowindows.UTF16PtrToString((*uint16)(unsafe.Pointer(ptr)))
w.ProcessEvent(transfer.DataEvent{
Type: "application/text",
Open: func() io.ReadCloser {
return io.NopCloser(strings.NewReader(content))
},
})
return nil
}
func (w *window) Configure(options []Option) {
dpi := windows.GetSystemDPI()
metric := configForDPI(dpi)
cnf := w.config
cnf.apply(metric, options)
w.config.Title = cnf.Title
w.config.Decorated = cnf.Decorated
w.config.MinSize = cnf.MinSize
w.config.MaxSize = cnf.MaxSize
windows.SetWindowText(w.hwnd, cnf.Title)
style := windows.GetWindowLong(w.hwnd, windows.GWL_STYLE)
var showMode int32
var x, y, width, height int32
swpStyle := uintptr(windows.SWP_NOZORDER | windows.SWP_FRAMECHANGED)
winStyle := uintptr(windows.WS_OVERLAPPEDWINDOW)
style &^= winStyle
switch cnf.Mode {
case Minimized:
style |= winStyle
swpStyle |= windows.SWP_NOMOVE | windows.SWP_NOSIZE
showMode = windows.SW_SHOWMINIMIZED
case Maximized:
style |= winStyle
swpStyle |= windows.SWP_NOMOVE | windows.SWP_NOSIZE
showMode = windows.SW_SHOWMAXIMIZED
case Windowed:
style |= winStyle
showMode = windows.SW_SHOWNORMAL
// Get target for client area size.
width = int32(cnf.Size.X)
height = int32(cnf.Size.Y)
// Get the current window size and position.
wr := windows.GetWindowRect(w.hwnd)
x = wr.Left
y = wr.Top
if cnf.Decorated {
// Compute client size and position. Note that the client size is
// equal to the window size when we are in control of decorations.
r := windows.Rect{
Right: width,
Bottom: height,
}
windows.AdjustWindowRectEx(&r, uint32(style), 0, dwExStyle)
width = r.Right - r.Left
height = r.Bottom - r.Top
} else {
// Enable drop shadows when we draw decorations.
windows.DwmExtendFrameIntoClientArea(w.hwnd, windows.Margins{-1, -1, -1, -1})
}
case Fullscreen:
swpStyle |= windows.SWP_NOMOVE | windows.SWP_NOSIZE
showMode = windows.SW_SHOWMAXIMIZED
}
// Disable window resizing if MinSize and MaxSize are equal.
if cnf.MaxSize != (image.Point{}) && cnf.MinSize == cnf.MaxSize {
style &^= windows.WS_MAXIMIZEBOX
style &^= windows.WS_THICKFRAME
}
// Note: these invocation all trigger the windows callback method which may process a pending system.ActionCenter
// action, so SetWindowPos should come first so as to not "overwrite" system.ActionCenter.
windows.SetWindowPos(w.hwnd, 0, x, y, width, height, swpStyle)
windows.SetWindowLong(w.hwnd, windows.GWL_STYLE, style)
windows.ShowWindow(w.hwnd, showMode)
}
func (w *window) WriteClipboard(mime string, s []byte) {
w.writeClipboard(string(s))
}
func (w *window) writeClipboard(s string) error {
if err := windows.OpenClipboard(w.hwnd); err != nil {
return err
}
defer windows.CloseClipboard()
if err := windows.EmptyClipboard(); err != nil {
return err
}
u16, err := gowindows.UTF16FromString(s)
if err != nil {
return err
}
n := len(u16) * int(unsafe.Sizeof(u16[0]))
mem, err := windows.GlobalAlloc(n)
if err != nil {
return err
}
ptr, err := windows.GlobalLock(mem)
if err != nil {
windows.GlobalFree(mem)
return err
}
u16v := unsafe.Slice((*uint16)(ptr), len(u16))
copy(u16v, u16)
windows.GlobalUnlock(mem)
if err := windows.SetClipboardData(windows.CF_UNICODETEXT, mem); err != nil {
windows.GlobalFree(mem)
return err
}
return nil
}
func (w *window) SetCursor(cursor pointer.Cursor) {
c, err := loadCursor(cursor)
if err != nil {
c = resources.cursor
}
w.cursor = c
if w.cursorIn {
windows.SetCursor(w.cursor)
}
}
// windowsCursor contains mapping from pointer.Cursor to an IDC.
var windowsCursor = [...]uint16{
pointer.CursorDefault: windows.IDC_ARROW,
pointer.CursorNone: 0,
pointer.CursorText: windows.IDC_IBEAM,
pointer.CursorVerticalText: windows.IDC_IBEAM,
pointer.CursorPointer: windows.IDC_HAND,
pointer.CursorCrosshair: windows.IDC_CROSS,
pointer.CursorAllScroll: windows.IDC_SIZEALL,
pointer.CursorColResize: windows.IDC_SIZEWE,
pointer.CursorRowResize: windows.IDC_SIZENS,
pointer.CursorGrab: windows.IDC_SIZEALL,
pointer.CursorGrabbing: windows.IDC_SIZEALL,
pointer.CursorNotAllowed: windows.IDC_NO,
pointer.CursorWait: windows.IDC_WAIT,
pointer.CursorProgress: windows.IDC_APPSTARTING,
pointer.CursorNorthWestResize: windows.IDC_SIZENWSE,
pointer.CursorNorthEastResize: windows.IDC_SIZENESW,
pointer.CursorSouthWestResize: windows.IDC_SIZENESW,
pointer.CursorSouthEastResize: windows.IDC_SIZENWSE,
pointer.CursorNorthSouthResize: windows.IDC_SIZENS,
pointer.CursorEastWestResize: windows.IDC_SIZEWE,
pointer.CursorWestResize: windows.IDC_SIZEWE,
pointer.CursorEastResize: windows.IDC_SIZEWE,
pointer.CursorNorthResize: windows.IDC_SIZENS,
pointer.CursorSouthResize: windows.IDC_SIZENS,
pointer.CursorNorthEastSouthWestResize: windows.IDC_SIZENESW,
pointer.CursorNorthWestSouthEastResize: windows.IDC_SIZENWSE,
}
func loadCursor(cursor pointer.Cursor) (syscall.Handle, error) {
switch cursor {
case pointer.CursorDefault:
return resources.cursor, nil
case pointer.CursorNone:
return 0, nil
default:
return windows.LoadCursor(windowsCursor[cursor])
}
}
func (w *window) ShowTextInput(show bool) {}
func (w *window) SetInputHint(_ key.InputHint) {}
func (w *window) HDC() syscall.Handle {
return w.hdc
}
func (w *window) HWND() (syscall.Handle, int, int) {
return w.hwnd, w.config.Size.X, w.config.Size.Y
}
func (w *window) Perform(acts system.Action) {
walkActions(acts, func(a system.Action) {
switch a {
case system.ActionCenter:
if w.config.Mode != Windowed {
break
}
r := windows.GetWindowRect(w.hwnd)
dx := r.Right - r.Left
dy := r.Bottom - r.Top
// Calculate center position on current monitor.
mi := windows.GetMonitorInfo(w.hwnd).Monitor
x := (mi.Right - mi.Left - dx) / 2
y := (mi.Bottom - mi.Top - dy) / 2
windows.SetWindowPos(w.hwnd, 0, x, y, dx, dy, windows.SWP_NOZORDER|windows.SWP_FRAMECHANGED)
case system.ActionRaise:
windows.SetForegroundWindow(w.hwnd)
windows.SetWindowPos(w.hwnd, windows.HWND_TOP, 0, 0, 0, 0,
windows.SWP_NOMOVE|windows.SWP_NOSIZE|windows.SWP_SHOWWINDOW)
case system.ActionClose:
windows.PostMessage(w.hwnd, windows.WM_CLOSE, 0, 0)
}
})
}
func convertKeyCode(code uintptr) (key.Name, bool) {
if '0' <= code && code <= '9' || 'A' <= code && code <= 'Z' {
return key.Name(rune(code)), true
}
var r key.Name
switch code {
case windows.VK_ESCAPE:
r = key.NameEscape
case windows.VK_LEFT:
r = key.NameLeftArrow
case windows.VK_RIGHT:
r = key.NameRightArrow
case windows.VK_RETURN:
r = key.NameReturn
case windows.VK_UP:
r = key.NameUpArrow
case windows.VK_DOWN:
r = key.NameDownArrow
case windows.VK_HOME:
r = key.NameHome
case windows.VK_END:
r = key.NameEnd
case windows.VK_BACK:
r = key.NameDeleteBackward
case windows.VK_DELETE:
r = key.NameDeleteForward
case windows.VK_PRIOR:
r = key.NamePageUp
case windows.VK_NEXT:
r = key.NamePageDown
case windows.VK_F1:
r = key.NameF1
case windows.VK_F2:
r = key.NameF2
case windows.VK_F3:
r = key.NameF3
case windows.VK_F4:
r = key.NameF4
case windows.VK_F5:
r = key.NameF5
case windows.VK_F6:
r = key.NameF6
case windows.VK_F7:
r = key.NameF7
case windows.VK_F8:
r = key.NameF8
case windows.VK_F9:
r = key.NameF9
case windows.VK_F10:
r = key.NameF10
case windows.VK_F11:
r = key.NameF11
case windows.VK_F12:
r = key.NameF12
case windows.VK_TAB:
r = key.NameTab
case windows.VK_SPACE:
r = key.NameSpace
case windows.VK_OEM_1:
r = ";"
case windows.VK_OEM_PLUS:
r = "+"
case windows.VK_OEM_COMMA:
r = ","
case windows.VK_OEM_MINUS:
r = "-"
case windows.VK_OEM_PERIOD:
r = "."
case windows.VK_OEM_2:
r = "/"
case windows.VK_OEM_3:
r = "`"
case windows.VK_OEM_4:
r = "["
case windows.VK_OEM_5, windows.VK_OEM_102:
r = "\\"
case windows.VK_OEM_6:
r = "]"
case windows.VK_OEM_7:
r = "'"
case windows.VK_CONTROL:
r = key.NameCtrl
case windows.VK_SHIFT:
r = key.NameShift
case windows.VK_MENU:
r = key.NameAlt
case windows.VK_LWIN, windows.VK_RWIN:
r = key.NameSuper
default:
return "", false
}
return r, true
}
func configForDPI(dpi int) unit.Metric {
const inchPrDp = 1.0 / 96.0
ppdp := float32(dpi) * inchPrDp
return unit.Metric{
PxPerDp: ppdp,
PxPerSp: ppdp,
}
}
func (Win32ViewEvent) implementsViewEvent() {}
func (Win32ViewEvent) ImplementsEvent() {}
func (w Win32ViewEvent) Valid() bool {
return w != (Win32ViewEvent{})
}
// LOWORD (minwindef.h)
func loWord(val uint32) uint16 {
return uint16(val & 0xFFFF)
}
// GET_POINTERID_WPARAM (winuser.h)
func getPointerIDwParam(wParam uintptr) pointer.ID {
return pointer.ID(loWord(uint32(wParam)))
}
func getPointerButtons(pi windows.PointerInfo) pointer.Buttons {
var btns pointer.Buttons
if pi.PointerFlags&windows.POINTER_FLAG_FIRSTBUTTON != 0 {
btns |= pointer.ButtonPrimary
} else {
btns &^= pointer.ButtonPrimary
}
if pi.PointerFlags&windows.POINTER_FLAG_SECONDBUTTON != 0 {
btns |= pointer.ButtonSecondary
} else {
btns &^= pointer.ButtonSecondary
}
if pi.PointerFlags&windows.POINTER_FLAG_THIRDBUTTON != 0 {
btns |= pointer.ButtonTertiary
} else {
btns &^= pointer.ButtonTertiary
}
if pi.PointerFlags&windows.POINTER_FLAG_FOURTHBUTTON != 0 {
btns |= pointer.ButtonQuaternary
} else {
btns &^= pointer.ButtonQuaternary
}
if pi.PointerFlags&windows.POINTER_FLAG_FIFTHBUTTON != 0 {
btns |= pointer.ButtonQuinary
} else {
btns &^= pointer.ButtonQuinary
}
return btns
}
// schemesURI is a list of schemes, comma separated, that must be
// defined using -X compiler ldflag, that used in gogio.
var schemesURI string
func init() {
if schemesURI == "" {
return
}
currentSchemes := strings.Split(schemesURI, ",")
oldSchemes := registeredSchemes(ID)
for _, s := range currentSchemes {
for i, o := range oldSchemes {
if s == o {
oldSchemes = append(oldSchemes[:i], oldSchemes[i+1:]...)
break
}
}
}
if len(oldSchemes) > 0 {
go unregisterSchemes(ID, oldSchemes)
}
if len(currentSchemes) == 0 {
return
}
// On Windows, launching the app using a URI will start a new instance of the app,
// a new window. That behavior, by default, doesn't align with iOS/Android/macOS, where
// the deeplink sends the event to the running app (if any). We are emulating it.
if hwnd, _ := windows.FindWindow(ID); hwnd != 0 {
if u := startupURI(); u != "" {
broadcastURI(hwnd, u)
}
os.Exit(0)
return
}
go registerSchemes(ID, currentSchemes)
}
func startupURI() string {
if len(os.Args) == 3 && os.Args[1] == "-gio_launch_url" {
return os.Args[2]
}
return ""
}
func processURLEvent(rawurl string) bool {
if rawurl == "" {
return false
}
evt, err := newURLEvent(rawurl)
if err != nil {
return false
}
for _, scheme := range strings.Split(schemesURI, ",") {
if strings.EqualFold(scheme, evt.URL.Scheme) {
processGlobalEvent(evt)
return true
}
}
return false
}
func broadcastURI(hwnd syscall.Handle, uri string) {
data, err := syscall.UTF16FromString(uri)
if err != nil {
return // Only happens if uri contains NULL character.
}
pinner := new(runtime.Pinner)
defer pinner.Unpin()
pinner.Pin(unsafe.Pointer(&data[0]))
msg := &windows.CopyDataStruct{
DwData: copyDataURLType,
CbData: uint32(len(data) * int(unsafe.Sizeof(data[0]))),
LpData: uintptr(unsafe.Pointer(unsafe.SliceData(data))),
}
pinner.Pin(unsafe.Pointer(msg))
// SendMessage blocks until the message is processed.
windows.SendMessage(hwnd, windows.WM_COPYDATA, 0, uintptr(unsafe.Pointer(msg)))
}
func registeredSchemes(appid string) []string {
meta, err := registry.OpenKey(registry.CURRENT_USER, `Software\\`+appid, registry.ALL_ACCESS)
if err != nil {
return nil
}
defer meta.Close()
schemes, _, _ := meta.GetStringsValue("URISchemes")
return schemes
}
func registerSchemes(appid string, schemes []string) error {
reg := func(scheme string) error {
key, existent, err := registry.CreateKey(registry.CURRENT_USER, `Software\\Classes\\`+scheme, registry.ALL_ACCESS)
if err != nil {
return err
}
defer key.Close()
if existent {
// Check if the existent key belongs to the current application
id, _, err := key.GetStringValue("appid")
if err != nil || id != appid {
return fmt.Errorf("scheme %s already registered by another application", scheme)
}
}
path, err := os.Executable()
if err != nil {
return err
}
if err = key.SetStringValue("", "URL:"+scheme+" Protocol"); err != nil {
return err
}
if err = key.SetStringValue("URL Protocol", ""); err != nil {
return err
}
if err = key.SetStringValue("appid", appid); err != nil {
return err
}
icon, _, err := registry.CreateKey(key, `DefaultIcon`, registry.ALL_ACCESS)
if err != nil {
return err
}
defer icon.Close()
if err = icon.SetStringValue("", `"`+path+`",1`); err != nil {
return err
}
cmd, _, err := registry.CreateKey(key, `shell\\open\\command`, registry.ALL_ACCESS)
if err != nil {
return err
}
defer cmd.Close()
if err = cmd.SetStringValue("", `"`+path+`" -gio_launch_url "%1"`); err != nil {
return err
}
return nil
}
for _, scheme := range schemes {
if scheme == "" {
continue // just in case
}
if err := reg(scheme); err != nil {
return err
}
}
meta, _, err := registry.CreateKey(registry.CURRENT_USER, `Software\\`+appid, registry.ALL_ACCESS)
if err != nil {
return err
}
defer meta.Close()
if err = meta.SetStringsValue("URISchemes", schemes); err != nil {
return err
}
return nil
}
func unregisterSchemes(appid string, schemes []string) {
classes, err := registry.OpenKey(registry.CURRENT_USER, `Software\\Classes`, registry.ALL_ACCESS)
if err != nil {
return
}
defer classes.Close()
for _, scheme := range schemes {
if scheme == "" {
continue // just in case
}
key, err := registry.OpenKey(classes, scheme, registry.ALL_ACCESS)
if err != nil {
continue
}
id, _, err := key.GetStringValue("appid")
if err == nil && id != appid {
continue
}
for _, k := range []string{`DefaultIcon`, `shell\\open\\command`, `shell\\open`, `shell`} {
registry.DeleteKey(key, k)
}
if err := key.Close(); err != nil {
continue
}
registry.DeleteKey(classes, scheme)
}
}