* Note: This is not the actual structure used by the receiver
* to maintain its list of children, so modifying the array will
* not affect the receiver.
*
*
* @return an array of children
*
* @see Control#moveAbove
* @see Control#moveBelow
*
* @exception SWTException true if the receiver has deferred
* the performing of layout, and false otherwise.
*
* @return the receiver's deferred layout state
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @see #setLayoutDeferred(boolean)
* @see #isLayoutDeferred()
*
* @since 3.1
*/
public boolean getLayoutDeferred () {
checkWidget ();
return layoutCount > 0 ;
}
/**
* Returns true if the receiver or any ancestor
* up to and including the receiver's nearest ancestor shell
* has deferred the performing of layouts. Otherwise, false
* is returned.
*
* @return the receiver's deferred layout state
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @see #setLayoutDeferred(boolean)
* @see #getLayoutDeferred()
*
* @since 3.1
*/
public boolean isLayoutDeferred () {
checkWidget ();
return findDeferredControl () != null;
}
/**
* If the receiver has a layout, asks the layout to lay out
* (that is, set the size and location of) the receiver's children.
* If the receiver does not have a layout, do nothing.
*
* This is equivalent to calling layout(true).
*
*
* Note: Layout is different from painting. If a child is
* moved or resized such that an area in the parent is
* exposed, then the parent will paint. If no child is
* affected, the parent will not paint.
*
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*/
public void layout () {
checkWidget ();
layout (true);
}
/**
* If the receiver has a layout, asks the layout to lay out
* (that is, set the size and location of) the receiver's children.
* If the argument is true the layout must not rely
* on any information it has cached about the immediate children. If it
* is false the layout may (potentially) optimize the
* work it is doing by assuming that none of the receiver's
* children has changed state since the last layout.
* If the receiver does not have a layout, do nothing.
*
* If a child is resized as a result of a call to layout, the
* resize event will invoke the layout of the child. The layout
* will cascade down through all child widgets in the receiver's widget
* tree until a child is encountered that does not resize. Note that
* a layout due to a resize will not flush any cached information
* (same as layout(false)).
*
*
* Note: Layout is different from painting. If a child is
* moved or resized such that an area in the parent is
* exposed, then the parent will paint. If no child is
* affected, the parent will not paint.
*
*
* @param changed true if the layout must flush its caches, and false otherwise
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*/
public void layout (boolean changed) {
checkWidget ();
if (layout == null) return;
layout (changed, false);
}
/**
* If the receiver has a layout, asks the layout to lay out
* (that is, set the size and location of) the receiver's children.
* If the changed argument is true the layout must not rely
* on any information it has cached about its children. If it
* is false the layout may (potentially) optimize the
* work it is doing by assuming that none of the receiver's
* children has changed state since the last layout.
* If the all argument is true the layout will cascade down
* through all child widgets in the receiver's widget tree, regardless of
* whether the child has changed size. The changed argument is applied to
* all layouts. If the all argument is false, the layout will
* not cascade down through all child widgets in the receiver's widget
* tree. However, if a child is resized as a result of a call to layout, the
* resize event will invoke the layout of the child. Note that
* a layout due to a resize will not flush any cached information
* (same as layout(false)).
*
*
* Note: Layout is different from painting. If a child is
* moved or resized such that an area in the parent is
* exposed, then the parent will paint. If no child is
* affected, the parent will not paint.
*
*
* @param changed true if the layout must flush its caches, and false otherwise
* @param all true if all children in the receiver's widget tree should be laid out, and false otherwise
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @since 3.1
*/
public void layout (boolean changed, boolean all) {
checkWidget ();
if (layout == null && !all) return;
markLayout (changed, all);
updateLayout (all);
}
/**
* Forces a lay out (that is, sets the size and location) of all widgets that
* are in the parent hierarchy of the changed control up to and including the
* receiver. The layouts in the hierarchy must not rely on any information
* cached about the changed control or any of its ancestors. The layout may
* (potentially) optimize the work it is doing by assuming that none of the
* peers of the changed control have changed state since the last layout.
* If an ancestor does not have a layout, skip it.
*
* Note: Layout is different from painting. If a child is
* moved or resized such that an area in the parent is
* exposed, then the parent will paint. If no child is
* affected, the parent will not paint.
*
*
* @param changed a control that has had a state change which requires a recalculation of its size
*
* @exception IllegalArgumentException
* - ERROR_INVALID_ARGUMENT - if the changed array is null any of its controls are null or have been disposed
* - ERROR_INVALID_PARENT - if any control in changed is not in the widget tree of the receiver
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @since 3.1
*/
public void layout (Control [] changed) {
checkWidget ();
if (changed == null) error (SWT.ERROR_INVALID_ARGUMENT);
layout (changed, SWT.NONE);
}
/**
* Forces a lay out (that is, sets the size and location) of all widgets that
* are in the parent hierarchy of the changed control up to and including the
* receiver.
*
* The parameter flags may be a combination of:
*
* - SWT.ALL
* - all children in the receiver's widget tree should be laid out
* - SWT.CHANGED
* - the layout must flush its caches
* - SWT.DEFER
* - layout will be deferred
*
*
*
* When the changed array is specified, the flags SWT.ALL
* and SWT.CHANGED have no effect. In this case, the layouts in the
* hierarchy must not rely on any information cached about the changed control or
* any of its ancestors. The layout may (potentially) optimize the
* work it is doing by assuming that none of the peers of the changed
* control have changed state since the last layout.
* If an ancestor does not have a layout, skip it.
*
*
* When the changed array is not specified, the flag SWT.ALL
* indicates that the whole widget tree should be laid out. And the flag
* SWT.CHANGED indicates that the layouts should flush any cached
* information for all controls that are laid out.
*
*
* The SWT.DEFER flag always causes the layout to be deferred by
* calling Composite.setLayoutDeferred(true) and scheduling a call
* to Composite.setLayoutDeferred(false), which will happen when
* appropriate (usually before the next event is handled). When this flag is set,
* the application should not call Composite.setLayoutDeferred(boolean).
*
*
* Note: Layout is different from painting. If a child is
* moved or resized such that an area in the parent is
* exposed, then the parent will paint. If no child is
* affected, the parent will not paint.
*
*
* @param changed a control that has had a state change which requires a recalculation of its size
* @param flags the flags specifying how the layout should happen
*
* @exception IllegalArgumentException
* - ERROR_INVALID_ARGUMENT - if any of the controls in changed is null or has been disposed
* - ERROR_INVALID_PARENT - if any control in changed is not in the widget tree of the receiver
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @since 3.6
*/
public void layout (Control [] changed, int flags) {
checkWidget ();
if (changed != null) {
for (int i=0; i=0; i--) {
update [i].updateLayout (false);
}
} else {
if (layout == null && (flags & SWT.ALL) == 0) return;
markLayout ((flags & SWT.CHANGED) != 0, (flags & SWT.ALL) != 0);
if ((flags & SWT.DEFER) != 0) {
setLayoutDeferred (true);
display.addLayoutDeferred (this);
}
updateLayout ((flags & SWT.ALL) != 0);
}
}
void markLayout (boolean changed, boolean all) {
if (layout != null) {
state |= LAYOUT_NEEDED;
if (changed) state |= LAYOUT_CHANGED;
}
if (all) {
Control [] children = _getChildren ();
for (int i=0; i 1) {
// int bits = OS.GetWindowLong (handle, OS.GWL_STYLE);
// if ((bits & OS.WS_CLIPSIBLINGS) == 0) wp.flags |= OS.SWP_NOCOPYBITS;
// }
if (defer) {
hdwp = DeferWindowPos (hdwp, wp.hwnd, 0, wp.x, wp.y, wp.cx, wp.cy, wp.flags);
if (hdwp == 0) return false;
} else {
SetWindowPos (wp.hwnd, 0, wp.x, wp.y, wp.cx, wp.cy, wp.flags);
}
}
}
if (defer) return OS.EndDeferWindowPos (hdwp);
return true;
}
void resizeEmbeddedHandle(long /*int*/ embeddedHandle, int width, int height) {
if (embeddedHandle == 0) return;
int [] processID = new int [1];
int threadId = OS.GetWindowThreadProcessId (embeddedHandle, processID);
if (threadId != OS.GetCurrentThreadId ()) {
if (processID [0] == OS.GetCurrentProcessId ()) {
if (display.msgHook == 0) {
if (!OS.IsWinCE) {
display.getMsgCallback = new Callback (display, "getMsgProc", 3);
display.getMsgProc = display.getMsgCallback.getAddress ();
if (display.getMsgProc == 0) error (SWT.ERROR_NO_MORE_CALLBACKS);
display.msgHook = OS.SetWindowsHookEx (OS.WH_GETMESSAGE, display.getMsgProc, OS.GetLibraryHandle(), threadId);
OS.PostThreadMessage (threadId, OS.WM_NULL, 0, 0);
}
}
}
int flags = OS.SWP_NOZORDER | OS.SWP_DRAWFRAME | OS.SWP_NOACTIVATE | OS.SWP_ASYNCWINDOWPOS;
OS.SetWindowPos (embeddedHandle, 0, 0, 0, width, height, flags);
}
}
void sendResize () {
setResizeChildren (false);
super.sendResize ();
if (isDisposed ()) return;
if (layout != null) {
markLayout (false, false);
updateLayout (false, false);
}
setResizeChildren (true);
}
/**
* Sets the background drawing mode to the argument which should
* be one of the following constants defined in class SWT:
* INHERIT_NONE, INHERIT_DEFAULT,
* INHERIT_FORCE.
*
* @param mode the new background mode
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @see SWT
*
* @since 3.2
*/
public void setBackgroundMode (int mode) {
checkWidget ();
backgroundMode = mode;
Control [] children = _getChildren ();
for (int i = 0; i < children.length; i++) {
children [i].updateBackgroundMode ();
}
}
void setBounds (int x, int y, int width, int height, int flags, boolean defer) {
if (display.resizeCount > Display.RESIZE_LIMIT) {
defer = false;
}
if (!defer && (state & CANVAS) != 0) {
state &= ~(RESIZE_OCCURRED | MOVE_OCCURRED);
state |= RESIZE_DEFERRED | MOVE_DEFERRED;
}
super.setBounds (x, y, width, height, flags, defer);
if (!defer && (state & CANVAS) != 0) {
boolean wasMoved = (state & MOVE_OCCURRED) != 0;
boolean wasResized = (state & RESIZE_OCCURRED) != 0;
state &= ~(RESIZE_DEFERRED | MOVE_DEFERRED);
if (wasMoved && !isDisposed ()) sendMove ();
if (wasResized && !isDisposed ()) sendResize ();
}
}
public boolean setFocus () {
checkWidget ();
Control [] children = _getChildren ();
for (int i=0; i
* ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*/
public void setLayout (Layout layout) {
checkWidget ();
this.layout = layout;
}
/**
* If the argument is true, causes subsequent layout
* operations in the receiver or any of its children to be ignored.
* No layout of any kind can occur in the receiver or any of its
* children until the flag is set to false.
* Layout operations that occurred while the flag was
* true are remembered and when the flag is set to
* false, the layout operations are performed in an
* optimized manner. Nested calls to this method are stacked.
*
* @param defer the new defer state
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*
* @see #layout(boolean)
* @see #layout(Control[])
*
* @since 3.1
*/
public void setLayoutDeferred (boolean defer) {
checkWidget();
if (!defer) {
if (--layoutCount == 0) {
if ((state & LAYOUT_CHILD) != 0 || (state & LAYOUT_NEEDED) != 0) {
updateLayout (true);
}
}
} else {
layoutCount++;
}
}
/**
* Sets the tabbing order for the specified controls to
* match the order that they occur in the argument list.
*
* @param tabList the ordered list of controls representing the tab order or null
*
* @exception IllegalArgumentException
* - ERROR_INVALID_ARGUMENT - if a widget in the tabList is null or has been disposed
* - ERROR_INVALID_PARENT - if widget in the tabList is not in the same widget tree
*
* @exception SWTException
* - ERROR_WIDGET_DISPOSED - if the receiver has been disposed
* - ERROR_THREAD_INVALID_ACCESS - if not called from the thread that created the receiver
*
*/
public void setTabList (Control [] tabList) {
checkWidget ();
if (tabList != null) {
for (int i=0; i Display.RESIZE_LIMIT) {
return;
}
int count = getChildrenCount ();
if (count > 1 && lpwp == null) {
lpwp = new WINDOWPOS [count];
}
}
}
boolean setTabGroupFocus () {
if (isTabItem ()) return setTabItemFocus ();
boolean takeFocus = (style & SWT.NO_FOCUS) == 0;
if ((state & CANVAS) != 0) {
takeFocus = hooksKeys ();
if ((style & SWT.EMBEDDED) != 0) takeFocus = true;
}
if (takeFocus && setTabItemFocus ()) return true;
Control [] children = _getChildren ();
for (int i=0; i 0) {
if (children[i] != null && !children[i].isDisposed ()) {
children[i].updateTextDirection(textDirection);
}
}
return true;
}
return false;
}
String toolTipText (NMTTDISPINFO hdr) {
Shell shell = getShell ();
if ((hdr.uFlags & OS.TTF_IDISHWND) == 0) {
String string = null;
ToolTip toolTip = shell.findToolTip ((int)/*64*/hdr.idFrom);
if (toolTip != null) {
string = toolTip.message;
if (string == null || string.length () == 0) string = " ";
/*
* Bug in Windows. On Windows 7, tool tips hang when displaying large
* unwrapped strings. The fix is to wrap the string ourselves.
*/
if (!OS.IsWinCE && OS.WIN32_VERSION >= OS.VERSION (6, 0)) {
if (string.length () > TOOLTIP_LIMIT / 4) {
string = display.wrapText (string, handle, toolTip.getWidth ());
}
}
}
return string;
}
shell.setToolTipTitle (hdr.hwndFrom, null, 0);
OS.SendMessage (hdr.hwndFrom, OS.TTM_SETMAXTIPWIDTH, 0, 0x7FFF);
Control control = display.getControl (hdr.idFrom);
return control != null ? control.toolTipText : null;
}
boolean translateMnemonic (Event event, Control control) {
if (super.translateMnemonic (event, control)) return true;
if (control != null) {
Control [] children = _getChildren ();
for (int i=0; i= 6 && OS.IsAppThemed ()) {
if ((state & CANVAS)!= 0) {
long /*int*/ code = callWindowProc (handle, OS.WM_NCHITTEST, wParam, lParam);
if (code == OS.HTCLIENT) {
RECT rect = new RECT ();
OS.GetClientRect (handle, rect);
POINT pt = new POINT ();
pt.x = OS.GET_X_LPARAM (lParam);
pt.y = OS.GET_Y_LPARAM (lParam);
OS.MapWindowPoints (0, handle, pt, 1);
if (!OS.PtInRect (rect, pt)) {
int flags = OS.RDW_FRAME | OS.RDW_INVALIDATE;
OS.RedrawWindow (handle, null, 0, flags);
}
}
return new LRESULT (code);
}
}
return result;
}
LRESULT WM_PARENTNOTIFY (long /*int*/ wParam, long /*int*/ lParam) {
if ((state & CANVAS) != 0 && (style & SWT.EMBEDDED) != 0) {
if (OS.LOWORD (wParam) == OS.WM_CREATE) {
RECT rect = new RECT ();
OS.GetClientRect (handle, rect);
resizeEmbeddedHandle (lParam, rect.right - rect.left, rect.bottom - rect.top);
}
}
return super.WM_PARENTNOTIFY (wParam, lParam);
}
LRESULT WM_PAINT (long /*int*/ wParam, long /*int*/ lParam) {
if ((state & CANVAS) == 0 || (state & FOREIGN_HANDLE) != 0) {
return super.WM_PAINT (wParam, lParam);
}
/* Set the clipping bits */
int oldBits = 0, newBits = 0;
if (!OS.IsWinCE) {
oldBits = OS.GetWindowLong (handle, OS.GWL_STYLE);
newBits = oldBits | OS.WS_CLIPSIBLINGS | OS.WS_CLIPCHILDREN;
if (newBits != oldBits) OS.SetWindowLong (handle, OS.GWL_STYLE, newBits);
}
/* Paint the control and the background */
PAINTSTRUCT ps = new PAINTSTRUCT ();
if (hooks (SWT.Paint) || filters (SWT.Paint)) {
/* Use the buffered paint when possible */
boolean bufferedPaint = false;
if ((style & SWT.DOUBLE_BUFFERED) != 0) {
if (!OS.IsWinCE && OS.WIN32_VERSION >= OS.VERSION (6, 0)) {
if ((style & (SWT.NO_MERGE_PAINTS | SWT.RIGHT_TO_LEFT)) == 0) {
if ((style & SWT.TRANSPARENT) == 0) bufferedPaint = true;
}
}
}
if (bufferedPaint) {
long /*int*/ hDC = OS.BeginPaint (handle, ps);
int width = ps.right - ps.left;
int height = ps.bottom - ps.top;
if (width != 0 && height != 0) {
long /*int*/ [] phdc = new long /*int*/ [1];
int flags = OS.BPBF_COMPATIBLEBITMAP;
RECT prcTarget = new RECT ();
OS.SetRect (prcTarget, ps.left, ps.top, ps.right, ps.bottom);
long /*int*/ hBufferedPaint = OS.BeginBufferedPaint (hDC, prcTarget, flags, null, phdc);
GCData data = new GCData ();
data.device = display;
data.foreground = getForegroundPixel ();
Control control = findBackgroundControl ();
if (control == null) control = this;
data.background = control.getBackgroundPixel ();
data.font = Font.win32_new(display, OS.SendMessage (handle, OS.WM_GETFONT, 0, 0));
data.uiState = (int)/*64*/OS.SendMessage (handle, OS.WM_QUERYUISTATE, 0, 0);
if ((style & SWT.NO_BACKGROUND) != 0) {
/* This code is intentionally commented because it may be slow to copy bits from the screen */
//paintGC.copyArea (image, ps.left, ps.top);
} else {
RECT rect = new RECT ();
OS.SetRect (rect, ps.left, ps.top, ps.right, ps.bottom);
drawBackground (phdc [0], rect);
}
GC gc = GC.win32_new (phdc [0], data);
Event event = new Event ();
event.gc = gc;
event.x = ps.left;
event.y = ps.top;
event.width = width;
event.height = height;
sendEvent (SWT.Paint, event);
if (data.focusDrawn && !isDisposed ()) updateUIState ();
gc.dispose ();
OS.EndBufferedPaint (hBufferedPaint, true);
}
OS.EndPaint (handle, ps);
} else {
/* Create the paint GC */
GCData data = new GCData ();
data.ps = ps;
data.hwnd = handle;
GC gc = GC.win32_new (this, data);
/* Get the system region for the paint HDC */
long /*int*/ sysRgn = 0;
if ((style & (SWT.DOUBLE_BUFFERED | SWT.TRANSPARENT)) != 0 || (style & SWT.NO_MERGE_PAINTS) != 0) {
sysRgn = OS.CreateRectRgn (0, 0, 0, 0);
if (OS.GetRandomRgn (gc.handle, sysRgn, OS.SYSRGN) == 1) {
if (!OS.IsWinCE && OS.WIN32_VERSION >= OS.VERSION (4, 10)) {
if ((OS.GetLayout (gc.handle) & OS.LAYOUT_RTL) != 0) {
int nBytes = OS.GetRegionData (sysRgn, 0, null);
int [] lpRgnData = new int [nBytes / 4];
OS.GetRegionData (sysRgn, nBytes, lpRgnData);
long /*int*/ newSysRgn = OS.ExtCreateRegion (new float [] {-1, 0, 0, 1, 0, 0}, nBytes, lpRgnData);
OS.DeleteObject (sysRgn);
sysRgn = newSysRgn;
}
}
if (OS.IsWinNT) {
POINT pt = new POINT();
OS.MapWindowPoints (0, handle, pt, 1);
OS.OffsetRgn (sysRgn, pt.x, pt.y);
}
}
}
/* Send the paint event */
int width = ps.right - ps.left;
int height = ps.bottom - ps.top;
if (width != 0 && height != 0) {
GC paintGC = null;
Image image = null;
if ((style & (SWT.DOUBLE_BUFFERED | SWT.TRANSPARENT)) != 0) {
image = new Image (display, width, height);
paintGC = gc;
gc = new GC (image, paintGC.getStyle() & SWT.RIGHT_TO_LEFT);
GCData gcData = gc.getGCData ();
gcData.uiState = data.uiState;
gc.setForeground (getForeground ());
gc.setBackground (getBackground ());
gc.setFont (getFont ());
if ((style & SWT.TRANSPARENT) != 0) {
OS.BitBlt (gc.handle, 0, 0, width, height, paintGC.handle, ps.left, ps.top, OS.SRCCOPY);
}
OS.OffsetRgn (sysRgn, -ps.left, -ps.top);
OS.SelectClipRgn (gc.handle, sysRgn);
OS.OffsetRgn (sysRgn, ps.left, ps.top);
OS.SetMetaRgn (gc.handle);
OS.SetWindowOrgEx (gc.handle, ps.left, ps.top, null);
OS.SetBrushOrgEx (gc.handle, ps.left, ps.top, null);
if ((style & (SWT.NO_BACKGROUND | SWT.TRANSPARENT)) != 0) {
/* This code is intentionally commented because it may be slow to copy bits from the screen */
//paintGC.copyArea (image, ps.left, ps.top);
} else {
RECT rect = new RECT ();
OS.SetRect (rect, ps.left, ps.top, ps.right, ps.bottom);
drawBackground (gc.handle, rect);
}
}
Event event = new Event ();
event.gc = gc;
RECT rect = null;
if ((style & SWT.NO_MERGE_PAINTS) != 0 && OS.GetRgnBox (sysRgn, rect = new RECT ()) == OS.COMPLEXREGION) {
int nBytes = OS.GetRegionData (sysRgn, 0, null);
int [] lpRgnData = new int [nBytes / 4];
OS.GetRegionData (sysRgn, nBytes, lpRgnData);
int count = lpRgnData [2];
for (int i=0; i= 6 && OS.IsAppThemed ()) {
if (findThemeControl () != null) redrawChildren ();
}
}
/* Resize the embedded window */
if ((state & CANVAS) != 0 && (style & SWT.EMBEDDED) != 0) {
resizeEmbeddedHandle (OS.GetWindow (handle, OS.GW_CHILD), OS.LOWORD (lParam), OS.HIWORD (lParam));
}
return result;
}
LRESULT WM_SYSCOLORCHANGE (long /*int*/ wParam, long /*int*/ lParam) {
LRESULT result = super.WM_SYSCOLORCHANGE (wParam, lParam);
if (result != null) return result;
long /*int*/ hwndChild = OS.GetWindow (handle, OS.GW_CHILD);
while (hwndChild != 0) {
OS.SendMessage (hwndChild, OS.WM_SYSCOLORCHANGE, 0, 0);
hwndChild = OS.GetWindow (hwndChild, OS.GW_HWNDNEXT);
}
return result;
}
LRESULT WM_SYSCOMMAND (long /*int*/ wParam, long /*int*/ lParam) {
LRESULT result = super.WM_SYSCOMMAND (wParam, lParam);
if (result != null) return result;
/*
* Check to see if the command is a system command or
* a user menu item that was added to the system menu.
*
* NOTE: This is undocumented.
*/
if ((wParam & 0xF000) == 0) return result;
/*
* Bug in Windows. When a vertical or horizontal scroll bar is
* hidden or shown while the opposite scroll bar is being scrolled
* by the user (with WM_HSCROLL code SB_LINEDOWN), the scroll bar
* does not redraw properly. The fix is to detect this case and
* redraw the non-client area.
*/
if (!OS.IsWinCE) {
int cmd = (int)/*64*/wParam & 0xFFF0;
switch (cmd) {
case OS.SC_HSCROLL:
case OS.SC_VSCROLL:
boolean showHBar = horizontalBar != null && horizontalBar.getVisible ();
boolean showVBar = verticalBar != null && verticalBar.getVisible ();
long /*int*/ code = callWindowProc (handle, OS.WM_SYSCOMMAND, wParam, lParam);
if ((showHBar != (horizontalBar != null && horizontalBar.getVisible ())) ||
(showVBar != (verticalBar != null && verticalBar.getVisible ()))) {
int flags = OS.RDW_FRAME | OS.RDW_INVALIDATE | OS.RDW_UPDATENOW;
OS.RedrawWindow (handle, null, 0, flags);
}
if (code == 0) return LRESULT.ZERO;
return new LRESULT (code);
}
}
/* Return the result */
return result;
}
LRESULT WM_UPDATEUISTATE (long /*int*/ wParam, long /*int*/ lParam) {
LRESULT result = super.WM_UPDATEUISTATE (wParam, lParam);
if (result != null) return result;
if ((state & CANVAS) != 0 && hooks (SWT.Paint)) {
OS.InvalidateRect (handle, null, true);
}
return result;
}
LRESULT wmNCPaint (long /*int*/ hwnd, long /*int*/ wParam, long /*int*/ lParam) {
LRESULT result = super.wmNCPaint (hwnd, wParam, lParam);
if (result != null) return result;
long /*int*/ borderHandle = borderHandle ();
if ((state & CANVAS) != 0 || (hwnd == borderHandle && handle != borderHandle)) {
if (OS.COMCTL32_MAJOR >= 6 && OS.IsAppThemed ()) {
int bits1 = OS.GetWindowLong (hwnd, OS.GWL_EXSTYLE);
if ((bits1 & OS.WS_EX_CLIENTEDGE) != 0) {
long /*int*/ code = 0;
int bits2 = OS.GetWindowLong (hwnd, OS.GWL_STYLE);
if ((bits2 & (OS.WS_HSCROLL | OS.WS_VSCROLL)) != 0) {
code = callWindowProc (hwnd, OS.WM_NCPAINT, wParam, lParam);
}
long /*int*/ hDC = OS.GetWindowDC (hwnd);
RECT rect = new RECT ();
OS.GetWindowRect (hwnd, rect);
rect.right -= rect.left;
rect.bottom -= rect.top;
rect.left = rect.top = 0;
int border = OS.GetSystemMetrics (OS.SM_CXEDGE);
OS.ExcludeClipRect (hDC, border, border, rect.right - border, rect.bottom - border);
OS.DrawThemeBackground (display.hEditTheme (), hDC, OS.EP_EDITTEXT, OS.ETS_NORMAL, rect, null);
OS.ReleaseDC (hwnd, hDC);
return new LRESULT (code);
}
}
}
return result;
}
LRESULT wmNotify (NMHDR hdr, long /*int*/ wParam, long /*int*/ lParam) {
if (!OS.IsWinCE) {
switch (hdr.code) {
/*
* Feature in Windows. When the tool tip control is
* created, the parent of the tool tip is the shell.
* If SetParent () is used to reparent the tool bar
* into a new shell, the tool tip is not reparented
* and pops up underneath the new shell. The fix is
* to make sure the tool tip is a topmost window.
*/
case OS.TTN_SHOW:
case OS.TTN_POP: {
/*
* Bug in Windows 98 and NT. Setting the tool tip to be the
* top most window using HWND_TOPMOST can result in a parent
* dialog shell being moved behind its parent if the dialog
* has a sibling that is currently on top. The fix is to
* lock the z-order of the active window.
*
* Feature in Windows. Using SetWindowPos() with HWND_NOTOPMOST
* to clear the topmost state of a window whose parent is already
* topmost clears the topmost state of the parent. The fix is to
* check if the parent is already on top and neither set or clear
* the topmost status of the tool tip.
*/
long /*int*/ hwndParent = hdr.hwndFrom;
do {
hwndParent = OS.GetParent (hwndParent);
if (hwndParent == 0) break;
int bits = OS.GetWindowLong (hwndParent, OS.GWL_EXSTYLE);
if ((bits & OS.WS_EX_TOPMOST) != 0) break;
} while (true);
if (hwndParent != 0) break;
display.lockActiveWindow = true;
int flags = OS.SWP_NOACTIVATE | OS.SWP_NOMOVE | OS.SWP_NOSIZE;
long /*int*/ hwndInsertAfter = hdr.code == OS.TTN_SHOW ? OS.HWND_TOPMOST : OS.HWND_NOTOPMOST;
SetWindowPos (hdr.hwndFrom, hwndInsertAfter, 0, 0, 0, 0, flags);
display.lockActiveWindow = false;
break;
}
/*
* Bug in Windows 98. For some reason, the tool bar control
* sends both TTN_GETDISPINFOW and TTN_GETDISPINFOA to get
* the tool tip text and the tab folder control sends only
* TTN_GETDISPINFOW. The fix is to handle only TTN_GETDISPINFOW,
* even though it should never be sent on Windows 98.
*
* NOTE: Because the size of NMTTDISPINFO differs between
* Windows 98 and NT, guard against the case where the wrong
* kind of message occurs by inlining the memory moves and
* the UNICODE conversion code.
*/
case OS.TTN_GETDISPINFOA:
case OS.TTN_GETDISPINFOW: {
NMTTDISPINFO lpnmtdi;
if (hdr.code == OS.TTN_GETDISPINFOA) {
lpnmtdi = new NMTTDISPINFOA ();
OS.MoveMemory ((NMTTDISPINFOA)lpnmtdi, lParam, NMTTDISPINFOA.sizeof);
} else {
lpnmtdi = new NMTTDISPINFOW ();
OS.MoveMemory ((NMTTDISPINFOW)lpnmtdi, lParam, NMTTDISPINFOW.sizeof);
}
String string = toolTipText (lpnmtdi);
if (string != null) {
Shell shell = getShell ();
string = Display.withCrLf (string);
/*
* Bug in Windows. On Windows 7, tool tips hang when displaying large
* strings. The fix is to limit the tool tip string to 4Kb.
*/
if (!OS.IsWinCE && OS.WIN32_VERSION >= OS.VERSION (6, 0)) {
if (string.length() > TOOLTIP_LIMIT) {
string = string.substring(0, TOOLTIP_LIMIT);
}
}
char [] chars = fixMnemonic (string);
/*
* Ensure that the orientation of the tool tip matches
* the orientation of the control.
*/
Widget widget = null;
long /*int*/ hwnd = hdr.idFrom;
if ((lpnmtdi.uFlags & OS.TTF_IDISHWND) != 0) {
widget = display.getControl (hwnd);
} else {
if (hdr.hwndFrom == shell.toolTipHandle || hdr.hwndFrom == shell.balloonTipHandle) {
widget = shell.findToolTip ((int)/*64*/hdr.idFrom);
}
}
if (widget != null) {
int style = widget.getStyle();
int flags = SWT.RIGHT_TO_LEFT | SWT.FLIP_TEXT_DIRECTION;
if ((style & flags) != 0 && (style & flags) != flags) {
lpnmtdi.uFlags |= OS.TTF_RTLREADING;
} else {
lpnmtdi.uFlags &= ~OS.TTF_RTLREADING;
}
}
if (hdr.code == OS.TTN_GETDISPINFOA) {
byte [] bytes = new byte [chars.length * 2];
OS.WideCharToMultiByte (getCodePage (), 0, chars, chars.length, bytes, bytes.length, null, null);
shell.setToolTipText (lpnmtdi, bytes);
OS.MoveMemory (lParam, (NMTTDISPINFOA)lpnmtdi, NMTTDISPINFOA.sizeof);
} else {
shell.setToolTipText (lpnmtdi, chars);
OS.MoveMemory (lParam, (NMTTDISPINFOW)lpnmtdi, NMTTDISPINFOW.sizeof);
}
return LRESULT.ZERO;
}
break;
}
}
}
return super.wmNotify (hdr, wParam, lParam);
}
}