Sweden-Number/dlls/comctl32/tests/header.c

1856 lines
61 KiB
C

/* Unit test suite for header control.
*
* Copyright 2005 Vijay Kiran Kamuju
* Copyright 2007 Shanren Zhou
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <windows.h>
#include <commctrl.h>
#include "wine/test.h"
#include "v6util.h"
#include "msg.h"
typedef struct tagEXPECTEDNOTIFY
{
INT iCode;
BOOL fUnicode;
HDITEMA hdItem;
} EXPECTEDNOTIFY;
typedef LRESULT (*CUSTOMDRAWPROC)(int n, NMCUSTOMDRAW *nm);
static CUSTOMDRAWPROC g_CustomDrawProc;
static int g_CustomDrawCount;
static DRAWITEMSTRUCT g_DrawItem;
static BOOL g_DrawItemReceived;
static DWORD g_customheight;
static EXPECTEDNOTIFY expectedNotify[10];
static INT nExpectedNotify = 0;
static INT nReceivedNotify = 0;
static INT unexpectedNotify[10];
static INT nUnexpectedNotify = 0;
static HWND hHeaderParentWnd;
static HWND hWndHeader;
#define MAX_CHARS 100
#define compare(val, exp, fmt) ok((val) == (exp), #val " value: " fmt ", expected: " fmt "\n", (val), (exp))
#define expect(expected, got) ok(expected == got, "expected %d, got %d\n", expected,got)
#define NUM_MSG_SEQUENCES 2
#define PARENT_SEQ_INDEX 0
#define HEADER_SEQ_INDEX 1
static struct msg_sequence *sequences[NUM_MSG_SEQUENCES];
static const struct message create_parent_wnd_seq[] = {
{ WM_GETMINMAXINFO, sent },
{ WM_NCCREATE, sent },
{ WM_NCCALCSIZE, sent|wparam, 0 },
{ WM_CREATE, sent },
{ 0 }
};
static const struct message add_header_to_parent_seq_interactive[] = {
{ WM_NOTIFYFORMAT, sent|lparam, 0, NF_QUERY },
{ WM_QUERYUISTATE, sent },
{ WM_PARENTNOTIFY, sent|wparam, 1 },
{ WM_SHOWWINDOW, sent|wparam, 1 },
{ WM_WINDOWPOSCHANGING, sent|wparam, 0 },
{ WM_WINDOWPOSCHANGING, sent|wparam, 0 },
{ WM_ACTIVATEAPP, sent|wparam, 1 },
{ WM_NCACTIVATE, sent|wparam, 1 },
{ WM_ACTIVATE, sent|wparam, 1 },
{ WM_IME_SETCONTEXT, sent|defwinproc|wparam, 1 },
{ WM_IME_NOTIFY, sent|defwinproc|wparam, 2 },
{ WM_SETFOCUS, sent|defwinproc|wparam, 0 },
{ WM_WINDOWPOSCHANGED, sent|wparam, 0 },
{ WM_SIZE, sent|wparam, 0 },
{ WM_MOVE, sent|wparam, 0 },
{ 0 }
};
static const struct message add_header_to_parent_seq[] = {
{ WM_NOTIFYFORMAT, sent|lparam, 0, NF_QUERY },
{ WM_QUERYUISTATE, sent|optional },
{ WM_PARENTNOTIFY, sent },
{ 0 }
};
static const struct message insertItem_seq[] = {
{ HDM_INSERTITEMA, sent|wparam, 0 },
{ HDM_INSERTITEMA, sent|wparam, 1 },
{ HDM_INSERTITEMA, sent|wparam, 2 },
{ HDM_INSERTITEMA, sent|wparam, 3 },
{ 0 }
};
static const struct message getItem_seq[] = {
{ HDM_GETITEMA, sent|wparam, 3 },
{ HDM_GETITEMA, sent|wparam, 0 },
{ 0 }
};
static const struct message deleteItem_getItemCount_seq[] = {
{ HDM_DELETEITEM, sent|wparam, 3 },
{ HDM_GETITEMCOUNT, sent },
{ HDM_DELETEITEM, sent|wparam, 3 },
{ HDM_GETITEMCOUNT, sent },
{ HDM_DELETEITEM, sent|wparam, 2 },
{ HDM_GETITEMCOUNT, sent },
{ 0 }
};
static const struct message orderArray_seq[] = {
{ HDM_SETORDERARRAY, sent|wparam, 2 },
{ HDM_GETORDERARRAY, sent|wparam, 2 },
{ 0 }
};
static const struct message setItem_seq[] = {
{ HDM_SETITEMA, sent|wparam, 0 },
{ HDM_SETITEMA, sent|wparam, 1 },
{ 0 }
};
static const struct message getItemRect_seq[] = {
{ HDM_GETITEMRECT, sent|wparam, 1 },
{ HDM_GETITEMRECT, sent|wparam, 0 },
{ HDM_GETITEMRECT, sent|wparam, 10 },
{ 0 }
};
static const struct message layout_seq[] = {
{ HDM_LAYOUT, sent },
{ 0 }
};
static const struct message orderToIndex_seq[] = {
{ HDM_ORDERTOINDEX, sent|wparam, 1 },
{ 0 }
};
static const struct message hittest_seq[] = {
{ HDM_HITTEST, sent },
{ HDM_HITTEST, sent },
{ HDM_HITTEST, sent },
{ 0 }
};
static const struct message setHotDivider_seq_interactive[] = {
{ HDM_SETHOTDIVIDER, sent|wparam, TRUE },
{ WM_PAINT, sent|defwinproc},
{ WM_NCPAINT, sent|defwinproc},
{ WM_ERASEBKGND, sent|defwinproc},
{ HDM_SETHOTDIVIDER, sent|wparam|lparam, FALSE, 100 },
{ WM_PAINT, sent|defwinproc},
{ HDM_SETHOTDIVIDER, sent|wparam|lparam, FALSE, 1},
{ WM_PAINT, sent|defwinproc},
{ 0 }
};
static const struct message setHotDivider_seq_noninteractive[] = {
{ HDM_SETHOTDIVIDER, sent|wparam, TRUE },
{ HDM_SETHOTDIVIDER, sent|wparam|lparam, FALSE, 100 },
{ HDM_SETHOTDIVIDER, sent|wparam|lparam, FALSE, 1},
{ 0 }
};
static const struct message imageMessages_seq[] = {
{ HDM_SETIMAGELIST, sent },
{ HDM_GETIMAGELIST, sent },
{ HDM_CREATEDRAGIMAGE, sent },
{ 0 }
};
static const struct message filterMessages_seq_interactive[] = {
{ HDM_SETFILTERCHANGETIMEOUT, sent|wparam|lparam, 1, 100 },
{ HDM_CLEARFILTER, sent|wparam|lparam, 0, 1 },
{ HDM_EDITFILTER, sent|wparam|lparam, 1, 0 },
{ WM_PARENTNOTIFY, sent|wparam|defwinproc, WM_CREATE },
{ WM_CTLCOLOREDIT, sent|defwinproc },
{ WM_COMMAND, sent|defwinproc },
{ 0 }
};
static const struct message filterMessages_seq_noninteractive[] = {
{ HDM_SETFILTERCHANGETIMEOUT, sent|wparam|lparam, 1, 100 },
{ HDM_CLEARFILTER, sent|wparam|lparam, 0, 1 },
{ HDM_EDITFILTER, sent|wparam|lparam, 1, 0 },
{ WM_PARENTNOTIFY, sent|wparam|defwinproc|optional, WM_CREATE },
{ WM_COMMAND, sent|defwinproc|optional },
{ 0 }
};
static const struct message unicodeformatMessages_seq[] = {
{ HDM_SETUNICODEFORMAT, sent|wparam, TRUE },
{ HDM_GETUNICODEFORMAT, sent },
{ 0 }
};
static const struct message bitmapmarginMessages_seq[] = {
{ HDM_GETBITMAPMARGIN, sent },
{ 0 }
};
static void expect_notify(INT iCode, BOOL fUnicode, HDITEMA *lpItem)
{
ok(nExpectedNotify < 10, "notification count %d\n", nExpectedNotify);
if (nExpectedNotify < 10)
{
expectedNotify[nExpectedNotify].iCode = iCode;
expectedNotify[nExpectedNotify].fUnicode = fUnicode;
expectedNotify[nExpectedNotify].hdItem = *lpItem;
nExpectedNotify++;
}
}
static void dont_expect_notify(INT iCode)
{
ok(nExpectedNotify < 10, "notification count %d\n", nExpectedNotify);
if (nExpectedNotify < 10)
unexpectedNotify[nUnexpectedNotify++] = iCode;
}
static BOOL notifies_received(void)
{
BOOL fRet = (nExpectedNotify == nReceivedNotify);
nExpectedNotify = nReceivedNotify = 0;
nUnexpectedNotify = 0;
return fRet;
}
static LONG addItem(HWND hdex, int idx, LPSTR text)
{
HDITEMA hdItem;
hdItem.mask = HDI_TEXT | HDI_WIDTH;
hdItem.cxy = 100;
hdItem.pszText = text;
hdItem.cchTextMax = 0;
return SendMessageA(hdex, HDM_INSERTITEMA, idx, (LPARAM)&hdItem);
}
static LONG setItem(HWND hdex, int idx, LPSTR text, BOOL fCheckNotifies)
{
LONG ret;
HDITEMA hdexItem;
hdexItem.mask = HDI_TEXT;
hdexItem.pszText = text;
hdexItem.cchTextMax = 0;
if (fCheckNotifies)
{
expect_notify(HDN_ITEMCHANGINGA, FALSE, &hdexItem);
expect_notify(HDN_ITEMCHANGEDA, FALSE, &hdexItem);
}
ret = SendMessageA(hdex, HDM_SETITEMA, idx, (LPARAM)&hdexItem);
if (fCheckNotifies)
ok(notifies_received(), "setItem(): not all expected notifies were received\n");
return ret;
}
static LONG setItemUnicodeNotify(HWND hdex, int idx, LPSTR text, LPWSTR wText)
{
LONG ret;
HDITEMA hdexItem;
HDITEMW hdexNotify;
hdexItem.mask = HDI_TEXT;
hdexItem.pszText = text;
hdexItem.cchTextMax = 0;
hdexNotify.mask = HDI_TEXT;
hdexNotify.pszText = wText;
expect_notify(HDN_ITEMCHANGINGW, TRUE, (HDITEMA*)&hdexNotify);
expect_notify(HDN_ITEMCHANGEDW, TRUE, (HDITEMA*)&hdexNotify);
ret = SendMessageA(hdex, HDM_SETITEMA, idx, (LPARAM)&hdexItem);
ok(notifies_received(), "setItemUnicodeNotify(): not all expected notifies were received\n");
return ret;
}
static LONG delItem(HWND hdex, int idx)
{
return SendMessageA(hdex, HDM_DELETEITEM, idx, 0);
}
static LONG getItemCount(HWND hdex)
{
return SendMessageA(hdex, HDM_GETITEMCOUNT, 0, 0);
}
static LONG getItem(HWND hdex, int idx, LPSTR textBuffer)
{
HDITEMA hdItem;
hdItem.mask = HDI_TEXT;
hdItem.pszText = textBuffer;
hdItem.cchTextMax = MAX_CHARS;
return SendMessageA(hdex, HDM_GETITEMA, idx, (LPARAM)&hdItem);
}
static void addReadDelItem(HWND hdex, HDITEMA *phdiCreate, int maskRead, HDITEMA *phdiRead)
{
ok(SendMessageA(hdex, HDM_INSERTITEMA, 0, (LPARAM)phdiCreate)!=-1, "Adding item failed\n");
ZeroMemory(phdiRead, sizeof(HDITEMA));
phdiRead->mask = maskRead;
ok(SendMessageA(hdex, HDM_GETITEMA, 0, (LPARAM)phdiRead)!=0, "Getting item data failed\n");
ok(SendMessageA(hdex, HDM_DELETEITEM, 0, 0)!=0, "Deleting item failed\n");
}
static HWND create_header_control (void)
{
HWND handle;
HDLAYOUT hlayout;
RECT rectwin;
WINDOWPOS winpos;
handle = CreateWindowExA(0, WC_HEADERA, NULL,
WS_CHILD|WS_BORDER|WS_VISIBLE|HDS_BUTTONS|HDS_HORZ,
0, 0, 0, 0,
hHeaderParentWnd, NULL, NULL, NULL);
ok(handle != NULL, "failed to create header window\n");
if (winetest_interactive)
ShowWindow (hHeaderParentWnd, SW_SHOW);
GetClientRect(hHeaderParentWnd,&rectwin);
hlayout.prc = &rectwin;
hlayout.pwpos = &winpos;
SendMessageA(handle, HDM_LAYOUT, 0, (LPARAM)&hlayout);
SetWindowPos(handle, winpos.hwndInsertAfter, winpos.x, winpos.y,
winpos.cx, winpos.cy, 0);
return handle;
}
static void compare_items(INT iCode, HDITEMA *hdi1, HDITEMA *hdi2, BOOL fUnicode)
{
ok(hdi1->mask == hdi2->mask, "Notify %d mask mismatch (%08x != %08x)\n", iCode, hdi1->mask, hdi2->mask);
if (hdi1->mask & HDI_WIDTH)
{
ok(hdi1->cxy == hdi2->cxy, "Notify %d cxy mismatch (%08x != %08x)\n", iCode, hdi1->cxy, hdi2->cxy);
}
if (hdi1->mask & HDI_TEXT)
{
if (hdi1->pszText == LPSTR_TEXTCALLBACKA)
{
ok(hdi1->pszText == LPSTR_TEXTCALLBACKA, "Notify %d - only one item is LPSTR_TEXTCALLBACK\n", iCode);
}
else
if (fUnicode)
{
char buf1[260];
char buf2[260];
WideCharToMultiByte(CP_ACP, 0, (LPCWSTR)hdi1->pszText, -1, buf1, 260, NULL, NULL);
WideCharToMultiByte(CP_ACP, 0, (LPCWSTR)hdi2->pszText, -1, buf2, 260, NULL, NULL);
ok(lstrcmpW((LPWSTR)hdi1->pszText, (LPWSTR)hdi2->pszText)==0,
"Notify %d text mismatch (L\"%s\" vs L\"%s\")\n",
iCode, buf1, buf2);
}
else
{
ok(strcmp(hdi1->pszText, hdi2->pszText)==0,
"Notify %d text mismatch (\"%s\" vs \"%s\")\n",
iCode, hdi1->pszText, hdi2->pszText);
}
}
}
static char pszFirstItem[] = "First Item";
static char pszSecondItem[] = "Second Item";
static char pszThirdItem[] = "Third Item";
static char pszFourthItem[] = "Fourth Item";
static char pszReplaceItem[] = "Replace Item";
static char pszOutOfRangeItem[] = "Out Of Range Item";
static char *str_items[] =
{pszFirstItem, pszSecondItem, pszThirdItem, pszFourthItem, pszReplaceItem, pszOutOfRangeItem};
static char pszUniTestA[] = "TST";
static WCHAR pszUniTestW[] = {'T','S','T',0};
#define TEST_GET_ITEM(i,c)\
{ res = getItem(hWndHeader, i, buffer);\
ok(res != 0, "Getting item[%d] using valid index failed unexpectedly (%d)\n", i, res);\
ok(strcmp(str_items[c], buffer) == 0, "Getting item[%d] returned \"%s\" expecting \"%s\"\n", i, buffer, str_items[c]);\
}
#define TEST_GET_ITEMCOUNT(i)\
{ res = getItemCount(hWndHeader);\
ok(res == i, "Got Item Count as %d\n", res);\
}
static LRESULT WINAPI header_subclass_proc(HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
{
WNDPROC oldproc = (WNDPROC)GetWindowLongPtrA(hwnd, GWLP_USERDATA);
static LONG defwndproc_counter = 0;
LRESULT ret;
struct message msg;
msg.message = message;
msg.flags = sent|wparam|lparam;
if (defwndproc_counter) msg.flags |= defwinproc;
msg.wParam = wParam;
msg.lParam = lParam;
msg.id = 0;
add_message(sequences, HEADER_SEQ_INDEX, &msg);
defwndproc_counter++;
ret = CallWindowProcA(oldproc, hwnd, message, wParam, lParam);
defwndproc_counter--;
return ret;
}
static LRESULT WINAPI parent_wnd_proc(HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
{
static LONG defwndproc_counter = 0;
LRESULT ret;
struct message msg;
/* do not log painting messages */
if (message != WM_PAINT &&
message != WM_ERASEBKGND &&
message != WM_NCPAINT &&
message != WM_NCHITTEST &&
message != WM_GETTEXT &&
message != WM_GETICON &&
message != WM_DEVICECHANGE)
{
msg.message = message;
msg.flags = sent|wparam|lparam;
if (defwndproc_counter) msg.flags |= defwinproc;
msg.wParam = wParam;
msg.lParam = lParam;
msg.id = 0;
add_message(sequences, PARENT_SEQ_INDEX, &msg);
}
defwndproc_counter++;
ret = DefWindowProcA(hwnd, message, wParam, lParam);
defwndproc_counter--;
return ret;
}
static BOOL register_parent_wnd_class(void)
{
WNDCLASSA cls;
cls.style = 0;
cls.lpfnWndProc = parent_wnd_proc;
cls.cbClsExtra = 0;
cls.cbWndExtra = 0;
cls.hInstance = GetModuleHandleA(NULL);
cls.hIcon = 0;
cls.hCursor = LoadCursorA(0, (LPCSTR)IDC_ARROW);
cls.hbrBackground = GetStockObject(WHITE_BRUSH);
cls.lpszMenuName = NULL;
cls.lpszClassName = "Header test parent class";
return RegisterClassA(&cls);
}
static HWND create_custom_parent_window(void)
{
if (!register_parent_wnd_class())
return NULL;
return CreateWindowExA(0, "Header test parent class", "Header Message Sequence Testing",
WS_OVERLAPPEDWINDOW, CW_USEDEFAULT, CW_USEDEFAULT,
672+2*GetSystemMetrics(SM_CXSIZEFRAME),
226+GetSystemMetrics(SM_CYCAPTION)+2*GetSystemMetrics(SM_CYSIZEFRAME),
NULL, NULL, GetModuleHandleA(NULL), 0);
}
static HWND create_custom_header_control(HWND hParent, BOOL preloadHeaderItems)
{
WNDPROC oldproc;
HWND childHandle;
HDLAYOUT hlayout;
RECT rectwin;
WINDOWPOS winpos;
int retVal;
int loopcnt;
static char firstHeaderItem[] = "Name";
static char secondHeaderItem[] = "Size";
static char *items[] = {secondHeaderItem, firstHeaderItem};
HDITEMA hdItem;
hdItem.mask = HDI_TEXT | HDI_WIDTH | HDI_FORMAT;
hdItem.fmt = HDF_LEFT;
hdItem.cxy = 80;
hdItem.cchTextMax = 260;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
childHandle = CreateWindowExA(0, WC_HEADERA, NULL,
WS_CHILD|WS_BORDER|WS_VISIBLE|HDS_BUTTONS|HDS_HORZ,
0, 0, 0, 0,
hParent, NULL, NULL, NULL);
ok(childHandle != NULL, "failed to create child window\n");
if (preloadHeaderItems)
{
for ( loopcnt = 0 ; loopcnt < 2 ; loopcnt++ )
{
hdItem.pszText = items[loopcnt];
retVal = SendMessageA(childHandle, HDM_INSERTITEMA, loopcnt, (LPARAM) &hdItem);
ok(retVal == loopcnt, "Adding item %d failed with return value %d\n", ( loopcnt + 1 ), retVal);
}
}
if (winetest_interactive)
ShowWindow (hParent, SW_SHOW);
GetClientRect(hParent,&rectwin);
hlayout.prc = &rectwin;
hlayout.pwpos = &winpos;
SendMessageA(childHandle,HDM_LAYOUT,0,(LPARAM) &hlayout);
SetWindowPos(childHandle, winpos.hwndInsertAfter, winpos.x, winpos.y,
winpos.cx, winpos.cy, 0);
oldproc = (WNDPROC)SetWindowLongPtrA(childHandle, GWLP_WNDPROC,
(LONG_PTR)header_subclass_proc);
SetWindowLongPtrA(childHandle, GWLP_USERDATA, (LONG_PTR)oldproc);
return childHandle;
}
static void check_auto_format(void)
{
HDITEMA hdiCreate;
HDITEMA hdiRead;
static CHAR text[] = "Test";
ZeroMemory(&hdiCreate, sizeof(HDITEMA));
/* Windows implicitly sets some format bits in INSERTITEM */
/* HDF_STRING is automatically set and cleared for no text */
hdiCreate.mask = HDI_TEXT|HDI_WIDTH|HDI_FORMAT;
hdiCreate.pszText = text;
hdiCreate.cxy = 100;
hdiCreate.fmt=HDF_CENTER;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == (HDF_STRING|HDF_CENTER), "HDF_STRING not set automatically (fmt=%x)\n", hdiRead.fmt);
hdiCreate.mask = HDI_WIDTH|HDI_FORMAT;
hdiCreate.pszText = text;
hdiCreate.fmt = HDF_CENTER|HDF_STRING;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == (HDF_CENTER), "HDF_STRING should be automatically cleared (fmt=%x)\n", hdiRead.fmt);
/* HDF_BITMAP is automatically set and cleared for a NULL bitmap or no bitmap */
hdiCreate.mask = HDI_BITMAP|HDI_WIDTH|HDI_FORMAT;
hdiCreate.hbm = CreateBitmap(16, 16, 1, 8, NULL);
hdiCreate.fmt = HDF_CENTER;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == (HDF_BITMAP|HDF_CENTER), "HDF_BITMAP not set automatically (fmt=%x)\n", hdiRead.fmt);
DeleteObject(hdiCreate.hbm);
hdiCreate.hbm = NULL;
hdiCreate.fmt = HDF_CENTER|HDF_BITMAP;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == HDF_CENTER, "HDF_BITMAP not cleared automatically for NULL bitmap (fmt=%x)\n", hdiRead.fmt);
hdiCreate.mask = HDI_WIDTH|HDI_FORMAT;
hdiCreate.fmt = HDF_CENTER|HDF_BITMAP;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == HDF_CENTER, "HDF_BITMAP not cleared automatically for no bitmap (fmt=%x)\n", hdiRead.fmt);
/* HDF_IMAGE is automatically set but not cleared */
hdiCreate.mask = HDI_IMAGE|HDI_WIDTH|HDI_FORMAT;
hdiCreate.iImage = 17;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == (HDF_IMAGE|HDF_CENTER), "HDF_IMAGE not set automatically (fmt=%x)\n", hdiRead.fmt);
hdiCreate.mask = HDI_WIDTH|HDI_FORMAT;
hdiCreate.fmt = HDF_CENTER|HDF_IMAGE;
hdiCreate.iImage = 0;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
ok(hdiRead.fmt == (HDF_CENTER|HDF_IMAGE), "HDF_IMAGE shouldn't be cleared automatically (fmt=%x)\n", hdiRead.fmt);
}
static void check_auto_fields(void)
{
HDITEMA hdiCreate;
HDITEMA hdiRead;
static CHAR text[] = "Test";
LONG res;
/* Windows stores the format, width, lparam even if they are not in the item's mask */
ZeroMemory(&hdiCreate, sizeof(HDITEMA));
hdiCreate.mask = HDI_TEXT;
hdiCreate.cxy = 100;
hdiCreate.pszText = text;
addReadDelItem(hWndHeader, &hdiCreate, HDI_WIDTH, &hdiRead);
TEST_GET_ITEMCOUNT(6);
ok(hdiRead.cxy == hdiCreate.cxy, "cxy should be automatically set\n");
ZeroMemory(&hdiCreate, sizeof(HDITEMA));
hdiCreate.mask = HDI_TEXT;
hdiCreate.pszText = text;
hdiCreate.lParam = 0x12345678;
addReadDelItem(hWndHeader, &hdiCreate, HDI_LPARAM, &hdiRead);
TEST_GET_ITEMCOUNT(6);
ok(hdiRead.lParam == hdiCreate.lParam, "lParam should be automatically set\n");
ZeroMemory(&hdiCreate, sizeof(HDITEMA));
hdiCreate.mask = HDI_TEXT;
hdiCreate.pszText = text;
hdiCreate.fmt = HDF_STRING|HDF_CENTER;
addReadDelItem(hWndHeader, &hdiCreate, HDI_FORMAT, &hdiRead);
TEST_GET_ITEMCOUNT(6);
ok(hdiRead.fmt == hdiCreate.fmt, "fmt should be automatically set\n");
/* others fields are not set */
ZeroMemory(&hdiCreate, sizeof(HDITEMA));
hdiCreate.mask = HDI_TEXT;
hdiCreate.pszText = text;
hdiCreate.hbm = CreateBitmap(16, 16, 1, 8, NULL);
addReadDelItem(hWndHeader, &hdiCreate, HDI_BITMAP, &hdiRead);
TEST_GET_ITEMCOUNT(6);
ok(hdiRead.hbm == NULL, "hbm should not be automatically set\n");
DeleteObject(hdiCreate.hbm);
ZeroMemory(&hdiCreate, sizeof(HDITEMA));
hdiCreate.mask = HDI_IMAGE;
hdiCreate.iImage = 17;
hdiCreate.pszText = text;
addReadDelItem(hWndHeader, &hdiCreate, HDI_TEXT, &hdiRead);
TEST_GET_ITEMCOUNT(6);
ok(hdiRead.pszText==NULL, "pszText shouldn't be automatically set\n");
/* field from comctl >4.0 not tested as the system probably won't touch them */
}
static void check_mask(void)
{
HDITEMA hdi;
static CHAR text[] = "ABC";
LRESULT ret;
/* don't create items if the mask is zero */
ZeroMemory(&hdi, sizeof(hdi));
hdi.mask = 0;
hdi.cxy = 200;
hdi.pszText = text;
hdi.fmt = 0;
hdi.iOrder = 0;
hdi.lParam = 17;
hdi.cchTextMax = 260;
ret = SendMessageA(hWndHeader, HDM_INSERTITEMA, 0, (LPARAM)&hdi);
ok(ret == -1, "Creating an item with a zero mask should have failed\n");
if (ret != -1) SendMessageA(hWndHeader, HDM_DELETEITEM, 0, 0);
/* with a non-zero mask creation will succeed */
ZeroMemory(&hdi, sizeof(hdi));
hdi.mask = HDI_LPARAM;
ret = SendMessageA(hWndHeader, HDM_INSERTITEMA, 0, (LPARAM)&hdi);
ok(ret != -1, "Adding item with non-zero mask failed\n");
if (ret != -1)
SendMessageA(hWndHeader, HDM_DELETEITEM, 0, 0);
/* in SETITEM if the mask contains a unknown bit, it is ignored */
ZeroMemory(&hdi, sizeof(hdi));
hdi.mask = 0x08000000 | HDI_LPARAM | HDI_IMAGE;
hdi.lParam = 133;
hdi.iImage = 17;
ret = SendMessageA(hWndHeader, HDM_INSERTITEMA, 0, (LPARAM)&hdi);
ok(ret != -1, "Adding item failed\n");
if (ret != -1)
{
/* check result */
ZeroMemory(&hdi, sizeof(hdi));
hdi.mask = HDI_LPARAM | HDI_IMAGE;
SendMessageA(hWndHeader, HDM_GETITEMA, 0, (LPARAM)&hdi);
ok(hdi.lParam == 133, "comctl32 4.0 field not set\n");
ok(hdi.iImage == 17, "comctl32 >4.0 field not set\n");
/* but in GETITEM if an unknown bit is set, comctl32 uses only version 4.0 fields */
ZeroMemory(&hdi, sizeof(hdi));
hdi.mask = 0x08000000 | HDI_LPARAM | HDI_IMAGE;
SendMessageA(hWndHeader, HDM_GETITEMA, 0, (LPARAM)&hdi);
ok(hdi.lParam == 133, "comctl32 4.0 field not read\n");
ok(hdi.iImage == 0, "comctl32 >4.0 field shouldn't be read\n");
SendMessageA(hWndHeader, HDM_DELETEITEM, 0, 0);
}
}
static void test_header_control (void)
{
LONG res;
static char buffer[MAX_CHARS];
int i;
hWndHeader = create_header_control ();
for (i = 3; i >= 0; i--)
{
TEST_GET_ITEMCOUNT(3-i);
res = addItem(hWndHeader, 0, str_items[i]);
ok(res == 0, "Adding simple item failed (%d)\n", res);
}
TEST_GET_ITEMCOUNT(4);
res = addItem(hWndHeader, 99, str_items[i+1]);
ok(res != -1, "Adding Out of Range item should fail with -1 got (%d)\n", res);
TEST_GET_ITEMCOUNT(5);
res = addItem(hWndHeader, 5, str_items[i+1]);
ok(res != -1, "Adding Out of Range item should fail with -1 got (%d)\n", res);
TEST_GET_ITEMCOUNT(6);
for (i = 0; i < 4; i++) { TEST_GET_ITEM(i,i); TEST_GET_ITEMCOUNT(6); }
res=getItem(hWndHeader, 99, buffer);
ok(res == 0, "Getting Out of Range item should fail with 0 (%d), got %s\n", res,buffer);
res=getItem(hWndHeader, 5, buffer);
ok(res == 1, "Getting Out of Range item should fail with 1 (%d), got %s\n", res,buffer);
res=getItem(hWndHeader, -2, buffer);
ok(res == 0, "Getting Out of Range item should fail with 0 (%d), got %s\n", res,buffer);
if (winetest_interactive)
{
UpdateWindow(hHeaderParentWnd);
UpdateWindow(hWndHeader);
}
TEST_GET_ITEMCOUNT(6);
res=setItem(hWndHeader, 99, str_items[5], FALSE);
ok(res == 0, "Setting Out of Range item should fail with 0 (%d)\n", res);
res=setItem(hWndHeader, 5, str_items[5], TRUE);
ok(res == 1, "Setting Out of Range item should fail with 1 (%d)\n", res);
res=setItem(hWndHeader, -2, str_items[5], FALSE);
ok(res == 0, "Setting Out of Range item should fail with 0 (%d)\n", res);
TEST_GET_ITEMCOUNT(6);
for (i = 0; i < 4; i++)
{
res = setItem(hWndHeader, i, str_items[4], TRUE);
ok(res != 0, "Setting %d item failed (%d)\n", i+1, res);
TEST_GET_ITEM(i, 4);
TEST_GET_ITEMCOUNT(6);
}
SendMessageA(hWndHeader, HDM_SETUNICODEFORMAT, TRUE, 0);
setItemUnicodeNotify(hWndHeader, 3, pszUniTestA, pszUniTestW);
SendMessageA(hWndHeader, WM_NOTIFYFORMAT, (WPARAM)hHeaderParentWnd, NF_REQUERY);
setItem(hWndHeader, 3, str_items[4], TRUE);
dont_expect_notify(HDN_GETDISPINFOA);
dont_expect_notify(HDN_GETDISPINFOW);
addItem(hWndHeader, 0, LPSTR_TEXTCALLBACKA);
setItem(hWndHeader, 0, str_items[4], TRUE);
/* unexpected notifies cleared by notifies_received in setItem */
dont_expect_notify(HDN_GETDISPINFOA);
dont_expect_notify(HDN_GETDISPINFOW);
setItem(hWndHeader, 0, LPSTR_TEXTCALLBACKA, TRUE);
/* unexpected notifies cleared by notifies_received in setItem */
delItem(hWndHeader, 0);
check_auto_format();
TEST_GET_ITEMCOUNT(6);
check_auto_fields();
TEST_GET_ITEMCOUNT(6);
check_mask();
TEST_GET_ITEMCOUNT(6);
res = delItem(hWndHeader, 5);
ok(res == 1, "Deleting Out of Range item should fail with 1 (%d)\n", res);
res = delItem(hWndHeader, -2);
ok(res == 0, "Deleting Out of Range item should fail with 0 (%d)\n", res);
TEST_GET_ITEMCOUNT(5);
res = delItem(hWndHeader, 3);
ok(res != 0, "Deleting using out of range index failed (%d)\n", res);
TEST_GET_ITEMCOUNT(4);
res = delItem(hWndHeader, 0);
ok(res != 0, "Deleting using out of range index failed (%d)\n", res);
TEST_GET_ITEMCOUNT(3);
res = delItem(hWndHeader, 0);
ok(res != 0, "Deleting using out of range index failed (%d)\n", res);
TEST_GET_ITEMCOUNT(2);
res = delItem(hWndHeader, 0);
ok(res != 0, "Deleting using out of range index failed (%d)\n", res);
TEST_GET_ITEMCOUNT(1);
DestroyWindow(hWndHeader);
}
static void test_hdm_getitemrect(HWND hParent)
{
HWND hChild;
RECT rect;
int retVal;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
retVal = SendMessageA(hChild, HDM_GETITEMRECT, 1, (LPARAM) &rect);
ok(retVal == TRUE, "Getting item rect should TRUE, got %d\n", retVal);
/* check bounding rectangle information of 2nd header item */
expect(80, rect.left);
expect(0, rect.top);
expect(160, rect.right);
expect(g_customheight, rect.bottom);
retVal = SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM) &rect);
ok(retVal == TRUE, "Getting item rect should TRUE, got %d\n", retVal);
/* check bounding rectangle information of 1st header item */
expect(0, rect.left);
expect(0, rect.top);
expect(80, rect.right);
expect(g_customheight, rect.bottom);
retVal = SendMessageA(hChild, HDM_GETITEMRECT, 10, (LPARAM) &rect);
ok(retVal == 0, "Getting rect of nonexistent item should return 0, got %d\n", retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, getItemRect_seq, "getItemRect sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_layout(HWND hParent)
{
HWND hChild;
int retVal;
RECT rect;
HDLAYOUT hdLayout;
WINDOWPOS windowPos;
hdLayout.prc = &rect;
hdLayout.pwpos = &windowPos;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_LAYOUT, 0, (LPARAM) &hdLayout);
expect(TRUE, retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, layout_seq, "layout sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_ordertoindex(HWND hParent)
{
HWND hChild;
int retVal;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_ORDERTOINDEX, 1, 0);
expect(1, retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, orderToIndex_seq, "orderToIndex sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_hittest(HWND hParent)
{
HWND hChild;
int retVal;
POINT pt;
HDHITTESTINFO hdHitTestInfo;
const int firstItemRightBoundary = 80;
const int secondItemRightBoundary = 160;
const int bottomBoundary = g_customheight;
pt.x = firstItemRightBoundary - 1;
pt.y = bottomBoundary - 1;
hdHitTestInfo.pt = pt;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_HITTEST, 0, (LPARAM) &hdHitTestInfo);
expect(0, retVal);
expect(0, hdHitTestInfo.iItem);
expect(HHT_ONDIVIDER, hdHitTestInfo.flags);
pt.x = secondItemRightBoundary - 1;
pt.y = bottomBoundary - 1;
hdHitTestInfo.pt = pt;
retVal = SendMessageA(hChild, HDM_HITTEST, 1, (LPARAM) &hdHitTestInfo);
expect(1, retVal);
expect(1, hdHitTestInfo.iItem);
expect(HHT_ONDIVIDER, hdHitTestInfo.flags);
pt.x = secondItemRightBoundary;
pt.y = bottomBoundary + 1;
hdHitTestInfo.pt = pt;
retVal = SendMessageA(hChild, HDM_HITTEST, 0, (LPARAM) &hdHitTestInfo);
expect(-1, retVal);
expect(-1, hdHitTestInfo.iItem);
expect(HHT_BELOW, hdHitTestInfo.flags);
ok_sequence(sequences, HEADER_SEQ_INDEX, hittest_seq, "hittest sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_sethotdivider(HWND hParent)
{
HWND hChild;
int retVal;
/* low word: x coordinate = 5
* high word: y coordinate = 5
*/
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_SETHOTDIVIDER, TRUE, MAKELPARAM(5, 5));
expect(0, retVal);
retVal = SendMessageA(hChild, HDM_SETHOTDIVIDER, FALSE, 100);
expect(100, retVal);
retVal = SendMessageA(hChild, HDM_SETHOTDIVIDER, FALSE, 1);
expect(1, retVal);
if (winetest_interactive)
ok_sequence(sequences, HEADER_SEQ_INDEX, setHotDivider_seq_interactive,
"setHotDivider sequence testing", TRUE);
else
ok_sequence(sequences, HEADER_SEQ_INDEX, setHotDivider_seq_noninteractive,
"setHotDivider sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_imageMessages(HWND hParent)
{
HIMAGELIST hImageList = ImageList_Create (4, 4, 0, 1, 0);
HIMAGELIST hIml;
BOOL wasValid;
HWND hChild;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hIml = (HIMAGELIST) SendMessageA(hChild, HDM_SETIMAGELIST, 0, (LPARAM) hImageList);
ok(hIml == NULL, "Expected NULL, got %p\n", hIml);
hIml = (HIMAGELIST) SendMessageA(hChild, HDM_GETIMAGELIST, 0, 0);
ok(hIml != NULL, "Expected non-NULL handle, got %p\n", hIml);
hIml = (HIMAGELIST) SendMessageA(hChild, HDM_CREATEDRAGIMAGE, 0, 0);
ok(hIml != NULL, "Expected non-NULL handle, got %p\n", hIml);
ImageList_Destroy(hIml);
ok_sequence(sequences, HEADER_SEQ_INDEX, imageMessages_seq, "imageMessages sequence testing", FALSE);
DestroyWindow(hChild);
wasValid = ImageList_Destroy(hImageList);
ok(wasValid, "Header must not free image list at destruction!\n");
}
static void test_hdm_filterMessages(HWND hParent)
{
HWND hChild;
int retVal, timeout;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
timeout = SendMessageA(hChild, HDM_SETFILTERCHANGETIMEOUT, 1, 100);
SendMessageA(hChild, HDM_SETFILTERCHANGETIMEOUT, 1, timeout);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
/* msdn incorrectly states that return value
* is the index of the filter control being
* modified. The sendMessage here should
* return previous filter timeout value
*/
retVal = SendMessageA(hChild, HDM_SETFILTERCHANGETIMEOUT, 1, 100);
expect(timeout, retVal);
todo_wine
{
retVal = SendMessageA(hChild, HDM_CLEARFILTER, 0, 1);
if (retVal == 0)
win_skip("HDM_CLEARFILTER needs 5.80\n");
else
expect(1, retVal);
retVal = SendMessageA(hChild, HDM_EDITFILTER, 1, 0);
if (retVal == 0)
win_skip("HDM_EDITFILTER needs 5.80\n");
else
expect(1, retVal);
}
if (winetest_interactive)
ok_sequence(sequences, HEADER_SEQ_INDEX, filterMessages_seq_interactive,
"filterMessages sequence testing", TRUE);
else
ok_sequence(sequences, HEADER_SEQ_INDEX, filterMessages_seq_noninteractive,
"filterMessages sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_unicodeformatMessages(HWND hParent)
{
HWND hChild;
int retVal;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_SETUNICODEFORMAT, TRUE, 0);
expect(0, retVal);
retVal = SendMessageA(hChild, HDM_GETUNICODEFORMAT, 0, 0);
expect(1, retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, unicodeformatMessages_seq,
"unicodeformatMessages sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_bitmapmarginMessages(HWND hParent)
{
HWND hChild;
int retVal;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, TRUE);
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_GETBITMAPMARGIN, 0, 0);
if (retVal == 0)
win_skip("HDM_GETBITMAPMARGIN needs 5.80\n");
else
expect(6, retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, bitmapmarginMessages_seq,
"bitmapmarginMessages sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdm_index_messages(HWND hParent)
{
HWND hChild;
int retVal, i, iSize;
static const int lpiarray[2] = {1, 0};
static const char *item_texts[] = {
"Name", "Size", "Type", "Date Modified"
};
RECT rect;
HDITEMA hdItem;
char buffA[32];
int array[2];
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hChild = create_custom_header_control(hParent, FALSE);
if (winetest_interactive)
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq_interactive,
"adder header control to parent", TRUE);
else
ok_sequence(sequences, PARENT_SEQ_INDEX, add_header_to_parent_seq,
"adder header control to parent", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
for (i = 0; i < sizeof(item_texts)/sizeof(item_texts[0]); i++)
{
hdItem.mask = HDI_TEXT | HDI_WIDTH | HDI_FORMAT;
hdItem.pszText = (char*)item_texts[i];
hdItem.fmt = HDF_LEFT;
hdItem.cxy = 80;
retVal = SendMessageA(hChild, HDM_INSERTITEMA, i, (LPARAM) &hdItem);
ok(retVal == i, "Adding item %d failed with return value %d\n", i, retVal);
}
ok_sequence(sequences, HEADER_SEQ_INDEX, insertItem_seq, "insertItem sequence testing", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_DELETEITEM, 3, (LPARAM) &hdItem);
ok(retVal == TRUE, "Deleting item 3 should return TRUE, got %d\n", retVal);
retVal = SendMessageA(hChild, HDM_GETITEMCOUNT, 0, 0);
ok(retVal == 3, "Getting item count should return 3, got %d\n", retVal);
retVal = SendMessageA(hChild, HDM_DELETEITEM, 3, (LPARAM) &hdItem);
ok(retVal == FALSE, "Deleting already-deleted item should return FALSE, got %d\n", retVal);
retVal = SendMessageA(hChild, HDM_GETITEMCOUNT, 0, 0);
ok(retVal == 3, "Getting item count should return 3, got %d\n", retVal);
retVal = SendMessageA(hChild, HDM_DELETEITEM, 2, (LPARAM) &hdItem);
ok(retVal == TRUE, "Deleting item 2 should return TRUE, got %d\n", retVal);
retVal = SendMessageA(hChild, HDM_GETITEMCOUNT, 0, 0);
ok(retVal == 2, "Getting item count should return 2, got %d\n", retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, deleteItem_getItemCount_seq,
"deleteItem_getItemCount sequence testing", FALSE);
flush_sequences(sequences, NUM_MSG_SEQUENCES);
hdItem.mask = HDI_WIDTH;
retVal = SendMessageA(hChild, HDM_GETITEMA, 3, (LPARAM) &hdItem);
ok(retVal == FALSE, "Getting already-deleted item should return FALSE, got %d\n", retVal);
hdItem.mask = HDI_TEXT | HDI_WIDTH;
hdItem.pszText = buffA;
hdItem.cchTextMax = sizeof(buffA)/sizeof(buffA[0]);
retVal = SendMessageA(hChild, HDM_GETITEMA, 0, (LPARAM) &hdItem);
ok(retVal == TRUE, "Getting the 1st header item should return TRUE, got %d\n", retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, getItem_seq, "getItem sequence testing", FALSE);
/* check if the item is the right one */
ok(!strcmp(hdItem.pszText, item_texts[0]), "got wrong item %s, expected %s\n",
hdItem.pszText, item_texts[0]);
expect(80, hdItem.cxy);
iSize = SendMessageA(hChild, HDM_GETITEMCOUNT, 0, 0);
/* item should be updated just after accepting new array */
ShowWindow(hChild, SW_HIDE);
retVal = SendMessageA(hChild, HDM_SETORDERARRAY, iSize, (LPARAM) lpiarray);
expect(TRUE, retVal);
rect.left = 0;
retVal = SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM) &rect);
expect(TRUE, retVal);
ok(rect.left != 0, "Expected updated rectangle\n");
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_SETORDERARRAY, iSize, (LPARAM) lpiarray);
ok(retVal == TRUE, "Setting header items order should return TRUE, got %d\n", retVal);
retVal = SendMessageA(hChild, HDM_GETORDERARRAY, 2, (LPARAM) array);
ok(retVal == TRUE, "Getting header items order should return TRUE, got %d\n", retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, orderArray_seq, "set_get_orderArray sequence testing", FALSE);
/* check if the array order is set correctly and the size of the array is correct. */
expect(2, iSize);
ok(lpiarray[0] == array[0], "got %d, expected %d\n", array[0], lpiarray[0]);
ok(lpiarray[1] == array[1], "got %d, expected %d\n", array[1], lpiarray[1]);
hdItem.mask = HDI_FORMAT;
hdItem.fmt = HDF_CENTER | HDF_STRING;
flush_sequences(sequences, NUM_MSG_SEQUENCES);
retVal = SendMessageA(hChild, HDM_SETITEMA, 0, (LPARAM) &hdItem);
ok(retVal == TRUE, "Aligning 1st header item to center should return TRUE, got %d\n", retVal);
hdItem.fmt = HDF_RIGHT | HDF_STRING;
retVal = SendMessageA(hChild, HDM_SETITEMA, 1, (LPARAM) &hdItem);
ok(retVal == TRUE, "Aligning 2nd header item to right should return TRUE, got %d\n", retVal);
ok_sequence(sequences, HEADER_SEQ_INDEX, setItem_seq, "setItem sequence testing", FALSE);
DestroyWindow(hChild);
}
static void test_hdf_fixedwidth(HWND hParent)
{
HWND hChild;
HDITEMA hdItem;
DWORD ret;
RECT rect;
HDHITTESTINFO ht;
hChild = create_custom_header_control(hParent, FALSE);
hdItem.mask = HDI_WIDTH | HDI_FORMAT;
hdItem.fmt = HDF_FIXEDWIDTH;
hdItem.cxy = 80;
ret = SendMessageA(hChild, HDM_INSERTITEMA, 0, (LPARAM)&hdItem);
expect(0, ret);
/* try to change width */
rect.right = rect.bottom = 0;
SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM)&rect);
ok(rect.right != 0, "Expected not zero width\n");
ok(rect.bottom != 0, "Expected not zero height\n");
SendMessageA(hChild, WM_LBUTTONDOWN, 0, MAKELPARAM(rect.right, rect.bottom / 2));
SendMessageA(hChild, WM_MOUSEMOVE, 0, MAKELPARAM(rect.right + 20, rect.bottom / 2));
SendMessageA(hChild, WM_LBUTTONUP, 0, MAKELPARAM(rect.right + 20, rect.bottom / 2));
SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM)&rect);
if (hdItem.cxy != rect.right)
{
win_skip("HDF_FIXEDWIDTH format not supported\n");
DestroyWindow(hChild);
return;
}
/* try to adjust with message */
hdItem.mask = HDI_WIDTH;
hdItem.cxy = 90;
ret = SendMessageA(hChild, HDM_SETITEMA, 0, (LPARAM)&hdItem);
expect(TRUE, ret);
rect.right = 0;
SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM)&rect);
expect(90, rect.right);
/* hittesting doesn't report ondivider flag for HDF_FIXEDWIDTH */
ht.pt.x = rect.right - 1;
ht.pt.y = rect.bottom / 2;
SendMessageA(hChild, HDM_HITTEST, 0, (LPARAM)&ht);
expect(HHT_ONHEADER, ht.flags);
/* try to adjust with message */
hdItem.mask = HDI_FORMAT;
hdItem.fmt = 0;
ret = SendMessageA(hChild, HDM_SETITEMA, 0, (LPARAM)&hdItem);
expect(TRUE, ret);
ht.pt.x = 90;
ht.pt.y = rect.bottom / 2;
SendMessageA(hChild, HDM_HITTEST, 0, (LPARAM)&ht);
expect(HHT_ONDIVIDER, ht.flags);
DestroyWindow(hChild);
}
static void test_hds_nosizing(HWND hParent)
{
HWND hChild;
HDITEMA hdItem;
DWORD ret;
RECT rect;
HDHITTESTINFO ht;
hChild = create_custom_header_control(hParent, FALSE);
memset(&hdItem, 0, sizeof(hdItem));
hdItem.mask = HDI_WIDTH;
hdItem.cxy = 80;
ret = SendMessageA(hChild, HDM_INSERTITEMA, 0, (LPARAM)&hdItem);
expect(0, ret);
/* HDS_NOSIZING only blocks hittesting */
ret = GetWindowLongA(hChild, GWL_STYLE);
SetWindowLongA(hChild, GWL_STYLE, ret | HDS_NOSIZING);
/* try to change width with mouse gestures */
rect.right = rect.bottom = 0;
SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM)&rect);
ok(rect.right != 0, "Expected not zero width\n");
ok(rect.bottom != 0, "Expected not zero height\n");
SendMessageA(hChild, WM_LBUTTONDOWN, 0, MAKELPARAM(rect.right, rect.bottom / 2));
SendMessageA(hChild, WM_MOUSEMOVE, 0, MAKELPARAM(rect.right + 20, rect.bottom / 2));
SendMessageA(hChild, WM_LBUTTONUP, 0, MAKELPARAM(rect.right + 20, rect.bottom / 2));
SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM)&rect);
if (hdItem.cxy != rect.right)
{
win_skip("HDS_NOSIZING style not supported\n");
DestroyWindow(hChild);
return;
}
/* this style doesn't set HDF_FIXEDWIDTH for items */
hdItem.mask = HDI_FORMAT;
ret = SendMessageA(hChild, HDM_GETITEMA, 0, (LPARAM)&hdItem);
expect(TRUE, ret);
ok(!(hdItem.fmt & HDF_FIXEDWIDTH), "Unexpected HDF_FIXEDWIDTH\n");
/* try to adjust with message */
hdItem.mask = HDI_WIDTH;
hdItem.cxy = 90;
ret = SendMessageA(hChild, HDM_SETITEMA, 0, (LPARAM)&hdItem);
expect(TRUE, ret);
rect.right = 0;
SendMessageA(hChild, HDM_GETITEMRECT, 0, (LPARAM)&rect);
expect(90, rect.right);
/* hittesting doesn't report ondivider flags for HDS_NOSIZING */
ht.pt.x = rect.right - 1;
ht.pt.y = rect.bottom / 2;
SendMessageA(hChild, HDM_HITTEST, 0, (LPARAM)&ht);
expect(HHT_ONHEADER, ht.flags);
/* try to adjust with message */
ret = GetWindowLongA(hChild, GWL_STYLE);
SetWindowLongA(hChild, GWL_STYLE, ret & ~HDS_NOSIZING);
ht.pt.x = 90;
ht.pt.y = rect.bottom / 2;
SendMessageA(hChild, HDM_HITTEST, 0, (LPARAM)&ht);
expect(HHT_ONDIVIDER, ht.flags);
DestroyWindow(hChild);
}
#define TEST_NMCUSTOMDRAW(draw_stage, item_spec, lparam, _left, _top, _right, _bottom) \
ok(nm->dwDrawStage == draw_stage, "Invalid dwDrawStage %d vs %d\n", draw_stage, nm->dwDrawStage); \
if (item_spec != -1) \
ok(nm->dwItemSpec == item_spec, "Invalid dwItemSpec %d vs %ld\n", item_spec, nm->dwItemSpec); \
ok(nm->lItemlParam == lparam, "Invalid lItemlParam %d vs %ld\n", lparam, nm->lItemlParam); \
ok((nm->rc.top == _top && nm->rc.bottom == _bottom && nm->rc.left == _left && nm->rc.right == _right) || \
broken(draw_stage != CDDS_ITEMPREPAINT), /* comctl32 < 5.80 */ \
"Invalid rect (%d,%d) (%d,%d) vs (%d,%d) (%d,%d)\n", _left, _top, _right, _bottom, \
nm->rc.left, nm->rc.top, nm->rc.right, nm->rc.bottom);
static LRESULT customdraw_1(int n, NMCUSTOMDRAW *nm)
{
if (nm == NULL) { /* test ended */
ok(n==1, "NM_CUSTOMDRAW messages: %d, expected: 1\n", n);
return 0;
}
switch (n)
{
case 0:
/* don't test dwItemSpec - it's 0 no comctl5 but 1308756 on comctl6 */
TEST_NMCUSTOMDRAW(CDDS_PREPAINT, -1, 0, 0, 0, 670, g_customheight);
return 0;
}
ok(FALSE, "Too many custom draw messages (n=%d, nm->dwDrawStage=%d)\n", n, nm->dwDrawStage);
return -1;
}
static LRESULT customdraw_2(int n, NMCUSTOMDRAW *nm)
{
if (nm == NULL) { /* test ended */
ok(n==4, "NM_CUSTOMDRAW messages: %d, expected: 4\n", n);
return 0;
}
switch (n)
{
case 0:
TEST_NMCUSTOMDRAW(CDDS_PREPAINT, -1, 0, 0, 0, 670, g_customheight);
return CDRF_NOTIFYITEMDRAW;
case 1:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 0, 0, 0, 0, 50, g_customheight);
return 0;
case 2:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 1, 5, 50, 0, 150, g_customheight);
return 0;
case 3:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 2, 10, 150, 0, 300, g_customheight);
return 0;
}
ok(FALSE, "Too many custom draw messages (n=%d, nm->dwDrawStage=%d)\n", n, nm->dwDrawStage);
return 0;
}
static LRESULT customdraw_3(int n, NMCUSTOMDRAW *nm)
{
if (nm == NULL) { /* test ended */
ok(n==5, "NM_CUSTOMDRAW messages: %d, expected: 5\n", n);
return 0;
}
switch (n)
{
case 0:
TEST_NMCUSTOMDRAW(CDDS_PREPAINT, -1, 0, 0, 0, 670, g_customheight);
return CDRF_NOTIFYITEMDRAW|CDRF_NOTIFYPOSTERASE|CDRF_NOTIFYPOSTPAINT|CDRF_SKIPDEFAULT;
case 1:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 0, 0, 0, 0, 50, g_customheight);
return 0;
case 2:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 1, 5, 50, 0, 150, g_customheight);
return 0;
case 3:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 2, 10, 150, 0, 300, g_customheight);
return 0;
case 4:
TEST_NMCUSTOMDRAW(CDDS_POSTPAINT, -1, 0, 0, 0, 670, g_customheight);
return 0;
}
ok(FALSE, "Too many custom draw messages (n=%d, nm->dwDrawStage=%d)\n", n, nm->dwDrawStage);
return 0;
}
static LRESULT customdraw_4(int n, NMCUSTOMDRAW *nm)
{
if (nm == NULL) { /* test ended */
ok(n==4, "NM_CUSTOMDRAW messages: %d, expected: 4\n", n);
return 0;
}
switch (n)
{
case 0:
TEST_NMCUSTOMDRAW(CDDS_PREPAINT, -1, 0, 0, 0, 670, g_customheight);
return CDRF_NOTIFYITEMDRAW|CDRF_NOTIFYPOSTPAINT;
case 1:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 0, 0, 0, 0, 50, g_customheight);
return 0;
case 2:
TEST_NMCUSTOMDRAW(CDDS_ITEMPREPAINT, 2, 10, 150, 0, 300, g_customheight);
return 0;
case 3:
TEST_NMCUSTOMDRAW(CDDS_POSTPAINT, -1, 0, 0, 0, 670, g_customheight);
return 0;
}
ok(FALSE, "Too many custom draw messages (n=%d, nm->dwDrawStage=%d)\n", n, nm->dwDrawStage);
return 0;
}
static void run_customdraw_scenario(CUSTOMDRAWPROC proc)
{
g_CustomDrawProc = proc;
g_CustomDrawCount = 0;
InvalidateRect(hWndHeader, NULL, TRUE);
UpdateWindow(hWndHeader);
proc(g_CustomDrawCount, NULL);
g_CustomDrawProc = NULL;
}
static void test_customdraw(void)
{
int i;
HDITEMA item;
RECT rect;
CHAR name[] = "Test";
hWndHeader = create_header_control();
GetClientRect(hWndHeader, &rect);
ok(rect.right - rect.left == 670 && rect.bottom - rect.top == g_customheight,
"Tests will fail as header size is %dx%d instead of 670x%d\n",
rect.right - rect.left, rect.bottom - rect.top, g_customheight);
for (i = 0; i < 3; i++)
{
ZeroMemory(&item, sizeof(item));
item.mask = HDI_TEXT|HDI_WIDTH;
item.cxy = 50*(i+1);
item.pszText = name;
item.lParam = i*5;
SendMessageA(hWndHeader, HDM_INSERTITEMA, i, (LPARAM)&item);
}
run_customdraw_scenario(customdraw_1);
run_customdraw_scenario(customdraw_2);
run_customdraw_scenario(customdraw_3);
ZeroMemory(&item, sizeof(item));
item.mask = HDI_FORMAT;
item.fmt = HDF_OWNERDRAW;
SendMessageA(hWndHeader, HDM_SETITEMA, 1, (LPARAM)&item);
g_DrawItem.CtlID = 0;
g_DrawItem.CtlType = ODT_HEADER;
g_DrawItem.hwndItem = hWndHeader;
g_DrawItem.itemID = 1;
g_DrawItem.itemState = 0;
SendMessageA(hWndHeader, HDM_GETITEMRECT, 1, (LPARAM)&g_DrawItem.rcItem);
run_customdraw_scenario(customdraw_4);
ok(g_DrawItemReceived, "WM_DRAWITEM not received\n");
DestroyWindow(hWndHeader);
hWndHeader = NULL;
g_DrawItem.CtlType = 0;
g_DrawItemReceived = FALSE;
}
static void check_order(const int expected_id[], const int expected_order[],
int count, const char *type)
{
int i;
HDITEMA hdi;
ok(getItemCount(hWndHeader) == count, "Invalid item count in order tests\n");
for (i = 0; i < count; i++)
{
hdi.mask = HDI_LPARAM|HDI_ORDER;
SendMessageA(hWndHeader, HDM_GETITEMA, i, (LPARAM)&hdi);
ok(hdi.lParam == expected_id[i],
"Invalid item ids after '%s'- item %d has lParam %d\n", type, i, (int)hdi.lParam);
ok(hdi.iOrder == expected_order[i],
"Invalid item order after '%s'- item %d has iOrder %d\n", type, i, hdi.iOrder);
}
}
static void test_header_order (void)
{
const int rand1[] = {0, 1, 1, 0, 4};
const int rand2[] = {4, 5, 6, 7, 4};
const int rand3[] = {5, 5, 1, 6, 1};
const int rand4[] = {1, 5, 2, 7, 6, 1, 4, 2, 3, 2};
const int rand5[] = {7, 8, 5, 6, 7, 2, 1, 9, 10, 10};
const int rand6[] = {2, 8, 3, 4, 0};
const int ids1[] = {3, 0, 2, 1, 4};
const int ord1[] = {0, 1, 2, 3, 4};
const int ids2[] = {3, 9, 7, 0, 2, 1, 4, 8, 6, 5};
const int ord2[] = {0, 4, 7, 1, 2, 3, 9, 8, 6, 5};
const int ord3[] = {0, 3, 9, 2, 1, 8, 7, 6, 5, 4};
const int ids4[] = {9, 0, 1, 8, 6};
const int ord4[] = {1, 0, 4, 3, 2};
char buffer[20];
HDITEMA hdi;
int i;
hWndHeader = create_header_control();
ZeroMemory(&hdi, sizeof(HDITEMA));
hdi.mask = HDI_TEXT | HDI_LPARAM;
hdi.pszText = buffer;
strcpy(buffer, "test");
for (i = 0; i < 5; i++)
{
hdi.lParam = i;
SendMessageA(hWndHeader, HDM_INSERTITEMA, rand1[i], (LPARAM)&hdi);
rand();
}
check_order(ids1, ord1, 5, "insert without iOrder");
hdi.mask |= HDI_ORDER;
for (i = 0; i < 5; i++)
{
hdi.lParam = i + 5;
hdi.iOrder = rand2[i];
SendMessageA(hWndHeader, HDM_INSERTITEMA, rand3[i], (LPARAM)&hdi);
rand(); rand();
}
check_order(ids2, ord2, 10, "insert with order");
hdi.mask = HDI_ORDER;
for (i=0; i<10; i++)
{
hdi.iOrder = rand5[i];
SendMessageA(hWndHeader, HDM_SETITEMA, rand4[i], (LPARAM)&hdi);
rand(); rand();
}
check_order(ids2, ord3, 10, "setitems changing order");
for (i=0; i<5; i++)
SendMessageA(hWndHeader, HDM_DELETEITEM, rand6[i], 0);
check_order(ids4, ord4, 5, "deleteitem");
DestroyWindow(hWndHeader);
}
static LRESULT CALLBACK HeaderTestWndProc(HWND hWnd, UINT msg, WPARAM wParam, LPARAM lParam)
{
DRAWITEMSTRUCT *di;
switch(msg) {
case WM_NOTIFY:
{
NMHEADERA *hdr = (NMHEADERA*)lParam;
EXPECTEDNOTIFY *expected;
int i;
if (hdr->hdr.code == NM_CUSTOMDRAW)
if (g_CustomDrawProc)
return g_CustomDrawProc(g_CustomDrawCount++, (NMCUSTOMDRAW*)hdr);
for (i=0; i<nUnexpectedNotify; i++)
ok(hdr->hdr.code != unexpectedNotify[i], "Received invalid notify %d\n", hdr->hdr.code);
if (nReceivedNotify >= nExpectedNotify || hdr->hdr.hwndFrom != hWndHeader )
break;
expected = &expectedNotify[nReceivedNotify];
if (hdr->hdr.code != expected->iCode)
break;
nReceivedNotify++;
compare_items(hdr->hdr.code, &expected->hdItem, hdr->pitem, expected->fUnicode);
break;
}
case WM_DRAWITEM:
di = (DRAWITEMSTRUCT *)lParam;
ok(g_DrawItem.CtlType != 0, "Unexpected WM_DRAWITEM\n");
if (g_DrawItem.CtlType == 0) return 0;
g_DrawItemReceived = TRUE;
compare(di->CtlType, g_DrawItem.CtlType, "%d");
compare(di->CtlID, g_DrawItem.CtlID, "%d");
compare(di->hwndItem, g_DrawItem.hwndItem, "%p");
compare(di->itemID, g_DrawItem.itemID, "%d");
compare(di->itemState, g_DrawItem.itemState, "%d");
compare(di->rcItem.left, g_DrawItem.rcItem.left, "%d");
compare(di->rcItem.top, g_DrawItem.rcItem.top, "%d");
compare(di->rcItem.right, g_DrawItem.rcItem.right, "%d");
compare(di->rcItem.bottom, g_DrawItem.rcItem.bottom, "%d");
break;
case WM_DESTROY:
PostQuitMessage(0);
break;
default:
return DefWindowProcA(hWnd, msg, wParam, lParam);
}
return 0L;
}
static BOOL init(void)
{
HMODULE hComctl32;
BOOL (WINAPI *pInitCommonControlsEx)(const INITCOMMONCONTROLSEX*);
WNDCLASSA wc;
INITCOMMONCONTROLSEX iccex;
TEXTMETRICA tm;
HFONT hOldFont;
HDC hdc;
hComctl32 = GetModuleHandleA("comctl32.dll");
pInitCommonControlsEx = (void*)GetProcAddress(hComctl32, "InitCommonControlsEx");
if (!pInitCommonControlsEx)
{
skip("InitCommonControlsEx() is missing. Skipping the tests\n");
return FALSE;
}
iccex.dwSize = sizeof(iccex);
iccex.dwICC = ICC_USEREX_CLASSES;
pInitCommonControlsEx(&iccex);
wc.style = CS_HREDRAW | CS_VREDRAW;
wc.cbClsExtra = 0;
wc.cbWndExtra = 0;
wc.hInstance = GetModuleHandleA(NULL);
wc.hIcon = NULL;
wc.hCursor = LoadCursorA(NULL, (LPCSTR)IDC_ARROW);
wc.hbrBackground = GetSysColorBrush(COLOR_WINDOW);
wc.lpszMenuName = NULL;
wc.lpszClassName = "HeaderTestClass";
wc.lpfnWndProc = HeaderTestWndProc;
RegisterClassA(&wc);
/* The height of the header control depends on the height of the system font.
The height of the system font is dpi dependent */
hdc = GetDC(0);
hOldFont = SelectObject(hdc, GetStockObject(SYSTEM_FONT));
GetTextMetricsA(hdc, &tm);
/* 2 dot extra space are needed for the border */
g_customheight = tm.tmHeight + 2;
trace("customdraw height: %d (dpi: %d)\n", g_customheight, GetDeviceCaps(hdc, LOGPIXELSY));
SelectObject(hdc, hOldFont);
ReleaseDC(0, hdc);
hHeaderParentWnd = CreateWindowExA(0, "HeaderTestClass", "Header test", WS_OVERLAPPEDWINDOW,
CW_USEDEFAULT, CW_USEDEFAULT, 672+2*GetSystemMetrics(SM_CXSIZEFRAME),
226+GetSystemMetrics(SM_CYCAPTION)+2*GetSystemMetrics(SM_CYSIZEFRAME),
NULL, NULL, GetModuleHandleA(NULL), 0);
ok(hHeaderParentWnd != NULL, "failed to create parent wnd\n");
ShowWindow(hHeaderParentWnd, SW_SHOW);
return hHeaderParentWnd != NULL;
}
/* maximum 8 items allowed */
static void check_orderarray(HWND hwnd, DWORD start, DWORD set, DWORD expected,
BOOL todo, int line)
{
int count, i;
INT order[8];
DWORD ret, array = 0;
count = SendMessageA(hwnd, HDM_GETITEMCOUNT, 0, 0);
/* initial order */
for(i = 1; i<=count; i++)
order[i-1] = start>>(4*(count-i)) & 0xf;
ret = SendMessageA(hwnd, HDM_SETORDERARRAY, count, (LPARAM)order);
ok_(__FILE__, line)(ret, "Expected HDM_SETORDERARAY to succeed, got %d\n", ret);
/* new order */
for(i = 1; i<=count; i++)
order[i-1] = set>>(4*(count-i)) & 0xf;
ret = SendMessageA(hwnd, HDM_SETORDERARRAY, count, (LPARAM)order);
ok_(__FILE__, line)(ret, "Expected HDM_SETORDERARAY to succeed, got %d\n", ret);
/* check actual order */
ret = SendMessageA(hwnd, HDM_GETORDERARRAY, count, (LPARAM)order);
ok_(__FILE__, line)(ret, "Expected HDM_GETORDERARAY to succeed, got %d\n", ret);
for(i = 1; i<=count; i++)
array |= order[i-1]<<(4*(count-i));
todo_wine_if(todo)
ok_(__FILE__, line)(array == expected, "Expected %x, got %x\n", expected, array);
}
static void test_hdm_orderarray(void)
{
HWND hwnd;
INT order[5];
DWORD ret;
hwnd = create_header_control();
/* three items */
addItem(hwnd, 0, NULL);
addItem(hwnd, 1, NULL);
addItem(hwnd, 2, NULL);
ret = SendMessageA(hwnd, HDM_GETORDERARRAY, 3, (LPARAM)order);
if (!ret)
{
win_skip("HDM_GETORDERARRAY not implemented.\n");
DestroyWindow(hwnd);
return;
}
expect(0, order[0]);
expect(1, order[1]);
expect(2, order[2]);
if (0)
{
/* null pointer, crashes native */
ret = SendMessageA(hwnd, HDM_SETORDERARRAY, 3, 0);
expect(FALSE, ret);
}
/* count out of limits */
ret = SendMessageA(hwnd, HDM_SETORDERARRAY, 5, (LPARAM)order);
expect(FALSE, ret);
/* count out of limits */
ret = SendMessageA(hwnd, HDM_SETORDERARRAY, 2, (LPARAM)order);
expect(FALSE, ret);
/* try with out of range item index */
/* (0,1,2)->(1,0,3) => (1,0,2) */
check_orderarray(hwnd, 0x120, 0x103, 0x102, FALSE, __LINE__);
/* (1,0,2)->(3,0,1) => (0,2,1) */
check_orderarray(hwnd, 0x102, 0x301, 0x021, TRUE, __LINE__);
/* (0,2,1)->(2,3,1) => (2,0,1) */
check_orderarray(hwnd, 0x021, 0x231, 0x201, FALSE, __LINE__);
/* (0,1,2)->(0,2,2) => (0,1,2) */
check_orderarray(hwnd, 0x012, 0x022, 0x012, FALSE, __LINE__);
addItem(hwnd, 3, NULL);
/* (0,1,2,3)->(0,1,2,2) => (0,1,3,2) */
check_orderarray(hwnd, 0x0123, 0x0122, 0x0132, FALSE, __LINE__);
/* (0,1,2,3)->(0,1,3,3) => (0,1,2,3) */
check_orderarray(hwnd, 0x0123, 0x0133, 0x0123, FALSE, __LINE__);
/* (0,1,2,3)->(0,4,2,3) => (0,1,2,3) */
check_orderarray(hwnd, 0x0123, 0x0423, 0x0123, FALSE, __LINE__);
/* (0,1,2,3)->(4,0,1,2) => (0,1,3,2) */
check_orderarray(hwnd, 0x0123, 0x4012, 0x0132, TRUE, __LINE__);
/* (0,1,3,2)->(4,0,1,4) => (0,3,1,2) */
check_orderarray(hwnd, 0x0132, 0x4014, 0x0312, TRUE, __LINE__);
/* (0,1,2,3)->(4,1,0,2) => (1,0,3,2) */
check_orderarray(hwnd, 0x0123, 0x4102, 0x1032, TRUE, __LINE__);
/* (0,1,2,3)->(0,1,4,2) => (0,1,2,3) */
check_orderarray(hwnd, 0x0123, 0x0142, 0x0132, FALSE, __LINE__);
/* (0,1,2,3)->(4,4,4,4) => (0,1,2,3) */
check_orderarray(hwnd, 0x0123, 0x4444, 0x0123, FALSE, __LINE__);
/* (0,1,2,3)->(4,4,1,2) => (0,1,3,2) */
check_orderarray(hwnd, 0x0123, 0x4412, 0x0132, TRUE, __LINE__);
/* (0,1,2,3)->(4,4,4,1) => (0,2,3,1) */
check_orderarray(hwnd, 0x0123, 0x4441, 0x0231, TRUE, __LINE__);
/* (0,1,2,3)->(1,4,4,4) => (1,0,2,3) */
check_orderarray(hwnd, 0x0123, 0x1444, 0x1023, FALSE, __LINE__);
/* (0,1,2,3)->(4,2,4,1) => (0,2,3,1) */
check_orderarray(hwnd, 0x0123, 0x4241, 0x0231, FALSE, __LINE__);
/* (0,1,2,3)->(4,2,0,1) => (2,0,3,1) */
check_orderarray(hwnd, 0x0123, 0x4201, 0x2031, TRUE, __LINE__);
/* (3,2,1,0)->(4,2,0,1) => (3,2,0,1) */
check_orderarray(hwnd, 0x3210, 0x4201, 0x3201, FALSE, __LINE__);
DestroyWindow(hwnd);
}
START_TEST(header)
{
HWND parent_hwnd;
ULONG_PTR ctx_cookie;
HANDLE hCtx;
if (!init())
return;
test_header_control();
test_header_order();
test_hdm_orderarray();
test_customdraw();
DestroyWindow(hHeaderParentWnd);
init_msg_sequences(sequences, NUM_MSG_SEQUENCES);
parent_hwnd = create_custom_parent_window();
ok_sequence(sequences, PARENT_SEQ_INDEX, create_parent_wnd_seq, "create parent windows", FALSE);
test_hdm_index_messages(parent_hwnd);
test_hdm_getitemrect(parent_hwnd);
test_hdm_hittest(parent_hwnd);
test_hdm_layout(parent_hwnd);
test_hdm_ordertoindex(parent_hwnd);
test_hdm_sethotdivider(parent_hwnd);
test_hdm_imageMessages(parent_hwnd);
test_hdm_filterMessages(parent_hwnd);
test_hdm_unicodeformatMessages(parent_hwnd);
test_hdm_bitmapmarginMessages(parent_hwnd);
if (!load_v6_module(&ctx_cookie, &hCtx))
{
DestroyWindow(parent_hwnd);
return;
}
/* comctl32 version 6 tests start here */
test_hdf_fixedwidth(parent_hwnd);
test_hds_nosizing(parent_hwnd);
unload_v6_module(ctx_cookie, hCtx);
DestroyWindow(parent_hwnd);
}