求: 用mfc编一个模拟时钟程序。。急!!高手们帮忙~~
模拟时钟转动程序:能模拟机械钟表行走,还要准确地利用数字显示日期和时间,在屏幕上显示一个活动时钟,按任意键时程序退出。望高手们务必详细解答(附贴图追加分~~~~~)...
模拟时钟转动程序: 能模拟机械钟表行走,还要准确地利用数字显示日期和时间,在屏幕上显示一个活动时钟,按任意键时程序退出。
望高手们务必详细解答 (附贴图 追加分~~~~~) 展开
望高手们务必详细解答 (附贴图 追加分~~~~~) 展开
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void SetIsotropic (HDC hdc, int cxClient, int cyClient)
{
SetMapMode (hdc, MM_ISOTROPIC) ;
SetWindowExtEx (hdc, 1000, 1000, NULL) ;
SetViewportExtEx (hdc, cxClient / 2, -cyClient / 2, NULL) ;
SetViewportOrgEx (hdc, cxClient / 2, cyClient / 2, NULL) ;
}
void RotatePoint (POINT pt[], int iNum, int iAngle)
{
int i ;
POINT ptTemp ;
for (i = 0 ; i < iNum ; i++)
{
ptTemp.x = (int) (pt[i].x * cos (TWOPI * iAngle / 360) +
pt[i].y * sin (TWOPI * iAngle / 360)) ;
ptTemp.y = (int) (pt[i].y * cos (TWOPI * iAngle / 360) -
pt[i].x * sin (TWOPI * iAngle / 360)) ;
pt[i] = ptTemp ;
}
}
void DrawClock (HDC hdc)
{
int iAngle ;
POINT pt[3] ;
for (iAngle = 0 ; iAngle < 360 ; iAngle += 6)
{
pt[0].x = 0 ;
pt[0].y = 900 ;
RotatePoint (pt, 1, iAngle) ;
pt[2].x = pt[2].y = iAngle % 5 ? 33 : 100 ;
pt[0].x -= pt[2].x / 2 ;
pt[0].y -= pt[2].y / 2 ;
pt[1].x = pt[0].x + pt[2].x ;
pt[1].y = pt[0].y + pt[2].y ;
SelectObject (hdc, GetStockObject (BLACK_BRUSH)) ;
Ellipse (hdc, pt[0].x, pt[0].y, pt[1].x, pt[1].y) ;
}
}
void DrawHands (HDC hdc, SYSTEMTIME * pst, BOOL fChange)
{
static POINT pt[3][5] = { 0, -150, 100, 0, 0, 600, -100, 0, 0, -150,
0, -200, 50, 0, 0, 800, -50, 0, 0, -200,
0, 0, 0, 0, 0, 0, 0, 0, 0, 800 } ;
int i, iAngle[3] ;
POINT ptTemp[3][5] ;
iAngle[0] = (pst->wHour * 30) % 360 + pst->wMinute / 2 ;
iAngle[1] = pst->wMinute * 6 ;
iAngle[2] = pst->wSecond * 6 ;
memcpy (ptTemp, pt, sizeof (pt)) ;
for (i = fChange ? 0 : 2 ; i < 3 ; i++)
{
RotatePoint (ptTemp[i], 5, iAngle[i]) ;
Polyline (hdc, ptTemp[i], 5) ;
}
}
LRESULT CALLBACK WndProc (HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
{
static int cxClient, cyClient ;
static SYSTEMTIME stPrevious ;
BOOL fChange ;
HDC hdc ;
PAINTSTRUCT ps ;
SYSTEMTIME st ;
switch (message)
{
case WM_CREATE :
SetTimer (hwnd, ID_TIMER, 1000, NULL) ;
GetLocalTime (&st) ;
stPrevious = st ;
return 0 ;
case WM_SIZE :
cxClient = LOWORD (lParam) ;
cyClient = HIWORD (lParam) ;
return 0 ;
case WM_TIMER :
GetLocalTime (&st) ;
fChange = st.wHour != stPrevious.wHour ||
st.wMinute != stPrevious.wMinute ;
hdc = GetDC (hwnd) ;
SetIsotropic (hdc, cxClient, cyClient) ;
SelectObject (hdc, GetStockObject (WHITE_PEN)) ;
DrawHands (hdc, &stPrevious, fChange) ;
SelectObject (hdc, GetStockObject (BLACK_PEN)) ;
DrawHands (hdc, &st, TRUE) ;
ReleaseDC (hwnd, hdc) ;
stPrevious = st ;
return 0 ;
case WM_PAINT :
hdc = BeginPaint (hwnd, &ps) ;
SetIsotropic (hdc, cxClient, cyClient) ;
DrawClock (hdc) ;
DrawHands (hdc, &stPrevious, TRUE) ;
EndPaint (hwnd, &ps) ;
return 0 ;
case WM_DESTROY :
KillTimer (hwnd, ID_TIMER) ;
PostQuitMessage (0) ;
return 0 ;
}
return DefWindowProc (hwnd, message, wParam, lParam) ;
}
void SetIsotropic (HDC hdc, int cxClient, int cyClient)
{
SetMapMode (hdc, MM_ISOTROPIC) ;
SetWindowExtEx (hdc, 1000, 1000, NULL) ;
SetViewportExtEx (hdc, cxClient / 2, -cyClient / 2, NULL) ;
SetViewportOrgEx (hdc, cxClient / 2, cyClient / 2, NULL) ;
}
void RotatePoint (POINT pt[], int iNum, int iAngle)
{
int i ;
POINT ptTemp ;
for (i = 0 ; i < iNum ; i++)
{
ptTemp.x = (int) (pt[i].x * cos (TWOPI * iAngle / 360) +
pt[i].y * sin (TWOPI * iAngle / 360)) ;
ptTemp.y = (int) (pt[i].y * cos (TWOPI * iAngle / 360) -
pt[i].x * sin (TWOPI * iAngle / 360)) ;
pt[i] = ptTemp ;
}
}
void DrawClock (HDC hdc)
{
int iAngle ;
POINT pt[3] ;
for (iAngle = 0 ; iAngle < 360 ; iAngle += 6)
{
pt[0].x = 0 ;
pt[0].y = 900 ;
RotatePoint (pt, 1, iAngle) ;
pt[2].x = pt[2].y = iAngle % 5 ? 33 : 100 ;
pt[0].x -= pt[2].x / 2 ;
pt[0].y -= pt[2].y / 2 ;
pt[1].x = pt[0].x + pt[2].x ;
pt[1].y = pt[0].y + pt[2].y ;
SelectObject (hdc, GetStockObject (BLACK_BRUSH)) ;
Ellipse (hdc, pt[0].x, pt[0].y, pt[1].x, pt[1].y) ;
}
}
void DrawHands (HDC hdc, SYSTEMTIME * pst, BOOL fChange)
{
static POINT pt[3][5] = { 0, -150, 100, 0, 0, 600, -100, 0, 0, -150,
0, -200, 50, 0, 0, 800, -50, 0, 0, -200,
0, 0, 0, 0, 0, 0, 0, 0, 0, 800 } ;
int i, iAngle[3] ;
POINT ptTemp[3][5] ;
iAngle[0] = (pst->wHour * 30) % 360 + pst->wMinute / 2 ;
iAngle[1] = pst->wMinute * 6 ;
iAngle[2] = pst->wSecond * 6 ;
memcpy (ptTemp, pt, sizeof (pt)) ;
for (i = fChange ? 0 : 2 ; i < 3 ; i++)
{
RotatePoint (ptTemp[i], 5, iAngle[i]) ;
Polyline (hdc, ptTemp[i], 5) ;
}
}
LRESULT CALLBACK WndProc (HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
{
static int cxClient, cyClient ;
static SYSTEMTIME stPrevious ;
BOOL fChange ;
HDC hdc ;
PAINTSTRUCT ps ;
SYSTEMTIME st ;
switch (message)
{
case WM_CREATE :
SetTimer (hwnd, ID_TIMER, 1000, NULL) ;
GetLocalTime (&st) ;
stPrevious = st ;
return 0 ;
case WM_SIZE :
cxClient = LOWORD (lParam) ;
cyClient = HIWORD (lParam) ;
return 0 ;
case WM_TIMER :
GetLocalTime (&st) ;
fChange = st.wHour != stPrevious.wHour ||
st.wMinute != stPrevious.wMinute ;
hdc = GetDC (hwnd) ;
SetIsotropic (hdc, cxClient, cyClient) ;
SelectObject (hdc, GetStockObject (WHITE_PEN)) ;
DrawHands (hdc, &stPrevious, fChange) ;
SelectObject (hdc, GetStockObject (BLACK_PEN)) ;
DrawHands (hdc, &st, TRUE) ;
ReleaseDC (hwnd, hdc) ;
stPrevious = st ;
return 0 ;
case WM_PAINT :
hdc = BeginPaint (hwnd, &ps) ;
SetIsotropic (hdc, cxClient, cyClient) ;
DrawClock (hdc) ;
DrawHands (hdc, &stPrevious, TRUE) ;
EndPaint (hwnd, &ps) ;
return 0 ;
case WM_DESTROY :
KillTimer (hwnd, ID_TIMER) ;
PostQuitMessage (0) ;
return 0 ;
}
return DefWindowProc (hwnd, message, wParam, lParam) ;
}
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