windows-nt/Source/XPSP1/NT/enduser/netmeeting/nmutil/borderwindow.cpp

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2020-09-26 03:20:57 -05:00
// File: Toolbar.cpp
#include "precomp.h"
#include "GenContainers.h"
#include <windowsx.h>
CBorderWindow::CBorderWindow() :
m_uParts(0),
m_hGap(0),
m_vGap(0)
{
}
BOOL CBorderWindow::Create(
HWND hWndParent // The parent of this window
)
{
return(CGenWindow::Create(
hWndParent, // Window parent
0, // ID of the child window
TEXT("NMBorderWindow"), // Window name
WS_CLIPCHILDREN, // Window style; WS_CHILD|WS_VISIBLE will be added to this
WS_EX_CONTROLPARENT // Extended window style
));
}
extern void GetWindowDesiredSize(HWND hwnd, SIZE *ppt);
extern BOOL IsChildVisible(HWND hwndChild);
enum Parts
{
TL = 0,
T,
TR,
L,
C,
R,
BL,
B,
BR,
} ;
// Returns the number of child windows
UINT FillWindowSizes(
HWND hwndParent,
HWND hwnds[CBorderWindow::NumParts],
SIZE sizes[CBorderWindow::NumParts],
UINT uParts
)
{
UINT nChildren = 0;
HWND hwndChild = ::GetWindow(hwndParent, GW_CHILD);
for (int i=0; i<CBorderWindow::NumParts; ++i)
{
sizes[i].cx = sizes[i].cy = 0;
if ((uParts&(1<<i)) == 0)
{
hwnds[i] = NULL;
}
else
{
hwnds[i] = hwndChild;
if (NULL != hwndChild && IsChildVisible(hwndChild))
{
IGenWindow *pWin = IGenWindow::FromHandle(hwndChild);
if (NULL != pWin)
{
++nChildren;
pWin->GetDesiredSize(&sizes[i]);
}
hwndChild = ::GetWindow(hwndChild, GW_HWNDNEXT);
}
}
}
return(nChildren);
}
// Returns the total children desired size in the arrays
// Return value is the number of child windows
UINT CBorderWindow::GetDesiredSize(
HWND hwnds[NumParts],
SIZE sizes[NumParts],
int rows[3],
int cols[3],
SIZE *psize)
{
UINT nChildren = FillWindowSizes(GetWindow(), hwnds, sizes, m_uParts);
cols[0] = max(max(sizes[TL].cx, sizes[L].cx), sizes[BL].cx);
cols[1] = max(max(sizes[T ].cx, sizes[C].cx), sizes[B ].cx);
cols[2] = max(max(sizes[TR].cx, sizes[R].cx), sizes[BR].cx);
rows[0] = max(max(sizes[TL].cy, sizes[T].cy), sizes[TR].cy);
rows[1] = max(max(sizes[L ].cy, sizes[C].cy), sizes[R ].cy);
rows[2] = max(max(sizes[BL].cy, sizes[B].cy), sizes[BR].cy);
psize->cx = cols[0] + cols[1] + cols[2];
psize->cy = rows[0] + rows[1] + rows[2];
// Add the gaps
if (0 != cols[0])
{
if (0 != cols[1] || 0 != cols[2])
{
psize->cx += m_hGap;
}
}
if (0 != cols[1] && 0 != cols[2])
{
psize->cx += m_hGap;
}
if (0 != rows[0])
{
if (0 != rows[1] || 0 != rows[2])
{
psize->cy += m_vGap;
}
}
if (0 != rows[1] && 0 != rows[2])
{
psize->cy += m_vGap;
}
return(nChildren);
}
void CBorderWindow::GetDesiredSize(SIZE *psize)
{
HWND hwnds[NumParts];
SIZE sizes[NumParts];
int rows[3];
int cols[3];
GetDesiredSize(hwnds, sizes, rows, cols, psize);
// Add on any non-client size
SIZE sizeTemp;
CGenWindow::GetDesiredSize(&sizeTemp);
psize->cx += sizeTemp.cx;
psize->cy += sizeTemp.cy;
}
HDWP SetWindowPosI(HDWP hdwp, HWND hwndChild, int left, int top, int width, int height)
{
if (NULL == hwndChild)
{
return(hdwp);
}
#if TRUE
return(DeferWindowPos(hdwp, hwndChild, NULL, left, top, width, height, SWP_NOZORDER));
#else
// Helpful for debugging
SetWindowPos(hwndChild, NULL, left, top, width, height, SWP_NOZORDER);
return(hdwp);
#endif
}
// Move the children into their various locations
void CBorderWindow::Layout()
{
HWND hwnds[NumParts];
SIZE sizes[NumParts];
int rows[3];
int cols[3];
SIZE desiredSize;
UINT nChildren = GetDesiredSize(hwnds, sizes, rows, cols, &desiredSize);
bool bCenterOnly = (1 == nChildren) && (0 != (m_uParts & Center));
HWND hwndThis = GetWindow();
RECT rcClient;
GetClientRect(hwndThis, &rcClient);
// Add extra space to the center
if (desiredSize.cx < rcClient.right || bCenterOnly)
{
cols[1] += rcClient.right - desiredSize.cx;
}
if (desiredSize.cy < rcClient.bottom || bCenterOnly)
{
rows[1] += rcClient.bottom - desiredSize.cy;
}
// Speed up layout by deferring it
HDWP hdwp = BeginDeferWindowPos(NumParts);
// Add the gaps
// Make the dimension 3 so we can safely iterate through the loop below
int hGaps[3] = { 0, 0 };
if (0 != cols[0])
{
if (0 != cols[1] || 0 != cols[2])
{
hGaps[0] = m_hGap;
}
}
if (0 != cols[1] && 0 != cols[2])
{
hGaps[1] = m_hGap;
}
// Make the dimension 3 so we can safely iterate through the loop below
int vGaps[3] = { 0, 0 };
if (0 != rows[0])
{
if (0 != rows[1] || 0 != rows[2])
{
vGaps[0] = m_vGap;
}
}
if (0 != rows[1] && 0 != rows[2])
{
vGaps[1] = m_vGap;
}
// Layout by rows
int top = 0;
for (int i=0; i<3; ++i)
{
int left = 0;
for (int j=0; j<3; ++j)
{
hdwp = SetWindowPosI(hdwp, hwnds[3*i+j], left, top, cols[j], rows[i]);
left += cols[j] + hGaps[j];
}
top += rows[i] + vGaps[i];
}
// Actually move all the windows now
EndDeferWindowPos(hdwp);
}
LRESULT CBorderWindow::ProcessMessage(HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
{
switch (message)
{
HANDLE_MSG(hwnd, WM_COMMAND, OnCommand);
}
return(CGenWindow::ProcessMessage(hwnd, message, wParam, lParam));
}
void CBorderWindow::OnCommand(HWND hwnd, int id, HWND hwndCtl, UINT codeNotify)
{
FORWARD_WM_COMMAND(GetParent(hwnd), id, hwndCtl, codeNotify, SendMessage);
}