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WindowsXP-SP1/shell/comdlg32/font.c

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/*++
Copyright (c) 1990-1998, Microsoft Corporation All rights reserved.
Module Name:
font.c
Abstract:
This module implements the Win32 font dialog.
Revision History:
--*/
// ClaudeBe 10/12/98, to enable Multiple Master Axis selection in the
// font selection dialog, uncomment the following three lines and make sure
// you use the new font.dlg (from \nt\private\ntos\w32\ntgdi\test\fonttest.nt\comdlg32mm)
// as of 10/12/98, this is not a NT 5.0/IE 5.0 feature
//
// arulk- MM_DESIGNVECTOR is not feature for windows 2000 so dont uncomment the following lines for
// windows 2000
//#ifdef WINNT
//#define MM_DESIGNVECTOR_DEFINED
//#endif
// precompiled headers
#include "precomp.h"
#pragma hdrstop
#include "font.h"
#include "cdids.h"
#include "util.h"
#ifdef MM_DESIGNVECTOR_DEFINED
#define MAX_NUM_AXES 6
VOID GetCannonicalNameW(
WCHAR *pwsz, // in foo_XX_YY, out Cannonical and capitalized name FOO
DESIGNVECTOR *pdv // [XX,YY] on out
);
VOID AddDesignVectorToNameW(
WCHAR *pFaceName, // in Cannonical name foo, out foo_XX_YY
DESIGNVECTOR *pdv // [XX,YY] in
);
VOID GetCannonicalNameA(
char *pasz, // in foo_XX_YY, out Cannonical and capitalized name FOO
DESIGNVECTOR *pdv // [XX,YY] on out
);
VOID AddDesignVectorToNameA(
char *pFaceName, // in Cannonical name foo, out foo_XX_YY
DESIGNVECTOR *pdv // [XX,YY] in
);
#ifdef UNICODE
#define GetCannonicalName(A,B) GetCannonicalNameW(A,B);
#define AddDesignVectorToName(A,B) AddDesignVectorToNameW(A,B);
#else
#define GetCannonicalName(A,B) GetCannonicalNameA(A,B);
#define AddDesignVectorToName(A,B) AddDesignVectorToNameA(A,B);
#endif // UNICODE
#ifdef UNICODE
#define IS_DIGITW(x) (((x) >= L'0') && ((x) <= L'9'))
#define GET_DIGITW(X) ((X) - L'0')
#define WC_UNDERSCORE L'_'
VOID GetCannonicalNameW(
WCHAR *pwsz, // in foo_XX_YY, out Cannonical and capitalized name FOO
DESIGNVECTOR *pdv // [XX,YY] on out
)
{
// modified from GreGetCannonicalName
//
// The input is the zero terminated name of the form
//
// foo_XXaaaYYbbb...ZZccc
//
// where XX, YY, ZZ are numerals (arbitrary number of them) and
// aaa, bbb, ccc are not numerals, i.e. spaces, or another '_' signs or
// letters with abbreviated axes names.
//
// This face name will be considered equivalent to face name foo
// with DESIGNVECTOR [XX,YY, ...ZZ], number of axes being determined
// by number of numeral sequences.
//
WCHAR *pwc;
ULONG cAxes = 0;
ULONG cwc;
/* if we already have a DESIGNVECTOR information, we don't want to erase it */
if (pdv->dvNumAxes != 0)
return;
for
(
pwc = pwsz ;
(*pwc) && !((*pwc == WC_UNDERSCORE) && IS_DIGITW(pwc[1]));
pwc++
)
{
// do nothing;
}
// copy out, zero terminate
// Sundown safe truncation
cwc = (ULONG)(pwc - pwsz);
// If we found at least one WC_UNDERSCORE followed by the DIGIT
// we have to compute DV. Underscore followed by the DIGIT is Adobe's rule
if ((*pwc == WC_UNDERSCORE) && IS_DIGITW(pwc[1]))
{
// step to the next character behind undescore
pwc++;
while (*pwc)
{
// go until you hit the first digit
for ( ; *pwc && !IS_DIGITW(*pwc) ; pwc++)
{
// do nothing
}
if (*pwc)
{
// we have just hit the digit
ULONG dvValue = GET_DIGITW(*pwc);
// go until you hit first nondigit or the terminator
pwc++;
for ( ; *pwc && IS_DIGITW(*pwc); pwc++)
{
dvValue = dvValue * 10 + GET_DIGITW(*pwc);
}
pdv->dvValues[cAxes] = (LONG)dvValue;
// we have just parsed a string of numerals
cAxes++;
}
}
}
// record the findings
pdv->dvNumAxes = cAxes;
pdv->dvReserved = STAMP_DESIGNVECTOR;
/* we do that at the end allowing to pass the same buffer as in and out */
pwsz[cwc] = L'\0';
}
VOID AddDesignVectorToNameW(
WCHAR *pFaceName, // in Cannonical name foo, out foo_XX_YY
DESIGNVECTOR *pdv // [XX,YY] in
)
{
if (pdv->dvNumAxes != 0)
{
UINT i;
PWCHAR endOfBaseName;
WCHAR pszValue[20]; // temp buffer used to convert long to string
for (i=0; i<pdv->dvNumAxes; i++)
{
_itow(pdv->dvValues[i], pszValue, 10);
if ((wcslen(pFaceName) + wcslen(pszValue) + 1) >= (UINT)LF_FACESIZE)
return;
endOfBaseName = pFaceName + wcslen(pFaceName);
*endOfBaseName = WC_UNDERSCORE;
endOfBaseName++;
*endOfBaseName = 0;
wcscat(endOfBaseName, pszValue);
}
}
}
#else
#define IS_DIGITA(x) (((x) >= '0') && ((x) <= '9'))
#define GET_DIGITA(X) ((X) - '0')
#define AC_UNDERSCORE '_'
VOID GetCannonicalNameA(
char *pasz, // in foo_XX_YY, out Cannonical and capitalized name FOO
DESIGNVECTOR *pdv // [XX,YY] on out
)
{
// modified from GreGetCannonicalName
//
// The input is the zero terminated name of the form
//
// foo_XXaaaYYbbb...ZZccc
//
// where XX, YY, ZZ are numerals (arbitrary number of them) and
// aaa, bbb, ccc are not numerals, i.e. spaces, or another '_' signs or
// letters with abbreviated axes names.
//
// This face name will be considered equivalent to face name foo
// with DESIGNVECTOR [XX,YY, ...ZZ], number of axes being determined
// by number of numeral sequences.
//
char *pac;
ULONG cAxes = 0;
ULONG cac;
/* if we already have a DESIGNVECTOR information, we don't want to erase it */
if (pdv->dvNumAxes != 0)
return;
for
(
pac = pasz ;
(*pac) && !((*pac == AC_UNDERSCORE) && IS_DIGITA(pac[1]));
pac++
)
{
// do nothing;
}
// copy out, zero terminate
// Sundown safe truncation
cac = (ULONG)(pac - pasz);
// If we found at least one AC_UNDERSCORE followed by the DIGIT
// we have to compute DV. Underscore followed by the DIGIT is Adobe's rule
if ((*pac == AC_UNDERSCORE) && IS_DIGITA(pac[1]))
{
// step to the next character behind undescore
pac++;
while (*pac)
{
// go until you hit the first digit
for ( ; *pac && !IS_DIGITA(*pac) ; pac++)
{
// do nothing
}
if (*pac)
{
// we have just hit the digit
ULONG dvValue = GET_DIGITA(*pac);
// go until you hit first nondigit or the terminator
pac++;
for ( ; *pac && IS_DIGITA(*pac); pac++)
{
dvValue = dvValue * 10 + GET_DIGITA(*pac);
}
pdv->dvValues[cAxes] = (LONG)dvValue;
// we have just parsed a string of numerals
cAxes++;
}
}
}
// record the findings
pdv->dvNumAxes = cAxes;
pdv->dvReserved = STAMP_DESIGNVECTOR;
/* we do that at the end allowing to pass the same buffer as in and out */
pasz[cac] = L'\0';
}
VOID AddDesignVectorToNameA(
char *pFaceName, // in Cannonical name foo, out foo_XX_YY
DESIGNVECTOR *pdv // [XX,YY] in
)
{
if (pdv->dvNumAxes != 0)
{
UINT i;
char *endOfBaseName;
char pszValue[20]; // temp buffer used to convert long to string
for (i=0; i<pdv->dvNumAxes; i++)
{
_itoa(pdv->dvValues[i], pszValue, 10);
if ((strlen(pFaceName) + strlen(pszValue) + 1) >= (UINT)LF_FACESIZE)
return;
endOfBaseName = pFaceName + strlen(pFaceName);
*endOfBaseName = AC_UNDERSCORE;
endOfBaseName++;
*endOfBaseName = 0;
strcat(endOfBaseName, pszValue);
}
}
}
#endif // UNICODE
#endif // MM_DESIGNVECTOR_DEFINED
BOOL IsSimplifiedChineseUI(void)
{
BOOL bRet = FALSE;
if (staticIsOS(OS_WIN2000ORGREATER)) // If NT5 or higher, we use system UI Language
{
static LANGID (CALLBACK* pfnGetUserDefaultUILanguage)(void) = NULL;
if (pfnGetUserDefaultUILanguage == NULL)
{
HMODULE hmod = GetModuleHandle(TEXT("KERNEL32"));
if (hmod)
pfnGetUserDefaultUILanguage = (LANGID (CALLBACK*)(void))GetProcAddress(hmod, "GetUserDefaultUILanguage");
}
if (pfnGetUserDefaultUILanguage)
{
LANGID LangID = pfnGetUserDefaultUILanguage();
if (LangID == MAKELANGID(LANG_CHINESE, SUBLANG_CHINESE_SIMPLIFIED))
bRet = TRUE;
}
}
else // If Win9x and NT4, we use CP_ACP
{
if (936 == GetACP())
bRet = TRUE;
}
return bRet;
}
#ifdef UNICODE
////////////////////////////////////////////////////////////////////////////
//
// ChooseFontA
//
// ANSI entry point for ChooseFont when this code is built UNICODE.
//
////////////////////////////////////////////////////////////////////////////
#ifdef MM_DESIGNVECTOR_DEFINED
BOOL WINAPI ChooseFontA(
LPCHOOSEFONTA pCFA)
{
BOOL result;
ENUMLOGFONTEXDVA LogFontDV;
LPLOGFONTA lpLogFont = NULL;
if (!pCFA)
{
StoreExtendedError(CDERR_INITIALIZATION);
return (FALSE);
}
if (pCFA->lpLogFont)
{
/* we ned space in lpLogFont for the DESIGNVECTOR */
lpLogFont = pCFA->lpLogFont;
pCFA->lpLogFont = (LPLOGFONTA)&LogFontDV;
*pCFA->lpLogFont = *lpLogFont;
((LPENUMLOGFONTEXDVA)pCFA->lpLogFont)->elfDesignVector.dvNumAxes = 0; // set number of axis to zero
((LPENUMLOGFONTEXDVA)pCFA->lpLogFont)->elfDesignVector.dvReserved = STAMP_DESIGNVECTOR;
}
result = ChooseFontExA(pCFA, 0);
if (lpLogFont)
{
/* copy back lpLogFont */
*lpLogFont = *pCFA->lpLogFont;
pCFA->lpLogFont = lpLogFont;
}
return result;
}
#endif // MM_DESIGNVECTOR_DEFINED
#ifdef MM_DESIGNVECTOR_DEFINED
BOOL WINAPI ChooseFontExA(
LPCHOOSEFONTA pCFA, DWORD fl)
#else
BOOL WINAPI ChooseFontA(
LPCHOOSEFONTA pCFA)
#endif // MM_DESIGNVECTOR_DEFINED
{
LPCHOOSEFONTW pCFW;
BOOL result;
LPBYTE pStrMem;
UNICODE_STRING usStyle;
ANSI_STRING asStyle;
int cchTemplateName = 0;
FONTINFO FI;
ZeroMemory(&FI, sizeof(FONTINFO));
if (!pCFA)
{
StoreExtendedError(CDERR_INITIALIZATION);
return (FALSE);
}
if (pCFA->lStructSize != sizeof(CHOOSEFONTA))
{
StoreExtendedError(CDERR_STRUCTSIZE);
return (FALSE);
}
//
// Setup and allocate CHOOSEFONTW structure.
//
if (!pCFA->lpLogFont && (pCFA->Flags & CF_INITTOLOGFONTSTRUCT))
{
StoreExtendedError(CDERR_INITIALIZATION);
return (FALSE);
}
if (!(pCFW = (LPCHOOSEFONTW)LocalAlloc(
LPTR,
#ifdef MM_DESIGNVECTOR_DEFINED
sizeof(CHOOSEFONTW) + sizeof(ENUMLOGFONTEXDVW) )))
#else
sizeof(CHOOSEFONTW) + sizeof(LOGFONTW) )))
#endif // MM_DESIGNVECTOR_DEFINED
{
StoreExtendedError(CDERR_MEMALLOCFAILURE);
return (FALSE);
}
pCFW->lStructSize = sizeof(CHOOSEFONTW);
pCFW->lpLogFont = (LPLOGFONTW)((LPCHOOSEFONTW)pCFW + 1);
if (pCFA->Flags & CF_ENABLETEMPLATE)
{
if (!IS_INTRESOURCE(pCFA->lpTemplateName))
{
cchTemplateName = (lstrlenA(pCFA->lpTemplateName) + 1) *
sizeof(WCHAR);
if (!(pCFW->lpTemplateName = (LPWSTR)LocalAlloc( LPTR,
cchTemplateName)))
{
LocalFree(pCFW);
StoreExtendedError(CDERR_MEMALLOCFAILURE);
return (FALSE);
}
else
{
SHAnsiToUnicode(pCFA->lpTemplateName,(LPWSTR)pCFW->lpTemplateName,cchTemplateName);
}
}
else
{
(DWORD_PTR)pCFW->lpTemplateName = (DWORD_PTR)pCFA->lpTemplateName;
}
}
else
{
pCFW->lpTemplateName = NULL;
}
if ((pCFA->Flags & CF_USESTYLE) && (!IS_INTRESOURCE(pCFA->lpszStyle)))
{
asStyle.MaximumLength = LF_FACESIZE;
asStyle.Length = (USHORT) (lstrlenA(pCFA->lpszStyle));
if (asStyle.Length >= asStyle.MaximumLength)
{
asStyle.MaximumLength = asStyle.Length;
}
}
else
{
asStyle.Length = usStyle.Length = 0;
asStyle.MaximumLength = LF_FACESIZE;
}
usStyle.MaximumLength = asStyle.MaximumLength * sizeof(WCHAR);
usStyle.Length = asStyle.Length * sizeof(WCHAR);
if (!(pStrMem = (LPBYTE)LocalAlloc( LPTR,
asStyle.MaximumLength +
usStyle.MaximumLength )))
{
if (cchTemplateName)
{
LocalFree((LPWSTR)(pCFW->lpTemplateName));
}
LocalFree(pCFW);
StoreExtendedError(CDERR_MEMALLOCFAILURE);
return (FALSE);
}
asStyle.Buffer = pStrMem;
pCFW->lpszStyle = usStyle.Buffer =
(LPWSTR)(asStyle.Buffer + asStyle.MaximumLength);
if ((pCFA->Flags & CF_USESTYLE) && (!IS_INTRESOURCE(pCFA->lpszStyle)))
{
lstrcpyA(asStyle.Buffer, pCFA->lpszStyle);
}
FI.pCF = pCFW;
FI.pCFA = pCFA;
FI.ApiType = COMDLG_ANSI;
FI.pasStyle = &asStyle;
FI.pusStyle = &usStyle;
ThunkChooseFontA2W(&FI);
#ifdef MM_DESIGNVECTOR_DEFINED
if (result = ChooseFontX(&FI, fl))
#else
if (result = ChooseFontX(&FI))
#endif // MM_DESIGNVECTOR_DEFINED
{
ThunkChooseFontW2A(&FI);
//
// Doesn't say how many characters there are here.
//
if ((pCFA->Flags & CF_USESTYLE) && (!IS_INTRESOURCE(pCFA->lpszStyle)))
{
LPSTR psz = pCFA->lpszStyle;
LPSTR pszT = asStyle.Buffer;
try
{
while (*psz++ = *pszT++);
}
except (EXCEPTION_ACCESS_VIOLATION)
{
//
// Not enough space in the passed in string.
//
*--psz = '\0';
}
}
}
if (cchTemplateName)
{
LocalFree((LPWSTR)(pCFW->lpTemplateName));
}
LocalFree(pCFW);
LocalFree(pStrMem);
return (result);
}
#else
////////////////////////////////////////////////////////////////////////////
//
// ChooseFontW
//
// Stub UNICODE function for ChooseFont when this code is built ANSI.
//
////////////////////////////////////////////////////////////////////////////
BOOL WINAPI ChooseFontW(
LPCHOOSEFONTW lpCFW)
{
SetLastError(ERROR_CALL_NOT_IMPLEMENTED);
return (FALSE);
}
#ifdef MM_DESIGNVECTOR_DEFINED
BOOL WINAPI ChooseFontExW(
LPCHOOSEFONTW lpCFW, DWORD fl)
{
SetLastError(ERROR_CALL_NOT_IMPLEMENTED);
return (FALSE);
}
#endif // MM_DESIGNVECTOR_DEFINED
#endif
////////////////////////////////////////////////////////////////////////////
//
// ChooseFont
//
// The ChooseFont function creates a system-defined dialog box from which
// the user can select a font, a font style (such as bold or italic), a
// point size, an effect (such as strikeout or underline), and a text
// color.
//
////////////////////////////////////////////////////////////////////////////
#ifdef MM_DESIGNVECTOR_DEFINED
BOOL WINAPI ChooseFont(
LPCHOOSEFONT lpCF)
{
BOOL result;
ENUMLOGFONTEXDV LogFontDV;
LPLOGFONT lpLogFont = NULL;
if (!lpCF)
{
StoreExtendedError(CDERR_INITIALIZATION);
return (FALSE);
}
if (lpCF->lpLogFont)
{
/* we ned space in lpLogFont for the DESIGNVECTOR */
lpLogFont = lpCF->lpLogFont;
lpCF->lpLogFont = (LPLOGFONT)&LogFontDV;
*lpCF->lpLogFont = *lpLogFont;
((LPENUMLOGFONTEXDV)lpCF->lpLogFont)->elfDesignVector.dvNumAxes = 0; // set number of axis to zero
((LPENUMLOGFONTEXDV)lpCF->lpLogFont)->elfDesignVector.dvReserved = STAMP_DESIGNVECTOR;
}
result = ChooseFontEx(lpCF, 0);
if (lpLogFont)
{
/* copy back lpLogFont */
*lpLogFont = *lpCF->lpLogFont;
lpCF->lpLogFont = lpLogFont;
}
return result;
}
#endif // MM_DESIGNVECTOR_DEFINED
#ifdef MM_DESIGNVECTOR_DEFINED
BOOL WINAPI ChooseFontEx(
LPCHOOSEFONT lpCF, DWORD fl)
#else
BOOL WINAPI ChooseFont(
LPCHOOSEFONT lpCF)
#endif // MM_DESIGNVECTOR_DEFINED
{
FONTINFO FI;
ZeroMemory(&FI, sizeof(FONTINFO));
FI.pCF = lpCF;
FI.ApiType = COMDLG_WIDE;
#ifdef MM_DESIGNVECTOR_DEFINED
return ( ChooseFontX(&FI, fl) );
#else
return ( ChooseFontX(&FI) );
#endif // MM_DESIGNVECTOR_DEFINED
}
////////////////////////////////////////////////////////////////////////////
//
// ChooseFontX
//
// Invokes the font picker dialog, which lets the user specify common
// character format attributes: facename, point size, text color and
// attributes (bold, italic, strikeout or underline).
//
// lpCF - ptr to structure that will hold character attributes
// ApiType - api type (COMDLG_WIDE or COMDLG_ANSI) so that the dialog
// can remember which message to send to the user.
//
// Returns: TRUE - user pressed IDOK
// FALSE - user pressed IDCANCEL
//
////////////////////////////////////////////////////////////////////////////
BOOL ChooseFontX(
#ifdef MM_DESIGNVECTOR_DEFINED
PFONTINFO pFI, DWORD fl)
#else
PFONTINFO pFI)
#endif // MM_DESIGNVECTOR_DEFINED
{
INT_PTR iRet; // font picker dialog return value
HANDLE hDlgTemplate; // handle to loaded dialog resource
HANDLE hRes; // handle of res. block with dialog
int id;
LPCHOOSEFONT lpCF = pFI->pCF;
BOOL fAllocLogFont = FALSE;
#ifdef UNICODE
UINT uiWOWFlag = 0;
#endif
LANGID LangID;
SetCursor(LoadCursor(NULL, IDC_WAIT));
StoreExtendedError(0);
g_bUserPressedCancel = FALSE;
if (!lpCF)
{
StoreExtendedError(CDERR_INITIALIZATION);
return (FALSE);
}
if (lpCF->lStructSize != sizeof(CHOOSEFONT))
{
StoreExtendedError(CDERR_STRUCTSIZE);
return (FALSE);
}
if (!lpCF->lpLogFont)
{
#ifdef MM_DESIGNVECTOR_DEFINED
if (!(lpCF->lpLogFont = (LPLOGFONT)LocalAlloc(LPTR, sizeof(ENUMLOGFONTEXDV))))
#else
if (!(lpCF->lpLogFont = (LPLOGFONT)LocalAlloc(LPTR, sizeof(LOGFONT))))
#endif // MM_DESIGNVECTOR_DEFINED
{
StoreExtendedError(CDERR_MEMALLOCFAILURE);
return (FALSE);
}
fAllocLogFont = TRUE;
}
#ifdef MM_DESIGNVECTOR_DEFINED
else
{
GetCannonicalName(lpCF->lpLogFont->lfFaceName,
&((LPENUMLOGFONTEXDVW)lpCF->lpLogFont)->elfDesignVector);
}
// GetProcAddress for CreateFontIndirectEx, if this function exist, it's safe
// to access DESIGNVECTOR information
pFI->pfnCreateFontIndirectEx = NULL;
if ( (lpCF->Flags & CF_MM_DESIGNVECTOR) &&
!(lpCF->Flags & CF_ENABLETEMPLATE) && !(lpCF->Flags & CF_ENABLETEMPLATEHANDLE))
{
HINSTANCE hinst = GetModuleHandleA("GDI32.DLL");
if (hinst)
{
#ifdef UNICODE
pFI->pfnCreateFontIndirectEx = (PFNCREATEFONTINDIRECTEX)GetProcAddress(hinst, "CreateFontIndirectExW");
#else
pFI->pfnCreateFontIndirectEx = (PFNCREATEFONTINDIRECTEX)GetProcAddress(hinst, "CreateFontIndirectExA");
#endif
}
}
#endif // MM_DESIGNVECTOR_DEFINED
//
// Get the process version of the app for later use.
//
pFI->ProcessVersion = GetProcessVersion(0);
//
// Get the default user language id for later use.
//
g_bIsSimplifiedChineseUI = IsSimplifiedChineseUI();
//
// Verify that lpfnHook is not null if CF_ENABLEHOOK is specified.
//
if (lpCF->Flags & CF_ENABLEHOOK)
{
if (!lpCF->lpfnHook)
{
if (fAllocLogFont)
{
LocalFree(lpCF->lpLogFont);
lpCF->lpLogFont = NULL;
}
StoreExtendedError(CDERR_NOHOOK);
return (FALSE);
}
}
else
{
lpCF->lpfnHook = NULL;
}
if (lpCF->Flags & CF_ENABLETEMPLATE)
{
//
// Both custom instance handle and the dialog template name are
// user specified. Locate the dialog resource in the specified
// instance block and load it.
//
if (!(hRes = FindResource(lpCF->hInstance, lpCF->lpTemplateName, RT_DIALOG)))
{
if (fAllocLogFont)
{
LocalFree(lpCF->lpLogFont);
lpCF->lpLogFont = NULL;
}
StoreExtendedError(CDERR_FINDRESFAILURE);
return (FALSE);
}
if (!(hDlgTemplate = LoadResource(lpCF->hInstance, hRes)))
{
if (fAllocLogFont)
{
LocalFree(lpCF->lpLogFont);
lpCF->lpLogFont = NULL;
}
StoreExtendedError(CDERR_LOADRESFAILURE);
return (FALSE);
}
LangID = GetDialogLanguage(lpCF->hwndOwner, hDlgTemplate);
}
else if (lpCF->Flags & CF_ENABLETEMPLATEHANDLE)
{
//
// A handle to the pre-loaded resource has been specified.
//
hDlgTemplate = lpCF->hInstance;
LangID = GetDialogLanguage(lpCF->hwndOwner, hDlgTemplate);
}
else
{
#ifdef MM_DESIGNVECTOR_DEFINED
if (!(lpCF->Flags & CF_MM_DESIGNVECTOR))
{
id = FORMATDLGORD31;
}
else
{
id = FONTDLGMMAXES;
}
#else
id = FORMATDLGORD31;
#endif
LangID = GetDialogLanguage(lpCF->hwndOwner, NULL);
if (!(hRes = FindResourceExFallback(g_hinst, RT_DIALOG, MAKEINTRESOURCE(id), LangID)))
{
if (fAllocLogFont)
{
LocalFree(lpCF->lpLogFont);
lpCF->lpLogFont = NULL;
}
StoreExtendedError(CDERR_FINDRESFAILURE);
return (FALSE);
}
if (!(hDlgTemplate = LoadResource(g_hinst, hRes)))
{
if (fAllocLogFont)
{
LocalFree(lpCF->lpLogFont);
lpCF->lpLogFont = NULL;
}
StoreExtendedError(CDERR_LOADRESFAILURE);
return (FALSE);
}
}
//
// Warning! Warning! Warning!
//
// We have to set g_tlsLangID before any call for CDLoadString
//
TlsSetValue(g_tlsLangID, (LPVOID) LangID);
if (LockResource(hDlgTemplate))
{
if (lpCF->Flags & CF_ENABLEHOOK)
{
glpfnFontHook = GETHOOKFN(lpCF);
}
#ifdef UNICODE
if (IS16BITWOWAPP(lpCF))
{
uiWOWFlag = SCDLG_16BIT;
}
iRet = DialogBoxIndirectParamAorW( g_hinst,
(LPDLGTEMPLATE)hDlgTemplate,
lpCF->hwndOwner,
FormatCharDlgProc,
(LPARAM)pFI,
uiWOWFlag );
#else
iRet = DialogBoxIndirectParam( g_hinst,
(LPDLGTEMPLATE)hDlgTemplate,
lpCF->hwndOwner,
FormatCharDlgProc,
(LPARAM)pFI );
#endif
glpfnFontHook = 0;
if (iRet == -1 || ((iRet == 0) && (!g_bUserPressedCancel) && (!GetStoredExtendedError())))
{
StoreExtendedError(CDERR_DIALOGFAILURE);
}
}
else
{
iRet = -1;
StoreExtendedError(CDERR_LOCKRESFAILURE);
}
if (fAllocLogFont)
{
LocalFree(lpCF->lpLogFont);
lpCF->lpLogFont = NULL;
}
#ifdef MM_DESIGNVECTOR_DEFINED
else
{
if (lpCF->lpLogFont && !(fl & CHF_DESIGNVECTOR))
{
UINT i;
BOOL bDefaultAxis = TRUE;
if (pFI->DefaultDesignVector.dvNumAxes != ((LPENUMLOGFONTEXDVW)lpCF->lpLogFont)->elfDesignVector.dvNumAxes)
{
bDefaultAxis = FALSE;
}
else
{
for (i=0; i<pFI->DefaultDesignVector.dvNumAxes; i++)
{
if (pFI->DefaultDesignVector.dvValues[i] != ((LPENUMLOGFONTEXDVW)lpCF->lpLogFont)->elfDesignVector.dvValues[i])
{
bDefaultAxis = FALSE;
}
}
}
if (!bDefaultAxis)
{
AddDesignVectorToName(lpCF->lpLogFont->lfFaceName,
&((LPENUMLOGFONTEXDVW)lpCF->lpLogFont)->elfDesignVector);
}
}
}
#endif // MM_DESIGNVECTOR_DEFINED
return (iRet == IDOK);
}
#ifdef MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// SetMMAxesSelection
//
////////////////////////////////////////////////////////////////////////////
VOID SetMMAxesSelection(
HWND hDlg,
LPCHOOSEFONT lpcf)
{
UINT i;
SCROLLINFO scri;
if (MAX_NUM_AXES < ((LPENUMLOGFONTEXDV)lpcf->lpLogFont)->elfDesignVector.dvNumAxes)
{
((LPENUMLOGFONTEXDV)lpcf->lpLogFont)->elfDesignVector.dvNumAxes = 0; // for safety, set NumAxis to zero
// MessageBox (hDlg, TEXT("Cannot support so many axes"), TEXT("Error"), MB_OK | MB_ICONEXCLAMATION);
return;
}
for (i=0; i<((LPENUMLOGFONTEXDV)lpcf->lpLogFont)->elfDesignVector.dvNumAxes; i++)
{
// setting the positions of scroll bars according to MM Axes values
scri.nPos = ((LPENUMLOGFONTEXDV)lpcf->lpLogFont)->elfDesignVector.dvValues[i];
scri.fMask = SIF_POS;
SetScrollInfo(GetDlgItem(hDlg, scr1 + i), SB_CTL, &scri, TRUE);
SetDlgItemInt ( hDlg, edt1 + i, scri.nPos, TRUE);
}
}
#endif // MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// SetStyleSelection
//
////////////////////////////////////////////////////////////////////////////
VOID SetStyleSelection(
HWND hDlg,
LPCHOOSEFONT lpcf,
BOOL bInit)
{
if (!(lpcf->Flags & CF_NOSTYLESEL))
{
if (bInit && (lpcf->Flags & CF_USESTYLE))
{
PLOGFONT plf;
int iSel;
iSel = CBSetSelFromText(GetDlgItem(hDlg, cmb2), lpcf->lpszStyle);
if (iSel >= 0)
{
LPITEMDATA lpItemData =
(LPITEMDATA)SendDlgItemMessage( hDlg,
cmb2,
CB_GETITEMDATA,
iSel,
0L );
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
plf = lpItemData->pLogFont;
lpcf->lpLogFont->lfWeight = plf->lfWeight;
lpcf->lpLogFont->lfItalic = plf->lfItalic;
}
else
{
lpcf->lpLogFont->lfWeight = FW_NORMAL;
lpcf->lpLogFont->lfItalic = 0;
}
}
else
{
lpcf->lpLogFont->lfWeight = FW_NORMAL;
lpcf->lpLogFont->lfItalic = 0;
}
}
else
{
SelectStyleFromLF(GetDlgItem(hDlg, cmb2), lpcf->lpLogFont);
}
CBSetTextFromSel(GetDlgItem(hDlg, cmb2));
}
}
////////////////////////////////////////////////////////////////////////////
//
// HideDlgItem
//
////////////////////////////////////////////////////////////////////////////
VOID HideDlgItem(
HWND hDlg,
int id)
{
EnableWindow(GetDlgItem(hDlg, id), FALSE);
ShowWindow(GetDlgItem(hDlg, id), SW_HIDE);
}
////////////////////////////////////////////////////////////////////////////
//
// FixComboHeights
//
// Fixes the ownerdraw combo boxes to match the height of the non
// ownerdraw combo boxes.
//
////////////////////////////////////////////////////////////////////////////
VOID FixComboHeights(
HWND hDlg)
{
LPARAM height;
height = SendDlgItemMessage(hDlg, cmb2, CB_GETITEMHEIGHT, (WPARAM)-1, 0L);
SendDlgItemMessage(hDlg, cmb1, CB_SETITEMHEIGHT, (WPARAM)-1, height);
SendDlgItemMessage(hDlg, cmb3, CB_SETITEMHEIGHT, (WPARAM)-1, height);
}
BOOL_PTR HandleFontDlgInitialize(FONTINFO *pFI, HWND hDlg, WPARAM wParam)
{
TCHAR szPoints[20];
HDC hdc;
HWND hWndHelp; // handle to Help... pushbutton
LPCHOOSEFONT pCF;
if (!CDLoadString(g_hinst, iszRegular, (LPTSTR)szRegular, CCHSTYLE) ||
!CDLoadString(g_hinst, iszBold, (LPTSTR)szBold, CCHSTYLE) ||
!CDLoadString(g_hinst, iszItalic, (LPTSTR)szItalic, CCHSTYLE) ||
!CDLoadString(g_hinst, iszBoldItalic, (LPTSTR)szBoldItalic, CCHSTYLE))
{
StoreExtendedError(CDERR_LOADSTRFAILURE);
EndDialog(hDlg, FALSE);
return (FALSE);
}
pCF = pFI->pCF;
if ((pCF->Flags & CF_LIMITSIZE) &&
(pCF->nSizeMax < pCF->nSizeMin))
{
StoreExtendedError(CFERR_MAXLESSTHANMIN);
EndDialog(hDlg, FALSE);
return (FALSE);
}
//
// Save ptr to CHOOSEFONT struct in the dialog's prop list.
// Alloc a temp LOGFONT struct to be used for the length of
// the dialog session, the contents of which will be copied
// over to the final LOGFONT (pointed to by CHOOSEFONT)
// only if <OK> is selected.
//
SetProp(hDlg, FONTPROP, (HANDLE)pFI);
glpfnFontHook = 0;
hDlgFont = (HFONT)SendMessage(hDlg, WM_GETFONT, 0, 0L);
if (!hbmFont)
{
hbmFont = LoadBitmaps(BMFONT);
}
if (!(pCF->Flags & CF_APPLY))
{
HideDlgItem(hDlg, psh3);
}
if (!(pCF->Flags & CF_EFFECTS))
{
HideDlgItem(hDlg, stc4);
HideDlgItem(hDlg, cmb4);
}
else
{
short nIndex;
// Fill color list.
FillColorCombo(hDlg);
for (nIndex = CCHCOLORS - 1; nIndex > 0; nIndex--)
{
DWORD dw = (DWORD) SendDlgItemMessage(hDlg, cmb4, CB_GETITEMDATA, nIndex, 0);
if (pCF->rgbColors == dw)
{
break;
}
}
SendDlgItemMessage(hDlg, cmb4, CB_SETCURSEL, nIndex, 0);
}
GetWindowRect(GetDlgItem (hDlg, stc5), &pFI->rcText);
MapWindowPoints(NULL, hDlg, (POINT *)(&pFI->rcText), 2);
FixComboHeights(hDlg);
// Init our LOGFONT.
if (!(pCF->Flags & CF_INITTOLOGFONTSTRUCT))
{
InitLF(pCF->lpLogFont);
}
// Init effects.
if (!(pCF->Flags & CF_EFFECTS))
{
HideDlgItem(hDlg, grp1);
HideDlgItem(hDlg, chx1);
HideDlgItem(hDlg, chx2);
}
else
{
CheckDlgButton(hDlg, chx1, pCF->lpLogFont->lfStrikeOut);
CheckDlgButton(hDlg, chx2, pCF->lpLogFont->lfUnderline);
}
pFI->nLastFontType = 0;
if (!GetFontFamily( hDlg,
pCF->hDC,
pCF->Flags,
pCF->lpLogFont->lfCharSet ))
{
StoreExtendedError(CFERR_NOFONTS);
if (pCF->Flags & CF_ENABLEHOOK)
{
glpfnFontHook = GETHOOKFN(pCF);
}
EndDialog(hDlg, FALSE);
return (FALSE);
}
if (!(pCF->Flags & CF_NOFACESEL) && *pCF->lpLogFont->lfFaceName)
{
BOOL bContinueChecking;
LPTSTR lpRealFontName, lpSubFontName;
// We want to select the font the user has requested.
int iResult = CBSetSelFromText(GetDlgItem(hDlg, cmb1), pCF->lpLogFont->lfFaceName);
// If iResult == CB_ERR, then we could be working with a
// font subsitution name (eg: MS Shell Dlg).
if (iResult == CB_ERR)
{
lpSubFontName = pCF->lpLogFont->lfFaceName;
}
// Allocate a buffer to store the real font name in.
lpRealFontName = GlobalAlloc(GPTR, MAX_PATH * sizeof(TCHAR));
if (!lpRealFontName)
{
StoreExtendedError(CDERR_MEMALLOCFAILURE);
EndDialog(hDlg, FALSE);
return (FALSE);
}
// The while loop is necessary in order to resolve
// substitions pointing to subsitutions.
// eg: Helv->MS Shell Dlg->MS Sans Serif
bContinueChecking = TRUE;
while ((iResult == CB_ERR) && bContinueChecking)
{
bContinueChecking = LookUpFontSubs(lpSubFontName, lpRealFontName);
// If bContinueChecking is TRUE, then we have a font
// name. Try to select that in the list.
if (bContinueChecking)
{
iResult = CBSetSelFromText(GetDlgItem(hDlg, cmb1), lpRealFontName );
}
lpSubFontName = lpRealFontName;
}
//
// Free our buffer.
//
GlobalFree(lpRealFontName);
//
// Set the edit control text if appropriate.
//
if (iResult != CB_ERR)
{
CBSetTextFromSel(GetDlgItem(hDlg, cmb1));
}
}
hdc = GetDC(NULL);
if (pCF->Flags & CF_NOSCRIPTSEL)
{
hWndHelp = GetDlgItem(hDlg, cmb5);
if (hWndHelp)
{
CDLoadString( g_hinst,
iszNoScript,
szPoints,
ARRAYSIZE(szPoints));
CBAddScript(hWndHelp, szPoints, DEFAULT_CHARSET);
EnableWindow(hWndHelp, FALSE);
}
DefaultCharset = DEFAULT_CHARSET;
pFI->iCharset = DEFAULT_CHARSET;
}
else if (pCF->Flags & (CF_SELECTSCRIPT | CF_INITTOLOGFONTSTRUCT))
{
//
// We could come in here with a bogus value, if the app is
// NOT 4.0, that would result in the bogus charset not
// being found for the facename, and the default would be
// put back again anyway.
//
pFI->iCharset = pCF->lpLogFont->lfCharSet;
}
else
{
DefaultCharset = GetTextCharset(hdc);
pFI->iCharset = DefaultCharset;
}
GetFontStylesAndSizes(hDlg, pFI, pCF, TRUE);
if (!(pCF->Flags & CF_NOSTYLESEL))
{
SetStyleSelection(hDlg, pCF, TRUE);
}
if (!(pCF->Flags & CF_NOSIZESEL) && pCF->lpLogFont->lfHeight)
{
GetPointString(szPoints, hdc, pCF->lpLogFont->lfHeight);
CBSetSelFromText(GetDlgItem(hDlg, cmb3), szPoints);
SetDlgItemText(hDlg, cmb3, szPoints);
}
#ifdef MM_DESIGNVECTOR_DEFINED
SetMMAxesSelection(hDlg, pCF);
#endif // MM_DESIGNVECTOR_DEFINED
ReleaseDC(NULL, hdc);
//
// Hide the help button if it isn't needed.
//
if (!(pCF->Flags & CF_SHOWHELP))
{
ShowWindow(hWndHelp = GetDlgItem(hDlg, pshHelp), SW_HIDE);
EnableWindow(hWndHelp, FALSE);
}
SendDlgItemMessage(hDlg, cmb1, CB_LIMITTEXT, LF_FACESIZE - 1, 0L);
SendDlgItemMessage(hDlg, cmb2, CB_LIMITTEXT, LF_FACESIZE - 1, 0L);
SendDlgItemMessage(hDlg, cmb3, CB_LIMITTEXT, 5, 0L);
//
// If hook function has been specified, let it do any additional
// processing of this message.
//
if (pCF->lpfnHook)
{
BOOL_PTR bRet;
LPCFHOOKPROC lpfnHook = GETHOOKFN(pCF);
#ifdef UNICODE
if (pFI->ApiType == COMDLG_ANSI)
{
ThunkChooseFontW2A(pFI);
bRet = (*lpfnHook)(hDlg, WM_INITDIALOG, wParam, (LPARAM)pFI->pCFA);
ThunkChooseFontA2W(pFI);
}
else
#endif
{
bRet = (*lpfnHook)(hDlg, WM_INITDIALOG, wParam, (LPARAM)pCF);
}
return (bRet);
}
SetCursor(LoadCursor(NULL, IDC_ARROW));
return TRUE;
}
////////////////////////////////////////////////////////////////////////////
//
// FormatCharDlgProc
//
// Message handler for font dlg
//
// chx1 - "underline" checkbox
// chx2 - "strikeout" checkbox
// psh4 - "help" pushbutton
//
// On WM_INITDIALOG message, the choosefont is accessed via lParam,
// and stored in the window's prop list. If a hook function has been
// specified, it is invoked AFTER the current function has processed
// WM_INITDIALOG.
//
// For all other messages, control is passed directly to the hook
// function first. Depending on the latter's return value, the message
// is processed by this function.
//
////////////////////////////////////////////////////////////////////////////
BOOL_PTR CALLBACK FormatCharDlgProc(HWND hDlg, UINT wMsg, WPARAM wParam, LPARAM lParam)
{
PFONTINFO pFI;
LPCHOOSEFONT pCF = NULL; // ptr to struct passed to ChooseFont()
BOOL_PTR bRet;
#ifdef MM_DESIGNVECTOR_DEFINED
int i, nCode, nPos, oldPos;
HWND hwndScr;
#endif // MM_DESIGNVECTOR_DEFINED
//
// If CHOOSEFONT struct has already been accessed and if a hook
// function is specified, let it do the processing first.
//
if (pFI = (PFONTINFO)GetProp(hDlg, FONTPROP))
{
if ((pCF = (LPCHOOSEFONT)pFI->pCF) &&
(pCF->lpfnHook))
{
LPCFHOOKPROC lpfnHook = GETHOOKFN(pCF);
if ((bRet = (*lpfnHook)(hDlg, wMsg, wParam, lParam)))
{
if ((wMsg == WM_COMMAND) &&
(GET_WM_COMMAND_ID(wParam, lParam) == IDCANCEL))
{
//
// Set global flag stating that the user pressed cancel.
//
g_bUserPressedCancel = TRUE;
}
return (bRet);
}
}
}
else
{
if (glpfnFontHook &&
(wMsg != WM_INITDIALOG) &&
(bRet = (* glpfnFontHook)(hDlg, wMsg, wParam, lParam)))
{
return (bRet);
}
}
switch (wMsg)
{
case ( WM_INITDIALOG ) :
{
return HandleFontDlgInitialize((PFONTINFO)lParam, hDlg, wParam);
}
case ( WM_DESTROY ) :
{
if (pCF)
{
RemoveProp(hDlg, FONTPROP);
}
break;
}
case ( WM_PAINT ) :
{
PAINTSTRUCT ps;
if (!pFI)
{
return (FALSE);
}
if (BeginPaint(hDlg, &ps))
{
DrawSampleText(hDlg, pFI, pCF, ps.hdc);
EndPaint(hDlg, &ps);
}
break;
}
case ( WM_MEASUREITEM ) :
{
TEXTMETRIC tm;
HDC hDC = GetDC(hDlg);
HFONT hFont = (HFONT)SendMessage(hDlg, WM_GETFONT, 0, 0L);
if (hFont)
{
hFont = SelectObject(hDC, hFont);
}
GetTextMetrics(hDC, &tm);
if (hFont)
{
SelectObject(hDC, hFont);
}
ReleaseDC(hDlg, hDC);
if (((LPMEASUREITEMSTRUCT)lParam)->itemID != -1)
{
((LPMEASUREITEMSTRUCT)lParam)->itemHeight =
max(tm.tmHeight, DY_BITMAP);
}
else
{
//
// This is for 3.0 only. In 3.1, the CB_SETITEMHEIGHT
// will fix this. Note, this is off by one on 8514.
//
((LPMEASUREITEMSTRUCT)lParam)->itemHeight = tm.tmHeight + 1;
}
break;
}
case ( WM_DRAWITEM ) :
{
#define lpdis ((LPDRAWITEMSTRUCT)lParam)
if (lpdis->itemID == (UINT)-1)
{
break;
}
if (lpdis->CtlID == cmb4)
{
DrawColorComboItem(lpdis);
}
else if (lpdis->CtlID == cmb1)
{
DrawFamilyComboItem(lpdis);
}
else
{
DrawSizeComboItem(lpdis);
}
break;
#undef lpdis
}
case ( WM_SYSCOLORCHANGE ) :
{
DeleteObject(hbmFont);
hbmFont = LoadBitmaps(BMFONT);
break;
}
case ( WM_COMMAND ) :
{
if (!pFI)
{
return (FALSE);
}
return (ProcessDlgCtrlCommand(hDlg, pFI,
GET_WM_COMMAND_ID(wParam, lParam),
GET_WM_COMMAND_CMD(wParam, lParam),
GET_WM_COMMAND_HWND(wParam, lParam)));
break;
}
case ( WM_HELP ) :
{
if (IsWindowEnabled(hDlg))
{
WinHelp( (HWND)((LPHELPINFO)lParam)->hItemHandle,
NULL,
HELP_WM_HELP,
(ULONG_PTR)(LPVOID)aFontHelpIDs );
}
break;
}
case ( WM_CONTEXTMENU ) :
{
if (IsWindowEnabled(hDlg))
{
WinHelp( (HWND)wParam,
NULL,
HELP_CONTEXTMENU,
(ULONG_PTR)(LPVOID)aFontHelpIDs );
}
break;
}
case ( WM_CHOOSEFONT_GETLOGFONT ) :
{
Handle_WM_CHOOSEFONT_GETLOGFONT:
if (!pFI)
{
return (FALSE);
}
#ifdef UNICODE
if (pFI->ApiType == COMDLG_ANSI)
{
BOOL bRet;
LOGFONT lf;
bRet = FillInFont(hDlg, pFI, pCF, &lf, TRUE);
ThunkLogFontW2A(&lf, (LPLOGFONTA)lParam);
return (bRet);
}
else
#endif
{
return (FillInFont(hDlg, pFI, pCF, (LPLOGFONT)lParam, TRUE));
}
}
case ( WM_CHOOSEFONT_SETLOGFONT ) :
{
if (!pFI)
{
return (FALSE);
}
#ifdef UNICODE
if (pFI->ApiType == COMDLG_ANSI)
{
LOGFONT lf;
ThunkLogFontA2W((LPLOGFONTA)lParam, &lf);
return (SetLogFont(hDlg, pCF, &lf));
}
else
#endif
{
return (SetLogFont(hDlg, pCF, (LPLOGFONT)lParam));
}
break;
}
case ( WM_CHOOSEFONT_SETFLAGS ) :
{
if (pCF)
{
DWORD dwFlags = pCF->Flags;
pCF->Flags = (DWORD) lParam;
SetDlgMsgResult(hDlg, WM_CHOOSEFONT_SETFLAGS, dwFlags);
}
return (TRUE);
}
#ifdef MM_DESIGNVECTOR_DEFINED
case ( WM_HSCROLL ) :
{
nCode = (int) LOWORD(wParam); // scroll bar value
nPos = (short int) HIWORD(wParam); // scroll box position
hwndScr = (HWND) lParam; // handle to scroll bar
i = 0;
while ((GetDlgItem(hDlg, scr1 + i) != hwndScr) && (i < MAX_NUM_AXES))
i++;
if (i >= MAX_NUM_AXES)
return (FALSE);
if (nCode == SB_THUMBPOSITION)
{
SetDlgItemInt ( hDlg, edt1 + i, nPos, TRUE );
SendMessage(hwndScr, SBM_SETPOS, nPos, (LPARAM)TRUE);
// redraw sample text
GetWindowRect(GetDlgItem (hDlg, stc5), &pFI->rcText);
MapWindowPoints(NULL, hDlg, (POINT *)(&pFI->rcText), 2);
InvalidateRect(hDlg, &pFI->rcText, FALSE);
UpdateWindow(hDlg);
return (TRUE);
}
if (nCode == SB_THUMBTRACK)
{
SetDlgItemInt ( hDlg, edt1 + i, nPos, TRUE );
SendMessage(hwndScr, SBM_SETPOS, nPos, (LPARAM)TRUE);
// redraw sample text
GetWindowRect(GetDlgItem (hDlg, stc5), &pFI->rcText);
MapWindowPoints(NULL, hDlg, (POINT *)(&pFI->rcText), 2);
InvalidateRect(hDlg, &pFI->rcText, FALSE);
UpdateWindow(hDlg);
return (TRUE);
}
oldPos = (int)SendMessage(hwndScr, SBM_GETPOS, 0, 0);
if (nCode == SB_LINELEFT)
oldPos -= 1;
if (nCode == SB_LINERIGHT)
oldPos += 1;
if (nCode == SB_PAGELEFT)
oldPos -= 10;
if (nCode == SB_PAGERIGHT)
oldPos += 10;
if (nCode == SB_LINELEFT || nCode == SB_LINERIGHT || nCode == SB_PAGELEFT || nCode == SB_PAGERIGHT)
{
SetDlgItemInt ( hDlg, edt1 + i, oldPos, TRUE );
SendMessage(hwndScr, SBM_SETPOS, oldPos, (LPARAM)TRUE);
// redraw the sample text
GetWindowRect(GetDlgItem (hDlg, stc5), &pFI->rcText);
MapWindowPoints(NULL, hDlg, (POINT *)(&pFI->rcText), 2);
InvalidateRect(hDlg, &pFI->rcText, FALSE);
UpdateWindow(hDlg);
return (TRUE);
}
return (TRUE);
}
#endif // MM_DESIGNVECTOR_DEFINED
default :
{
if (wMsg == msgWOWCHOOSEFONT_GETLOGFONT)
{
goto Handle_WM_CHOOSEFONT_GETLOGFONT;
}
return (FALSE);
}
}
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// SelectStyleFromLF
//
// Given a logfont, selects the closest match in the style list.
//
////////////////////////////////////////////////////////////////////////////
void SelectStyleFromLF(
HWND hwnd,
LPLOGFONT lplf)
{
int ctr, count, iSel;
PLOGFONT plf;
int weight_delta, best_weight_delta = 1000;
BOOL bIgnoreItalic;
LPITEMDATA lpItemData;
count = (int)SendMessage(hwnd, CB_GETCOUNT, 0, 0L);
iSel = 0;
bIgnoreItalic = FALSE;
TryAgain:
for (ctr = 0; ctr < count; ctr++)
{
lpItemData = (LPITEMDATA)SendMessage(hwnd, CB_GETITEMDATA, ctr, 0L);
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
plf = lpItemData->pLogFont;
if (bIgnoreItalic ||
(plf->lfItalic && lplf->lfItalic) ||
(!plf->lfItalic && !lplf->lfItalic))
{
weight_delta = lplf->lfWeight - plf->lfWeight;
if (weight_delta < 0)
{
weight_delta = -weight_delta;
}
if (weight_delta < best_weight_delta)
{
best_weight_delta = weight_delta;
iSel = ctr;
}
}
}
}
if (!bIgnoreItalic && iSel == 0)
{
bIgnoreItalic = TRUE;
goto TryAgain;
}
SendMessage(hwnd, CB_SETCURSEL, iSel, 0L);
}
////////////////////////////////////////////////////////////////////////////
//
// CBSetTextFromSel
//
// Makes the currently selected item the edit text for a combo box.
//
////////////////////////////////////////////////////////////////////////////
int CBSetTextFromSel(
HWND hwnd)
{
int iSel;
TCHAR szFace[LF_FACESIZE];
iSel = (int)SendMessage(hwnd, CB_GETCURSEL, 0, 0L);
if (iSel >= 0)
{
SendMessage(hwnd, CB_GETLBTEXT, iSel, (LONG_PTR)(LPTSTR)szFace);
SetWindowText(hwnd, szFace);
}
return (iSel);
}
////////////////////////////////////////////////////////////////////////////
//
// CBSetSelFromText
//
// Sets the selection based on lpszString. Sends notification messages
// if bNotify is TRUE.
//
////////////////////////////////////////////////////////////////////////////
int CBSetSelFromText(
HWND hwnd,
LPTSTR lpszString)
{
int iInd;
iInd = CBFindString(hwnd, lpszString);
if (iInd >= 0)
{
SendMessage(hwnd, CB_SETCURSEL, iInd, 0L);
}
return (iInd);
}
////////////////////////////////////////////////////////////////////////////
//
// CBGetTextAndData
//
// Returns the text and item data for a combo box based on the current
// edit text. If the current edit text does not match anything in the
// listbox, then CB_ERR is returned.
//
////////////////////////////////////////////////////////////////////////////
int CBGetTextAndData(
HWND hwnd,
LPTSTR lpszString,
int iSize,
PULONG_PTR lpdw)
{
LRESULT Result;
int iSel;
if (lpszString == NULL)
{
if ((Result = SendMessage(hwnd, CB_GETITEMDATA, 0, 0L)) < 0)
{
return ((int) Result);
}
else
{
*lpdw = Result;
return (0);
}
}
GetWindowText(hwnd, lpszString, iSize);
iSel = CBFindString(hwnd, lpszString);
if (iSel < 0)
{
return (iSel);
}
*lpdw = SendMessage(hwnd, CB_GETITEMDATA, iSel, 0L);
return (iSel);
}
////////////////////////////////////////////////////////////////////////////
//
// CBFindString
//
// Does an exact string find and returns the index.
//
////////////////////////////////////////////////////////////////////////////
int CBFindString(
HWND hwnd,
LPTSTR lpszString)
{
return ((int)SendMessage( hwnd,
CB_FINDSTRINGEXACT,
(WPARAM)-1,
(LPARAM)(LPCSTR)lpszString ));
}
////////////////////////////////////////////////////////////////////////////
//
// GetPointSizeInRange
//
// Ensures that the point size edit field is in range.
//
// Returns: Point Size - of the edit field limitted by MIN/MAX size
// 0 - if the field is empty
//
////////////////////////////////////////////////////////////////////////////
#define GPS_COMPLAIN 0x0001
#define GPS_SETDEFSIZE 0x0002
BOOL GetPointSizeInRange(
HWND hDlg,
LPCHOOSEFONT lpcf,
LPINT pts,
WORD wFlags)
{
TCHAR szBuffer[90];
TCHAR szTitle[90];
int nTmp;
int nTmpFr = 0;
BOOL bOK;
*pts = 0;
if (GetDlgItemText(hDlg, cmb3, szBuffer, sizeof(szBuffer) / sizeof(TCHAR)))
{
nTmp = GetDlgItemInt(hDlg, cmb3, &bOK, TRUE);
if (!bOK && g_bIsSimplifiedChineseUI)
{
int ctr;
LPTSTR lpsz = szBuffer;
//
// Skip leading white space.
//
while (*lpsz == TEXT(' '))
{
lpsz++;
}
for (ctr = 0; ctr < NUM_ZIHAO; ctr++)
{
if (!lstrcmpi(lpsz, stZihao[ctr].name))
{
bOK = TRUE;
nTmp = stZihao[ctr].size;
nTmpFr = stZihao[ctr].sizeFr;
break;
}
}
}
if (!bOK)
{
nTmp = 0;
}
}
else if (wFlags & GPS_SETDEFSIZE)
{
nTmp = DEF_POINT_SIZE;
bOK = TRUE;
}
else
{
//
// We're just returning with 0 in *pts.
//
return (FALSE);
}
//
// Check that we got a number in range.
//
if (wFlags & GPS_COMPLAIN)
{
if ((lpcf->Flags & CF_LIMITSIZE) &&
(!bOK || (nTmp > lpcf->nSizeMax) || (nTmp < lpcf->nSizeMin)))
{
bOK = FALSE;
CDLoadString( g_hinst,
iszSizeRange,
szTitle,
sizeof(szTitle) / sizeof(TCHAR) );
wsprintf( (LPTSTR)szBuffer,
(LPTSTR)szTitle,
lpcf->nSizeMin,
lpcf->nSizeMax );
}
else if (!bOK)
{
CDLoadString( g_hinst,
iszSizeNumber,
szBuffer,
sizeof(szBuffer) / sizeof(TCHAR) );
}
if (!bOK)
{
GetWindowText(hDlg, szTitle, sizeof(szTitle) / sizeof(TCHAR));
MessageBox(hDlg, szBuffer, szTitle, MB_OK | MB_ICONINFORMATION);
return (FALSE);
}
}
*pts = nTmp * 10 + nTmpFr;
return (TRUE);
}
const struct {
int nCharSet;
UINT uCodePage;
} g_CharSetTransTable[] =
{
ANSI_CHARSET, 1252,
EASTEUROPE_CHARSET, 1250,
RUSSIAN_CHARSET, 1251,
GREEK_CHARSET, 1253,
TURKISH_CHARSET, 1254,
HEBREW_CHARSET, 1255,
ARABIC_CHARSET, 1256,
BALTIC_CHARSET, 1257,
VIETNAMESE_CHARSET, 1258,
THAI_CHARSET, 874,
SHIFTJIS_CHARSET, 932,
GB2312_CHARSET, 936,
HANGEUL_CHARSET, 949,
CHINESEBIG5_CHARSET, 950,
JOHAB_CHARSET, 1361,
DEFAULT_CHARSET, 0,
};
UINT CharsetToCodepage(int iCharset)
{
int i;
for (i=0;i<ARRAYSIZE(g_CharSetTransTable);i++)
if (iCharset == g_CharSetTransTable[i].nCharSet)
return g_CharSetTransTable[i].uCodePage;
return 0;
}
////////////////////////////////////////////////////////////////////////////
//
// ResetSampleFromScript
//
////////////////////////////////////////////////////////////////////////////
BOOL ResetSampleFromScript(HWND hDlg, HWND hwndScript, PFONTINFO pFI)
{
int iSel;
TCHAR szScript[LF_FACESIZE];
LPITEMDATA lpItemData;
if (IsWindow(hwndScript) && IsWindowEnabled(hwndScript))
{
iSel = (int)SendMessage(hwndScript, CB_GETCURSEL, 0, 0L);
if (iSel >= 0)
{
lpItemData = (LPITEMDATA)SendMessage( hwndScript,
CB_GETITEMDATA,
iSel,
0L );
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
pFI->iCharset = lpItemData->nFontType;
}
}
}
if (!CDLoadStringEx(CharsetToCodepage(pFI->iCharset), g_hinst,
pFI->iCharset+iszFontSample, szScript, ARRAYSIZE(szScript)))
{
return (FALSE);
}
SetDlgItemText(hDlg, stc5, szScript);
return (TRUE);
}
BOOL DoKoreanHack(HWND hwnd)
{
// HACK: This is only for Korean input. Because Korean Edit control has
// level 3 implementation for DBCS input, we may have a problem if
// focus is moving like below with interim character.
// 0xE0000412 is Korean IME layout id.
if (((ULONG_PTR)GetKeyboardLayout(0L) & 0xF000FFFFL) == 0xE0000412L)
{
HIMC hIMC = ImmGetContext(hwnd);
LONG cb = ImmGetCompositionString(hIMC, GCS_COMPSTR, NULL, 0);
ImmReleaseContext(hwnd, hIMC);
if (cb > 0)
return TRUE;
}
return FALSE;
}
////////////////////////////////////////////////////////////////////////////
//
// ProcessDlgCtrlCommand
//
// Handles all WM_COMMAND messages for the font dialog.
//
// cmb1 - ID of font facename combobox
// cmb2 - style
// cmb3 - size
// chx1 - "Underline" checkbox
// chx2 - "Strikeout" checkbox
// stc5 - frame around text preview area
// psh4 - button that invokes the Help application
// IDOK - OK button to end dialog, retaining information
// IDCANCEL - button to cancel dialog, not doing anything
//
// Returns: TRUE - if message is processed successfully
// FALSE - otherwise
//
////////////////////////////////////////////////////////////////////////////
BOOL ProcessDlgCtrlCommand(HWND hDlg, PFONTINFO pFI, WORD wId, WORD wCmd, HWND hwnd)
{
int iSel;
LPCHOOSEFONT pCF = (pFI ? pFI->pCF : NULL);
TCHAR szStyle[LF_FACESIZE];
LPITEMDATA lpItemData;
if (pCF)
{
switch (wId)
{
case ( IDABORT ) :
{
//
// This is how a hook can cause the dialog to go away.
//
FreeAllItemData(hDlg, pFI);
if (pCF->Flags & CF_ENABLEHOOK)
{
glpfnFontHook = GETHOOKFN(pCF);
}
// FEATURE: ARULK Why are we returning an HWND anyway?
// The caller (ChooseFontX) expects us to return a BOOL
EndDialog(hDlg, BOOLFROMPTR(hwnd));
break;
}
case ( IDOK ) :
{
WORD wCmbId;
// Make sure the focus is set to the OK button. Must do
// this so that when the user presses Enter from one of
// the combo boxes, the kill focus processing is done
// before the data is captured.
SetFocus(GetDlgItem(hDlg, IDOK));
if (!GetPointSizeInRange(hDlg, pCF, &iSel, GPS_COMPLAIN | GPS_SETDEFSIZE ))
{
PostMessage(hDlg, WM_NEXTDLGCTL, (WPARAM)GetDlgItem(hDlg, cmb3), 1L);
break;
}
pCF->iPointSize = iSel;
#ifdef MM_DESIGNVECTOR_DEFINED
FillInFontEx(hDlg, pFI, pCF, (LPENUMLOGFONTEXDV)pCF->lpLogFont, TRUE);
#else
FillInFont(hDlg, pFI, pCF, pCF->lpLogFont, TRUE);
#endif // MM_DESIGNVECTOR_DEFINED
if (pCF->Flags & CF_FORCEFONTEXIST)
{
if (pCF->Flags & CF_NOFACESEL)
{
wCmbId = cmb1;
}
else if (pCF->Flags & CF_NOSTYLESEL)
{
wCmbId = cmb2;
}
else
{
wCmbId = 0;
}
// Error found.
if (wCmbId)
{
TCHAR szMsg[160], szTitle[160];
CDLoadString(g_hinst,
(wCmbId == cmb1) ? iszNoFaceSel: iszNoStyleSel,
szMsg, ARRAYSIZE(szMsg));
GetWindowText(hDlg, szTitle, ARRAYSIZE(szTitle));
MessageBox(hDlg, szMsg, szTitle, MB_OK | MB_ICONINFORMATION );
PostMessage(hDlg, WM_NEXTDLGCTL, (WPARAM)GetDlgItem(hDlg, wCmbId), 1);
break;
}
}
if (pCF->Flags & CF_EFFECTS)
{
//
// Get currently selected item in color combo box and
// the 32 bit color rgb value associated with it.
//
iSel = (int)SendDlgItemMessage(hDlg, cmb4, CB_GETCURSEL, 0, 0);
pCF->rgbColors = (DWORD) SendDlgItemMessage(hDlg, cmb4, CB_GETITEMDATA, iSel, 0);
}
//
// Get a valid nFontType.
//
iSel = CBGetTextAndData(GetDlgItem(hDlg, cmb2), szStyle, ARRAYSIZE(szStyle), (PULONG_PTR)&lpItemData );
if (iSel < 0)
{
lpItemData = 0;
iSel = CBGetTextAndData(GetDlgItem(hDlg, cmb2), (LPTSTR)NULL, 0, (PULONG_PTR)&lpItemData);
}
if (iSel >= 0 && lpItemData)
{
pCF->nFontType = (WORD)lpItemData->nFontType;
}
else
{
pCF->nFontType = 0;
}
if (pCF->Flags & CF_USESTYLE)
{
lstrcpy(pCF->lpszStyle, szStyle);
}
goto LeaveDialog;
}
case ( IDCANCEL ) :
{
g_bUserPressedCancel = TRUE;
LeaveDialog:
FreeAllItemData(hDlg, pFI);
if (pCF->Flags & CF_ENABLEHOOK)
{
glpfnFontHook = GETHOOKFN(pCF);
}
EndDialog(hDlg, wId == IDOK);
break;
}
case ( cmb1 ) : // facenames combobox
{
switch (wCmd)
{
case ( CBN_SELCHANGE ) :
{
TCHAR szPoints[10];
CBSetTextFromSel(hwnd);
FillStyles:
//
// Try to maintain the current point size and style.
//
GetDlgItemText( hDlg, cmb3, szPoints, ARRAYSIZE(szPoints));
GetFontStylesAndSizes(hDlg, pFI, pCF, FALSE);
SetStyleSelection(hDlg, pCF, FALSE);
//
// Preserve the point size selection or put it in
// the edit control if it is not in the list for
// this font.
//
iSel = CBFindString(GetDlgItem(hDlg, cmb3), szPoints);
if (iSel < 0)
{
SetDlgItemText(hDlg, cmb3, szPoints);
}
else
{
SendDlgItemMessage(hDlg, cmb3, CB_SETCURSEL, iSel, 0);
}
goto DrawSample;
break;
}
case ( CBN_EDITUPDATE ) :
{
PostMessage( hDlg,
WM_COMMAND,
GET_WM_COMMAND_MPS(wId, hwnd, CBN_MYEDITUPDATE));
break;
}
case ( CBN_MYEDITUPDATE ) :
{
GetWindowText(hwnd, szStyle, ARRAYSIZE(szStyle));
iSel = CBFindString(hwnd, szStyle);
if (iSel >= 0)
{
if (DoKoreanHack(hwnd))
break;
SendMessage(hwnd, CB_SETCURSEL, (WPARAM)iSel, 0);
SendMessage(hwnd, CB_SETEDITSEL, 0, 0x0000FFFF);
goto FillStyles;
}
break;
}
}
break;
}
case ( cmb2 ) : // styles combobox
case ( cmb3 ) : // point sizes combobox
{
switch (wCmd)
{
case ( CBN_EDITUPDATE ) :
{
PostMessage( hDlg,
WM_COMMAND,
GET_WM_COMMAND_MPS(wId,hwnd,CBN_MYEDITUPDATE) );
break;
}
case ( CBN_MYEDITUPDATE ) :
{
GetWindowText(hwnd, szStyle, ARRAYSIZE(szStyle));
iSel = CBFindString(hwnd, szStyle);
if (iSel >= 0)
{
if (DoKoreanHack(hwnd))
break;
SendMessage(hwnd, CB_SETCURSEL, iSel, 0);
SendMessage(hwnd, CB_SETEDITSEL, 0, 0x0000FFFF);
goto DrawSample;
}
break;
}
case ( CBN_SELCHANGE ) :
{
iSel = CBSetTextFromSel(hwnd);
//
// Make the style selection stick.
//
if ((iSel >= 0) && (wId == cmb2))
{
LPITEMDATA lpItemData;
PLOGFONT plf;
lpItemData = (LPITEMDATA)SendMessage(hwnd, CB_GETITEMDATA, iSel, 0);
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
plf = lpItemData->pLogFont;
pCF->lpLogFont->lfWeight = plf->lfWeight;
pCF->lpLogFont->lfItalic = plf->lfItalic;
}
else
{
pCF->lpLogFont->lfWeight = FW_NORMAL;
pCF->lpLogFont->lfItalic = 0;
}
}
goto DrawSample;
}
case ( CBN_KILLFOCUS ) :
{
DrawSample:
#ifdef UNICODE
if (pFI->ApiType == COMDLG_ANSI)
{
//
// Send special WOW message to indicate the
// font style has changed.
//
LOGFONT lf;
if (FillInFont(hDlg, pFI, pCF, &lf, TRUE))
{
memcpy(pCF->lpLogFont, &lf, sizeof(LOGFONT));
ThunkLogFontW2A(pCF->lpLogFont, pFI->pCFA->lpLogFont);
SendMessage(hDlg, msgWOWLFCHANGE, 0, (LPARAM)(LPLOGFONT)pFI->pCFA->lpLogFont);
}
}
#endif
//
// Force redraw of preview text for any size change.
//
InvalidateRect(hDlg, &pFI->rcText, FALSE);
UpdateWindow(hDlg);
}
}
break;
}
case ( cmb5 ) : // script combobox
{
//
// Need to change the sample text to reflect the new script.
//
if (wCmd != CBN_SELCHANGE)
{
break;
}
if (pFI->ProcessVersion < 0x40000)
{
// Enabled template also has a cmb5!
return (FALSE);
}
if (ResetSampleFromScript(hDlg, hwnd, pFI ))
{
goto FillStyles;
}
else
{
break;
}
}
case ( cmb4 ) :
{
if (wCmd != CBN_SELCHANGE)
{
break;
}
// fall thru...
}
case ( chx1 ) : // bold
case ( chx2 ) : // italic
{
goto DrawSample;
}
case ( pshHelp ) : // help
{
#ifdef UNICODE
if (pFI->ApiType == COMDLG_ANSI)
{
if (msgHELPA && pCF->hwndOwner)
{
SendMessage(pCF->hwndOwner, msgHELPA, (WPARAM)hDlg, (LPARAM)pCF);
}
}
else
#endif
{
if (msgHELPW && pCF->hwndOwner)
{
SendMessage(pCF->hwndOwner, msgHELPW, (WPARAM)hDlg, (LPARAM)pCF);
}
}
break;
}
default :
{
return (FALSE);
}
}
}
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// CmpFontType
//
// Compares two font types. The values of the font type bits are
// monotonic except the low bit (RASTER_FONTTYPE). After flipping
// that bit the words can be compared directly.
//
// Returns the best of the two.
//
////////////////////////////////////////////////////////////////////////////
int CmpFontType(
DWORD ft1,
DWORD ft2)
{
ft1 &= ~(SCREEN_FONTTYPE | PRINTER_FONTTYPE);
ft2 &= ~(SCREEN_FONTTYPE | PRINTER_FONTTYPE);
//
// Flip the RASTER_FONTTYPE bit so we can compare.
//
ft1 ^= RASTER_FONTTYPE;
ft2 ^= RASTER_FONTTYPE;
return ( (int)ft1 - (int)ft2 );
}
////////////////////////////////////////////////////////////////////////////
//
// FontFamilyEnumProc
//
// nFontType bits
//
// SCALABLE DEVICE RASTER
// (TT) (not GDI) (not scalable)
// 0 0 0 vector, ATM screen
// 0 0 1 GDI raster font
// 0 1 0 PS/LJ III, ATM printer, ATI/LaserMaster
// 0 1 1 non scalable device font
// 1 0 x TT screen font
// 1 1 x TT dev font
//
////////////////////////////////////////////////////////////////////////////
int FontFamilyEnumProc(
LPENUMLOGFONTEX lplf,
LPNEWTEXTMETRIC lptm,
DWORD nFontType,
LPENUM_FONT_DATA lpData)
{
int iItem;
DWORD nOldType, nNewType;
LPITEMDATA lpItemData;
LPITEMDATA lpOldItemData = NULL;
//
// Bounce non TT fonts.
//
if ((lpData->dwFlags & CF_TTONLY) &&
!(nFontType & TRUETYPE_FONTTYPE))
{
return (TRUE);
}
//
// Bounce non scalable fonts.
//
if ((lpData->dwFlags & CF_SCALABLEONLY) &&
(nFontType & RASTER_FONTTYPE))
{
return (TRUE);
}
//
// Bounce non ANSI fonts.
//
if ((lpData->dwFlags & CF_SCRIPTSONLY) &&
((lplf->elfLogFont.lfCharSet == OEM_CHARSET) ||
(lplf->elfLogFont.lfCharSet == SYMBOL_CHARSET)))
{
return (TRUE);
}
//
// Bounce vertical fonts.
//
if ((lpData->dwFlags & CF_NOVERTFONTS) &&
(lplf->elfLogFont.lfFaceName[0] == TEXT('@'))
)
{
return (TRUE);
}
//
// Bounce proportional fonts.
//
if ((lpData->dwFlags & CF_FIXEDPITCHONLY) &&
(lplf->elfLogFont.lfPitchAndFamily & VARIABLE_PITCH))
{
return (TRUE);
}
//
// Bounce vector fonts.
//
if ((lpData->dwFlags & CF_NOVECTORFONTS) &&
(lplf->elfLogFont.lfCharSet == OEM_CHARSET))
{
return (TRUE);
}
if (lpData->bPrinterFont)
{
nFontType |= PRINTER_FONTTYPE;
}
else
{
nFontType |= SCREEN_FONTTYPE;
}
//
// Test for a name collision.
//
iItem = CBFindString(lpData->hwndFamily, lplf->elfLogFont.lfFaceName);
if (iItem >= 0)
{
lpItemData = (LPITEMDATA)SendMessage( lpData->hwndFamily,
CB_GETITEMDATA,
iItem,
0L );
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
nOldType = lpItemData->nFontType;
lpOldItemData = lpItemData;
}
else
{
nOldType = 0;
}
//
// If we don't want screen fonts, but do want printer fonts,
// the old font is a screen font and the new font is a
// printer font, take the new font regardless of other flags.
// Note that this means if a printer wants TRUETYPE fonts, it
// should enumerate them.
//
if (!(lpData->dwFlags & CF_SCREENFONTS) &&
(lpData->dwFlags & CF_PRINTERFONTS) &&
(nFontType & PRINTER_FONTTYPE) &&
(nOldType & SCREEN_FONTTYPE))
{
nOldType = 0; // for setting nNewType below
goto SetNewType;
}
if (CmpFontType(nFontType, nOldType) > 0)
{
SetNewType:
nNewType = nFontType;
SendMessage( lpData->hwndFamily,
CB_INSERTSTRING,
iItem,
(LONG_PTR)(LPTSTR)lplf->elfLogFont.lfFaceName );
SendMessage( lpData->hwndFamily,
CB_DELETESTRING,
iItem + 1,
0L );
}
else
{
nNewType = nOldType;
}
//
// Accumulate the printer/screen ness of these fonts.
//
nNewType |= (nFontType | nOldType) &
(SCREEN_FONTTYPE | PRINTER_FONTTYPE);
lpItemData = (LPITEMDATA)LocalAlloc(LMEM_FIXED, sizeof(ITEMDATA));
if (!lpItemData)
{
return (FALSE);
}
lpItemData->pLogFont = 0L;
lpItemData->nFontType = nNewType;
SendMessage( lpData->hwndFamily,
CB_SETITEMDATA,
iItem,
(LONG_PTR)lpItemData );
if (lpOldItemData)
{
LocalFree(lpOldItemData);
}
return (TRUE);
}
iItem = (int)SendMessage( lpData->hwndFamily,
CB_ADDSTRING,
0,
(LONG_PTR)(LPTSTR)lplf->elfLogFont.lfFaceName );
if (iItem < 0)
{
return (FALSE);
}
lpItemData = (LPITEMDATA)LocalAlloc(LMEM_FIXED, sizeof(ITEMDATA));
if (!lpItemData)
{
return (FALSE);
}
lpItemData->pLogFont = 0L;
#ifdef WINNT
if (lptm->ntmFlags & NTM_PS_OPENTYPE)
nFontType |= PS_OPENTYPE_FONTTYPE;
if (lptm->ntmFlags & NTM_TYPE1)
nFontType |= TYPE1_FONTTYPE;
if (lptm->ntmFlags & NTM_TT_OPENTYPE)
nFontType |= TT_OPENTYPE_FONTTYPE;
#endif // WINNT
lpItemData->nFontType = nFontType;
SendMessage(lpData->hwndFamily, CB_SETITEMDATA, iItem, (LONG_PTR)lpItemData);
lptm;
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// GetFontFamily
//
// Fills the screen and/or printer font facenames into the font facenames
// combobox depending on the CF_?? flags passed in.
//
// cmb1 is the ID for the font facename combobox
//
// Both screen and printer fonts are listed into the same combobox
//
// Returns: TRUE if successful
// FALSE otherwise.
//
////////////////////////////////////////////////////////////////////////////
BOOL GetFontFamily(
HWND hDlg,
HDC hDC,
DWORD dwEnumCode,
UINT iCharset)
{
ENUM_FONT_DATA data;
int iItem, iCount;
DWORD nFontType;
TCHAR szMsg[200], szTitle[40];
LPITEMDATA lpItemData;
LOGFONT lf;
data.hwndFamily = GetDlgItem(hDlg, cmb1);
data.dwFlags = dwEnumCode;
//
// This is a bit strange. We have to get all the screen fonts
// so if they ask for the printer fonts we can tell which
// are really printer fonts. This is so we don't list the
// vector and raster fonts as printer device fonts.
//
data.hDC = GetDC(NULL);
data.bPrinterFont = FALSE;
lf.lfFaceName[0] = CHAR_NULL;
lf.lfCharSet = (dwEnumCode & CF_SELECTSCRIPT) ? iCharset : DEFAULT_CHARSET;
EnumFontFamiliesEx( data.hDC,
&lf,
(FONTENUMPROC)FontFamilyEnumProc,
(LPARAM)&data,
0L );
ReleaseDC(NULL, data.hDC);
//
// List out printer font facenames.
//
if (dwEnumCode & CF_PRINTERFONTS)
{
data.hDC = hDC;
data.bPrinterFont = TRUE;
EnumFontFamiliesEx( hDC,
&lf,
(FONTENUMPROC)FontFamilyEnumProc,
(LPARAM)&data,
0L );
}
//
// Now we have to remove those screen fonts if they didn't
// ask for them.
//
if (!(dwEnumCode & CF_SCREENFONTS))
{
iCount = (int)SendMessage(data.hwndFamily, CB_GETCOUNT, 0, 0L);
for (iItem = iCount - 1; iItem >= 0; iItem--)
{
lpItemData = (LPITEMDATA)SendMessage( data.hwndFamily,
CB_GETITEMDATA,
iItem,
0L );
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
nFontType = lpItemData->nFontType;
}
else
{
nFontType = 0;
}
if ((nFontType & (SCREEN_FONTTYPE |
PRINTER_FONTTYPE)) == SCREEN_FONTTYPE)
{
SendMessage(data.hwndFamily, CB_DELETESTRING, iItem, 0L);
}
}
}
//
// For WYSIWYG mode we delete all the fonts that don't exist
// on the screen and the printer.
//
if (dwEnumCode & CF_WYSIWYG)
{
iCount = (int)SendMessage(data.hwndFamily, CB_GETCOUNT, 0, 0L);
for (iItem = iCount - 1; iItem >= 0; iItem--)
{
nFontType = ((LPITEMDATA)SendMessage( data.hwndFamily,
CB_GETITEMDATA,
iItem,
0L ))->nFontType;
if ((nFontType & (SCREEN_FONTTYPE | PRINTER_FONTTYPE)) !=
(SCREEN_FONTTYPE | PRINTER_FONTTYPE))
{
SendMessage(data.hwndFamily, CB_DELETESTRING, iItem, 0L);
}
}
}
if ((int)SendMessage(data.hwndFamily, CB_GETCOUNT, 0, 0L) <= 0)
{
CDLoadString( g_hinst,
iszNoFontsTitle,
szTitle,
sizeof(szTitle) / sizeof(TCHAR));
CDLoadString( g_hinst,
iszNoFontsMsg,
szMsg,
sizeof(szMsg) / sizeof(TCHAR));
MessageBox(hDlg, szMsg, szTitle, MB_OK | MB_ICONINFORMATION);
return (FALSE);
}
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// CBAddSize
//
////////////////////////////////////////////////////////////////////////////
VOID CBAddSize(
HWND hwnd,
int pts,
LPCHOOSEFONT lpcf)
{
int iInd;
TCHAR szSize[10];
int count, test_size;
LPITEMDATA lpItemData;
//
// See if the size is limited.
//
if ((lpcf->Flags & CF_LIMITSIZE) &&
((pts > lpcf->nSizeMax) || (pts < lpcf->nSizeMin)))
{
return;
}
//
// Convert the point size to a string.
//
wsprintf(szSize, szPtFormat, pts);
//
// Figure out where in the list the item should be added.
// All values should be in increasing order in the list box.
//
count = (int)SendMessage(hwnd, CB_GETCOUNT, 0, 0L);
test_size = -1;
for (iInd = 0; iInd < count; iInd++)
{
lpItemData = (LPITEMDATA)SendMessage(hwnd, CB_GETITEMDATA, iInd, 0L);
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
test_size = (int)lpItemData->nFontType;
}
else
{
test_size = 0;
}
if (pts <= test_size)
{
break;
}
}
//
// Don't add duplicates.
//
if (pts == test_size)
{
return;
}
//
// Add the string and the associated item data to the list box.
//
iInd = (int) SendMessage(hwnd, CB_INSERTSTRING, iInd, (LPARAM)szSize);
if (iInd >= 0)
{
lpItemData = (LPITEMDATA)LocalAlloc(LMEM_FIXED, sizeof(ITEMDATA));
if (!lpItemData)
{
return;
}
lpItemData->pLogFont = 0L;
lpItemData->nFontType = (DWORD)pts;
SendMessage(hwnd, CB_SETITEMDATA, iInd, (LONG_PTR)lpItemData);
}
}
////////////////////////////////////////////////////////////////////////////
//
// CBAddChineseSize
//
////////////////////////////////////////////////////////////////////////////
VOID CBAddChineseSize(
HWND hwnd,
LPCHOOSEFONT lpcf)
{
int ctr, iInd = 0;
TCHAR szSize[10];
LPITEMDATA lpItemData;
//
// Look at each item in the Zihao structure to see if it should be
// added.
//
for (ctr = 0; ctr < NUM_ZIHAO; ctr++)
{
//
// See if the size is limited.
//
if ((lpcf->Flags & CF_LIMITSIZE) &&
((stZihao[ctr].size > lpcf->nSizeMax) ||
(stZihao[ctr].size < lpcf->nSizeMin)))
{
continue;
}
//
// Convert the point size to a string.
//
wsprintf(szSize, TEXT("%s"), stZihao[ctr].name);
//
// Add the string and the associated item data to the list box.
//
iInd = (int) SendMessage(hwnd, CB_INSERTSTRING, iInd, (LPARAM)szSize);
if (iInd >= 0)
{
lpItemData = (LPITEMDATA)LocalAlloc(LMEM_FIXED, sizeof(ITEMDATA));
if (!lpItemData)
{
return;
}
lpItemData->pLogFont = 0L;
lpItemData->nFontType = (DWORD)(stZihao[ctr].size * 10 +
stZihao[ctr].sizeFr);
SendMessage(hwnd, CB_SETITEMDATA, iInd, (LONG_PTR)lpItemData);
}
}
}
////////////////////////////////////////////////////////////////////////////
//
// InsertStyleSorted
//
// Sort styles by weight first, then by italics.
//
// Returns the index of the place this was inserted.
//
////////////////////////////////////////////////////////////////////////////
int InsertStyleSorted(
HWND hwnd,
LPTSTR lpszStyle,
LPLOGFONT lplf)
{
int count, ctr;
PLOGFONT plf;
LPITEMDATA lpItemData;
count = (int) SendMessage(hwnd, CB_GETCOUNT, 0, 0L);
for (ctr = 0; ctr < count; ctr++)
{
lpItemData = (LPITEMDATA)SendMessage(hwnd, CB_GETITEMDATA, ctr, 0L);
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
plf = lpItemData->pLogFont;
if (lplf->lfWeight < plf->lfWeight)
{
break;
}
else if (lplf->lfWeight == plf->lfWeight)
{
if (lplf->lfItalic && !plf->lfItalic)
{
ctr++;
}
break;
}
}
}
return ((int)SendMessage(hwnd, CB_INSERTSTRING, ctr, (LONG_PTR)lpszStyle));
}
////////////////////////////////////////////////////////////////////////////
//
// CBAddStyle
//
////////////////////////////////////////////////////////////////////////////
PLOGFONT CBAddStyle(
HWND hwnd,
LPTSTR lpszStyle,
DWORD nFontType,
LPLOGFONT lplf)
{
int iItem;
PLOGFONT plf;
LPITEMDATA lpItemData;
//
// Don't add duplicates.
//
if (CBFindString(hwnd, lpszStyle) >= 0)
{
return (NULL);
}
iItem = (int)InsertStyleSorted(hwnd, lpszStyle, lplf);
if (iItem < 0)
{
return (NULL);
}
plf = (PLOGFONT)LocalAlloc(LMEM_FIXED, sizeof(LOGFONT));
if (!plf)
{
SendMessage(hwnd, CB_DELETESTRING, iItem, 0L);
return (NULL);
}
*plf = *lplf;
lpItemData = (LPITEMDATA)LocalAlloc(LMEM_FIXED, sizeof(ITEMDATA));
if (!lpItemData)
{
LocalFree(plf);
SendMessage(hwnd, CB_DELETESTRING, iItem, 0L);
return (NULL);
}
lpItemData->pLogFont = plf;
lpItemData->nFontType = nFontType;
SendMessage(hwnd, CB_SETITEMDATA, iItem, (LONG_PTR)lpItemData);
return (plf);
}
////////////////////////////////////////////////////////////////////////////
//
// CBAddScript
//
////////////////////////////////////////////////////////////////////////////
int CBAddScript(
HWND hwnd,
LPTSTR lpszScript,
UINT iCharset)
{
int iItem;
LPITEMDATA lpItemData;
//
// Don't add duplicates or empty strings.
//
if (!IsWindow(hwnd) || !IsWindowEnabled(hwnd) || (!*lpszScript) ||
(CBFindString(hwnd, lpszScript) >= 0))
{
return (-1);
}
iItem = (int)SendMessage(hwnd, CB_ADDSTRING, 0, (LONG_PTR)(LPTSTR)lpszScript);
if (iItem < 0)
{
return (-1);
}
lpItemData = (LPITEMDATA)LocalAlloc(LMEM_FIXED, sizeof(ITEMDATA));
if (!lpItemData)
{
SendMessage(hwnd, CB_DELETESTRING, iItem, 0L);
return (-1);
}
lpItemData->pLogFont = 0L;
lpItemData->nFontType = (DWORD)iCharset;
SendMessage(hwnd, CB_SETITEMDATA, iItem, (LONG_PTR)lpItemData);
return (iItem);
}
////////////////////////////////////////////////////////////////////////////
//
// FillInMissingStyles
//
// Generates simulated forms from those that we have.
//
// reg -> bold
// reg -> italic
// bold || italic || reg -> bold italic
//
////////////////////////////////////////////////////////////////////////////
VOID FillInMissingStyles(
HWND hwnd)
{
PLOGFONT plf, plf_reg, plf_bold, plf_italic;
DWORD nFontType;
int ctr, count;
BOOL bBold, bItalic, bBoldItalic;
LPITEMDATA lpItemData;
LOGFONT lf;
bBold = bItalic = bBoldItalic = FALSE;
plf_reg = plf_bold = plf_italic = NULL;
count = (int)SendMessage(hwnd, CB_GETCOUNT, 0, 0L);
for (ctr = 0; ctr < count; ctr++)
{
lpItemData = (LPITEMDATA)SendMessage(hwnd, CB_GETITEMDATA, ctr, 0L);
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
plf = lpItemData->pLogFont;
nFontType = lpItemData->nFontType;
}
else
{
plf = NULL;
nFontType = 0;
}
if ((nFontType & BOLD_FONTTYPE) && (nFontType & ITALIC_FONTTYPE))
{
bBoldItalic = TRUE;
}
else if (nFontType & BOLD_FONTTYPE)
{
bBold = TRUE;
plf_bold = plf;
}
else if (nFontType & ITALIC_FONTTYPE)
{
bItalic = TRUE;
plf_italic = plf;
}
else
{
plf_reg = plf;
}
}
nFontType |= SIMULATED_FONTTYPE;
if (!bBold && plf_reg)
{
lf = *plf_reg;
lf.lfWeight = FW_BOLD;
CBAddStyle(hwnd, szBold, (nFontType | BOLD_FONTTYPE), &lf);
}
if (!bItalic && plf_reg)
{
lf = *plf_reg;
lf.lfItalic = TRUE;
CBAddStyle(hwnd, szItalic, (nFontType | ITALIC_FONTTYPE), &lf);
}
if (!bBoldItalic && (plf_bold || plf_italic || plf_reg))
{
if (plf_italic)
{
plf = plf_italic;
}
else if (plf_bold)
{
plf = plf_bold;
}
else
{
plf = plf_reg;
}
lf = *plf;
lf.lfItalic = (BYTE)TRUE;
lf.lfWeight = FW_BOLD;
CBAddStyle(hwnd, szBoldItalic, (nFontType | BOLD_FONTTYPE | ITALIC_FONTTYPE), &lf);
}
}
////////////////////////////////////////////////////////////////////////////
//
// FillScalableSizes
//
////////////////////////////////////////////////////////////////////////////
VOID FillScalableSizes(
HWND hwnd,
LPCHOOSEFONT lpcf)
{
if (g_bIsSimplifiedChineseUI)
{
CBAddChineseSize(hwnd, lpcf);
}
CBAddSize(hwnd, 8, lpcf);
CBAddSize(hwnd, 9, lpcf);
CBAddSize(hwnd, 10, lpcf);
CBAddSize(hwnd, 11, lpcf);
CBAddSize(hwnd, 12, lpcf);
CBAddSize(hwnd, 14, lpcf);
CBAddSize(hwnd, 16, lpcf);
CBAddSize(hwnd, 18, lpcf);
CBAddSize(hwnd, 20, lpcf);
CBAddSize(hwnd, 22, lpcf);
CBAddSize(hwnd, 24, lpcf);
CBAddSize(hwnd, 26, lpcf);
CBAddSize(hwnd, 28, lpcf);
CBAddSize(hwnd, 36, lpcf);
CBAddSize(hwnd, 48, lpcf);
CBAddSize(hwnd, 72, lpcf);
}
////////////////////////////////////////////////////////////////////////////
//
// FontStyleEnumProc
//
////////////////////////////////////////////////////////////////////////////
int FontStyleEnumProc(
LPENUMLOGFONTEX lplf,
LPNEWTEXTMETRIC lptm,
DWORD nFontType,
LPENUM_FONT_DATA lpData)
{
int height, pts;
TCHAR buf[10];
if (!(nFontType & RASTER_FONTTYPE))
{
//
// Vector or TT font.
//
if (lpData->bFillSize &&
(int)SendMessage(lpData->hwndSizes, CB_GETCOUNT, 0, 0L) == 0)
{
FillScalableSizes(lpData->hwndSizes, lpData->lpcf);
}
}
else
{
height = lptm->tmHeight - lptm->tmInternalLeading;
pts = GetPointString(buf, lpData->hDC, height);
//
// Filter devices same size of multiple styles.
//
if (CBFindString(lpData->hwndSizes, buf) < 0)
{
CBAddSize(lpData->hwndSizes, pts, lpData->lpcf);
}
}
//
// Keep the printer/screen bits from the family list here too.
//
nFontType |= (lpData->nFontType & (SCREEN_FONTTYPE | PRINTER_FONTTYPE));
#ifdef WINNT
if (lptm->ntmFlags & NTM_PS_OPENTYPE)
nFontType |= PS_OPENTYPE_FONTTYPE;
if (lptm->ntmFlags & NTM_TYPE1)
nFontType |= TYPE1_FONTTYPE;
if (lptm->ntmFlags & NTM_TT_OPENTYPE)
nFontType |= TT_OPENTYPE_FONTTYPE;
#endif // WINNT
if (nFontType & TRUETYPE_FONTTYPE)
{
//
// If (lptm->ntmFlags & NTM_REGULAR)
//
if (!(lptm->ntmFlags & (NTM_BOLD | NTM_ITALIC)))
{
nFontType |= REGULAR_FONTTYPE;
}
if (lptm->ntmFlags & NTM_ITALIC)
{
nFontType |= ITALIC_FONTTYPE;
}
if (lptm->ntmFlags & NTM_BOLD)
{
nFontType |= BOLD_FONTTYPE;
}
//
// After the LOGFONT.lfFaceName there are 2 more names
// lfFullName[LF_FACESIZE * 2]
// lfStyle[LF_FACESIZE]
//
// If the font has one of the standard style strings in English,
// use the localized string instead.
//
if (!lstrcmp(c_szBoldItalic, lplf->elfStyle) ||
((nFontType & BOLD_FONTTYPE) && (nFontType & ITALIC_FONTTYPE)))
{
CBAddStyle( lpData->hwndStyle,
szBoldItalic,
nFontType,
&lplf->elfLogFont);
}
else if (!lstrcmp(c_szRegular, lplf->elfStyle) ||
(nFontType & REGULAR_FONTTYPE))
{
CBAddStyle( lpData->hwndStyle,
szRegular,
nFontType,
&lplf->elfLogFont );
}
else if (!lstrcmp(c_szBold, lplf->elfStyle) ||
(nFontType & BOLD_FONTTYPE))
{
CBAddStyle( lpData->hwndStyle,
szBold,
nFontType,
&lplf->elfLogFont );
}
else if (!lstrcmp(c_szItalic, lplf->elfStyle) ||
(nFontType & ITALIC_FONTTYPE))
{
CBAddStyle( lpData->hwndStyle,
szItalic,
nFontType,
&lplf->elfLogFont);
}
}
else
{
if ((lplf->elfLogFont.lfWeight >= FW_BOLD) && lplf->elfLogFont.lfItalic)
{
CBAddStyle( lpData->hwndStyle,
szBoldItalic,
(nFontType | BOLD_FONTTYPE | ITALIC_FONTTYPE),
&lplf->elfLogFont );
}
else if (lplf->elfLogFont.lfWeight >= FW_BOLD)
{
CBAddStyle( lpData->hwndStyle,
szBold,
(nFontType | BOLD_FONTTYPE),
&lplf->elfLogFont );
}
else if (lplf->elfLogFont.lfItalic)
{
CBAddStyle( lpData->hwndStyle,
szItalic,
(nFontType | ITALIC_FONTTYPE),
&lplf->elfLogFont );
}
else
{
CBAddStyle( lpData->hwndStyle,
szRegular,
(nFontType | REGULAR_FONTTYPE),
&lplf->elfLogFont );
}
}
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// FreeFonts
//
////////////////////////////////////////////////////////////////////////////
VOID FreeFonts(
HWND hwnd)
{
int ctr, count;
LPITEMDATA lpItemData;
count = (int)SendMessage(hwnd, CB_GETCOUNT, 0, 0L);
for (ctr = 0; ctr < count; ctr++)
{
lpItemData = (LPITEMDATA)SendMessage(hwnd, CB_GETITEMDATA, ctr, 0L);
if (!IS_INTRESOURCE(lpItemData) && (lpItemData != (LPITEMDATA)CB_ERR))
{
if (!IS_INTRESOURCE(lpItemData->pLogFont))
{
LocalFree((HANDLE)lpItemData->pLogFont);
}
LocalFree((HANDLE)lpItemData);
}
SendMessage(hwnd, CB_SETITEMDATA, ctr, 0L);
}
SendMessage(hwnd, CB_RESETCONTENT, 0, 0L);
}
////////////////////////////////////////////////////////////////////////////
//
// FreeAllItemData
//
////////////////////////////////////////////////////////////////////////////
VOID FreeAllItemData(
HWND hDlg,
PFONTINFO pFI)
{
HWND hwndTemp;
if (hwndTemp = GetDlgItem(hDlg, cmb1))
{
FreeFonts(hwndTemp);
}
if (hwndTemp = GetDlgItem(hDlg, cmb2))
{
FreeFonts(hwndTemp);
}
if (hwndTemp = GetDlgItem(hDlg, cmb3))
{
FreeFonts(hwndTemp);
}
if (((pFI->ProcessVersion >= 0x40000) ||
(pFI->pCF->Flags & CF_NOSCRIPTSEL)) &&
(hwndTemp = GetDlgItem(hDlg, cmb5)))
{
FreeFonts(hwndTemp);
}
}
////////////////////////////////////////////////////////////////////////////
//
// InitLF
//
// Initalize a LOGFONT structure to some base generic regular type font.
//
////////////////////////////////////////////////////////////////////////////
VOID InitLF(
LPLOGFONT lplf)
{
HDC hdc;
hdc = GetDC(NULL);
lplf->lfEscapement = 0;
lplf->lfOrientation = 0;
lplf->lfCharSet = (BYTE) GetTextCharset(hdc);
lplf->lfOutPrecision = OUT_DEFAULT_PRECIS;
lplf->lfClipPrecision = CLIP_DEFAULT_PRECIS;
lplf->lfQuality = DEFAULT_QUALITY;
lplf->lfPitchAndFamily = DEFAULT_PITCH;
lplf->lfItalic = 0;
lplf->lfWeight = FW_NORMAL;
lplf->lfStrikeOut = 0;
lplf->lfUnderline = 0;
lplf->lfWidth = 0; // otherwise we get independant x-y scaling
lplf->lfFaceName[0] = 0;
lplf->lfHeight = -MulDiv( DEF_POINT_SIZE,
GetDeviceCaps(hdc, LOGPIXELSY),
POINTS_PER_INCH );
ReleaseDC(NULL, hdc);
}
#ifdef MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// FontMMAxesEnumProc
//
// Gets all of the lower and upper bounds and default values of MM axes
// for the face we are enumerating. Sets the scrollbar parameters as well as
// static controls and edit boxes accordingly.
//
////////////////////////////////////////////////////////////////////////////
int FontMMAxesEnumProc(
LPENUMLOGFONTEXDV lplf,
LPENUMTEXTMETRIC lpetm,
DWORD nFontType,
LPENUM_FONT_DATA lpData)
{
UINT i;
SCROLLINFO scri;
RECT rcCtl;
lpData->pDefaultDesignVector->dvNumAxes = (lpetm)->etmAxesList.axlNumAxes;
lpData->pDefaultDesignVector->dvReserved = STAMP_DESIGNVECTOR;
if (MAX_NUM_AXES < lpData->pDefaultDesignVector->dvNumAxes)
{
// MessageBox(lpData->hwndParent, TEXT("Cannot support so many axes"), TEXT("Error"), MB_OK | MB_ICONEXCLAMATION);
lpData->pDefaultDesignVector->dvNumAxes = 0; // this will get rid of all scroll bars
}
scri.cbSize = sizeof(SCROLLINFO);
scri.fMask = SIF_RANGE | SIF_POS | SIF_PAGE;
scri.nTrackPos = 0;
rcCtl.left = 0;
rcCtl.top = 0;
rcCtl.right = 287;
rcCtl.bottom = (lpData->pDefaultDesignVector->dvNumAxes == 0)? 216 : 225+20+20*lpData->pDefaultDesignVector->dvNumAxes;
MapDialogRect( lpData->hwndParent, &rcCtl);
SetWindowPos ( lpData->hwndParent, NULL,
0, 0,
rcCtl.right, rcCtl.bottom,
SWP_NOMOVE | SWP_NOZORDER );
rcCtl.left = 0;
rcCtl.top = 0;
rcCtl.right = 205;
rcCtl.bottom = 15+20*(lpetm)->etmAxesList.axlNumAxes;
MapDialogRect( lpData->hwndParent, &rcCtl);
SetWindowPos ( GetDlgItem(lpData->hwndParent, grp3), NULL,
0, 0,
rcCtl.right, rcCtl.bottom,
SWP_NOMOVE | SWP_NOZORDER );
for (i=0; i<lpData->pDefaultDesignVector->dvNumAxes; i++)
{
ShowWindow ( GetDlgItem(lpData->hwndParent, stc11 + i), SW_SHOW); // axName
ShowWindow ( GetDlgItem(lpData->hwndParent, stc18 + i), SW_SHOW); // axMin
ShowWindow ( GetDlgItem(lpData->hwndParent, stc25 + i), SW_SHOW); // axMax
ShowWindow ( GetDlgItem(lpData->hwndParent, edt1 + i), SW_SHOW); // dvVal
ShowWindow ( GetDlgItem(lpData->hwndParent, scr1 + i), SW_SHOW); // scrollbar
//EnableScrollBar ( GetDlgItem(lpData->hwndParent, scr1 + i), SB_CTL, ESB_ENABLE_BOTH);
lpData->pDefaultDesignVector->dvValues[i] = (lplf)->elfDesignVector.dvValues[i];
scri.nMin = (lpetm)->etmAxesList.axlAxisInfo[i].axMinValue;
scri.nPage = 10;
scri.nMax = (lpetm)->etmAxesList.axlAxisInfo[i].axMaxValue + scri.nPage - 1;
scri.nPos = (lplf)->elfDesignVector.dvValues[i];
SetScrollInfo(GetDlgItem(lpData->hwndParent, scr1 + i), SB_CTL, &scri, TRUE);
SetDlgItemText( lpData->hwndParent,
stc11 + i,
(lpetm)->etmAxesList.axlAxisInfo[i].axAxisName);
SetDlgItemInt ( lpData->hwndParent,
stc18 + i,
(lpetm)->etmAxesList.axlAxisInfo[i].axMinValue,
TRUE);
SetDlgItemInt ( lpData->hwndParent,
stc25 + i,
(lpetm)->etmAxesList.axlAxisInfo[i].axMaxValue,
TRUE);
SetDlgItemInt ( lpData->hwndParent,
edt1 + i,
(lplf)->elfDesignVector.dvValues[i],
TRUE);
}
for (i=lpData->pDefaultDesignVector->dvNumAxes; i<MAX_NUM_AXES; i++)
{
HideDlgItem(lpData->hwndParent, stc11 + i); // axName
HideDlgItem(lpData->hwndParent, stc18 + i); // axMin
HideDlgItem(lpData->hwndParent, stc25 + i); // axMax
HideDlgItem(lpData->hwndParent, edt1 + i); // dvVal
HideDlgItem(lpData->hwndParent, scr1 + i); // scrollbar
// EnableScrollBar ( GetDlgItem(lpData->hwndParent, scr1 + i), SB_CTL, ESB_DISABLE_BOTH);
}
return TRUE;
}
#endif // MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// FontScriptEnumProc
//
// Gets all of the charsets for the face we are enumerating.
//
// Fills in the script window if any, and sets the script property to
// the correct charset. If there is no window, then the first value
// enumerated is set into the script, and contol returned. If there is a
// window, then the scripts will all be filled in. If the correct value
// is found, then that will be filled in. If its not found, such as when
// the user changes from TimesNewRoman to WingDings, then the caller will
// fill in the property to be the first one.
//
////////////////////////////////////////////////////////////////////////////
int FontScriptEnumProc(
LPENUMLOGFONTEX lplf,
LPNEWTEXTMETRIC lptm,
DWORD nFontType,
LPENUM_FONT_DATA lpData)
{
int script = -1;
//
// Need to check the charsets again as we have a face and are checking
// the family.
//
// Bounce non WANSI fonts.
//
if ( (lpData->dwFlags & CF_SCRIPTSONLY) &&
((lplf->elfLogFont.lfCharSet == OEM_CHARSET) ||
(lplf->elfLogFont.lfCharSet == SYMBOL_CHARSET)) )
{
return (TRUE);
}
if (lpData->hwndScript)
{
script = CBAddScript( lpData->hwndScript,
lplf->elfScript,
lplf->elfLogFont.lfCharSet );
}
else if (lpData->iCharset == FONT_INVALID_CHARSET)
{
lpData->iCharset = lplf->elfLogFont.lfCharSet;
}
if (lplf->elfLogFont.lfCharSet == lpData->cfdCharset)
{
lpData->iCharset = lplf->elfLogFont.lfCharSet;
if (script >= 0)
{
SendMessage(lpData->hwndScript, CB_SETCURSEL, script, 0L);
}
else if (!(lpData->hwndScript))
{
return (FALSE);
}
}
if (lpData->lpcf->Flags & CF_SELECTSCRIPT)
{
//
// We just wanted the first one to fill in the script box, now stop.
//
return (FALSE);
}
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// GetFontStylesAndSizes
//
// Fills the point sizes combo box with the point sizes for the current
// selection in the facenames combobox.
//
// cmb1 is the ID for the font facename combobox.
//
// Returns: TRUE if successful
// FALSE otherwise.
//
////////////////////////////////////////////////////////////////////////////
BOOL GetFontStylesAndSizes(
HWND hDlg,
PFONTINFO pFI,
LPCHOOSEFONT lpcf,
BOOL bForceSizeFill)
{
ENUM_FONT_DATA data;
TCHAR szFace[LF_FACESIZE];
int iSel;
int iMapMode;
SIZE ViewportExt, WindowExt;
LOGFONT lf;
LPITEMDATA lpItemData;
FreeFonts(GetDlgItem(hDlg, cmb2));
data.hwndStyle = GetDlgItem(hDlg, cmb2);
data.hwndSizes = GetDlgItem(hDlg, cmb3);
data.hwndScript = (pFI->ProcessVersion >= 0x40000)
? GetDlgItem(hDlg, cmb5)
: NULL;
data.dwFlags = lpcf->Flags;
data.lpcf = lpcf;
if (!IsWindow(data.hwndScript) || !IsWindowEnabled(data.hwndScript))
{
data.hwndScript = NULL;
}
iSel = (int)SendDlgItemMessage(hDlg, cmb1, CB_GETCURSEL, 0, 0L);
if (iSel < 0)
{
//
// If we don't have a face name selected we will synthisize
// the standard font styles...
//
InitLF(&lf);
CBAddStyle(data.hwndStyle, szRegular, REGULAR_FONTTYPE, &lf);
lf.lfWeight = FW_BOLD;
CBAddStyle(data.hwndStyle, szBold, BOLD_FONTTYPE, &lf);
lf.lfWeight = FW_NORMAL;
lf.lfItalic = TRUE;
CBAddStyle(data.hwndStyle, szItalic, ITALIC_FONTTYPE, &lf);
lf.lfWeight = FW_BOLD;
CBAddStyle(data.hwndStyle, szBoldItalic, BOLD_FONTTYPE | ITALIC_FONTTYPE, &lf);
FillScalableSizes(data.hwndSizes, lpcf);
return (TRUE);
}
lpItemData = (LPITEMDATA)SendDlgItemMessage( hDlg,
cmb1,
CB_GETITEMDATA,
iSel,
0L );
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
data.nFontType = lpItemData->nFontType;
}
else
{
data.nFontType = 0;
}
data.bFillSize = TRUE;
//
// Free existing contents of font size combo box.
// Also sends CB_RESETCONTENT to control.
//
FreeFonts(data.hwndSizes);
SendMessage(data.hwndStyle, WM_SETREDRAW, FALSE, 0L);
GetDlgItemText(hDlg, cmb1, szFace, ARRAYSIZE(szFace));
lstrcpy(lf.lfFaceName, szFace);
//
// Fill in the script box FIRST. That way we have something to play with.
//
if (data.hwndScript)
{
SendMessage(data.hwndScript, CB_RESETCONTENT, 0, 0L);
}
data.iCharset = FONT_INVALID_CHARSET; // impossible charset value.
data.cfdCharset = pFI->iCharset; // pass into enum procs
//
// If no script box exists, then we must get the appropriate charset
// based on the default ansi code page.
//
if (!data.hwndScript)
{
CHARSETINFO csi;
DWORD dwCodePage = GetACP();
if (TranslateCharsetInfo(IntToPtr_(DWORD*, dwCodePage), &csi, TCI_SRCCODEPAGE))
{
data.cfdCharset = csi.ciCharset;
}
}
lf.lfCharSet = (lpcf->Flags & CF_SELECTSCRIPT)
? pFI->iCharset
: DEFAULT_CHARSET;
if (lpcf->Flags & CF_SCREENFONTS)
{
data.hDC = GetDC(NULL);
data.bPrinterFont = FALSE;
EnumFontFamiliesEx( data.hDC,
&lf,
(FONTENUMPROC)FontScriptEnumProc,
(LPARAM)&data,
0L );
ReleaseDC(NULL, data.hDC);
}
if (lpcf->Flags & CF_PRINTERFONTS)
{
data.hDC = lpcf->hDC;
data.bPrinterFont = TRUE;
EnumFontFamiliesEx( lpcf->hDC,
&lf,
(FONTENUMPROC)FontScriptEnumProc,
(LPARAM)&data,
0L );
}
//
// Put it back into the main structure.
//
if ((data.iCharset == FONT_INVALID_CHARSET) && (data.hwndScript))
{
//
// There MUST be a script window, and we didn't find the charset
// we were looking for.
//
SendMessage(data.hwndScript, CB_SETCURSEL, 0, 0L);
lpItemData = (LPITEMDATA)SendMessage( data.hwndScript,
CB_GETITEMDATA,
0,
0L );
if (lpItemData && (lpItemData != (LPITEMDATA)CB_ERR))
{
data.iCharset = lpItemData->nFontType;
}
else
{
data.iCharset = DEFAULT_CHARSET;
}
}
lf.lfCharSet = pFI->iCharset = data.iCharset;
if (lpcf->Flags & CF_SCREENFONTS)
{
data.hDC = GetDC(NULL);
data.bPrinterFont = FALSE;
EnumFontFamiliesEx( data.hDC,
&lf,
(FONTENUMPROC)FontStyleEnumProc,
(LPARAM)&data,
0L );
ReleaseDC(NULL, data.hDC);
}
if (lpcf->Flags & CF_PRINTERFONTS)
{
//
// Save and restore the DC's mapping mode (and extents if needed)
// if it's been set by the app to something other than MM_TEXT.
//
if ((iMapMode = GetMapMode(lpcf->hDC)) != MM_TEXT)
{
if ((iMapMode == MM_ISOTROPIC) || (iMapMode == MM_ANISOTROPIC))
{
GetViewportExtEx(lpcf->hDC, &ViewportExt);
GetWindowExtEx(lpcf->hDC, &WindowExt);
}
SetMapMode(lpcf->hDC, MM_TEXT);
}
data.hDC = lpcf->hDC;
data.bPrinterFont = TRUE;
EnumFontFamiliesEx( lpcf->hDC,
&lf,
(FONTENUMPROC)FontStyleEnumProc,
(LPARAM)&data,
0L );
if (iMapMode != MM_TEXT)
{
SetMapMode(lpcf->hDC, iMapMode);
if ((iMapMode == MM_ISOTROPIC) || (iMapMode == MM_ANISOTROPIC))
{
SetWindowExtEx( lpcf->hDC,
WindowExt.cx,
WindowExt.cy,
&WindowExt );
SetViewportExtEx( lpcf->hDC,
ViewportExt.cx,
ViewportExt.cy,
&ViewportExt );
}
}
}
if (!(lpcf->Flags & CF_NOSIMULATIONS))
{
FillInMissingStyles(data.hwndStyle);
}
SendMessage(data.hwndStyle, WM_SETREDRAW, TRUE, 0L);
if (wWinVer < 0x030A)
{
InvalidateRect(data.hwndStyle, NULL, TRUE);
}
if (data.bFillSize)
{
SendMessage(data.hwndSizes, WM_SETREDRAW, TRUE, 0L);
if (wWinVer < 0x030A)
{
InvalidateRect(data.hwndSizes, NULL, TRUE);
}
}
#ifdef MM_DESIGNVECTOR_DEFINED
if (pFI->pfnCreateFontIndirectEx !=NULL)
/* it's not safe to access the MM Axis information on a system where CreateFontIndirectEx is not defined */
{
if (lpcf->Flags & CF_SCREENFONTS)
{
data.hDC = GetDC(NULL);
data.bPrinterFont = FALSE;
data.hwndParent = hDlg;
data.pDefaultDesignVector = &pFI->DefaultDesignVector;
EnumFontFamiliesEx( data.hDC,
&lf,
(FONTENUMPROC)FontMMAxesEnumProc,
(LPARAM)&data,
0L );
ReleaseDC(NULL, data.hDC);
}
if (lpcf->Flags & CF_PRINTERFONTS)
{
data.hDC = lpcf->hDC;
data.bPrinterFont = TRUE;
EnumFontFamiliesEx( lpcf->hDC,
&lf,
(FONTENUMPROC)FontMMAxesEnumProc,
(LPARAM)&data,
0L );
}
}
#endif // MM_DESIGNVECTOR_DEFINED
ResetSampleFromScript(hDlg, data.hwndScript, pFI);
if (lpcf->Flags & CF_NOSCRIPTSEL)
{
pFI->iCharset = DEFAULT_CHARSET;
}
bForceSizeFill;
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// FillColorCombo
//
// Adds the color name strings to the colors combobox.
//
// cmb4 is the ID for the color combobox.
//
// The color rectangles are drawn later in response to a WM_DRAWITEM msg.
//
////////////////////////////////////////////////////////////////////////////
VOID FillColorCombo(
HWND hDlg)
{
int iT, item;
TCHAR szT[CCHCOLORNAMEMAX];
for (iT = 0; iT < CCHCOLORS; ++iT)
{
*szT = 0;
CDLoadString(g_hinst, iszBlack + iT, szT, ARRAYSIZE(szT));
item = (int) SendDlgItemMessage( hDlg,
cmb4,
CB_INSERTSTRING,
iT,
(LPARAM)szT );
if (item >= 0)
{
SendDlgItemMessage(hDlg, cmb4, CB_SETITEMDATA, item, rgbColors[iT]);
}
}
}
////////////////////////////////////////////////////////////////////////////
//
// DrawSizeComboItem
//
////////////////////////////////////////////////////////////////////////////
BOOL DrawSizeComboItem(
LPDRAWITEMSTRUCT lpdis)
{
HDC hDC;
DWORD rgbBack, rgbText;
TCHAR szFace[LF_FACESIZE + 10];
HFONT hFont;
hDC = lpdis->hDC;
//
// We must first select the dialog control font.
//
if (hDlgFont)
{
hFont = SelectObject(hDC, hDlgFont);
}
if (lpdis->itemState & ODS_SELECTED)
{
rgbBack = SetBkColor(hDC, GetSysColor(COLOR_HIGHLIGHT));
rgbText = SetTextColor(hDC, GetSysColor(COLOR_HIGHLIGHTTEXT));
}
else
{
rgbBack = SetBkColor(hDC, GetSysColor(COLOR_WINDOW));
rgbText = SetTextColor(hDC, GetSysColor(COLOR_WINDOWTEXT));
}
SendMessage( lpdis->hwndItem,
CB_GETLBTEXT,
lpdis->itemID,
(LONG_PTR)(LPTSTR)szFace );
ExtTextOut( hDC,
lpdis->rcItem.left + GetSystemMetrics(SM_CXBORDER),
lpdis->rcItem.top,
ETO_OPAQUE,
&lpdis->rcItem,
szFace,
lstrlen(szFace),
NULL );
//
// Reset font.
//
if (hFont)
{
SelectObject(hDC, hFont);
}
SetTextColor(hDC, rgbText);
SetBkColor(hDC, rgbBack);
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// DrawFamilyComboItem
//
////////////////////////////////////////////////////////////////////////////
BOOL DrawFamilyComboItem(
LPDRAWITEMSTRUCT lpdis)
{
HDC hDC, hdcMem;
DWORD rgbBack, rgbText;
TCHAR szFace[LF_FACESIZE + 10];
HBITMAP hOld;
int dy, x;
HFONT hFont;
hDC = lpdis->hDC;
//
// We must first select the dialog control font.
//
if (hDlgFont)
{
hFont = SelectObject(hDC, hDlgFont);
}
if (lpdis->itemState & ODS_SELECTED)
{
rgbBack = SetBkColor(hDC, GetSysColor(COLOR_HIGHLIGHT));
rgbText = SetTextColor(hDC, GetSysColor(COLOR_HIGHLIGHTTEXT));
}
else
{
rgbBack = SetBkColor(hDC, GetSysColor(COLOR_WINDOW));
rgbText = SetTextColor(hDC, GetSysColor(COLOR_WINDOWTEXT));
}
// wsprintf(szFace, "%4.4X", LOWORD(lpdis->itemData));
SendMessage( lpdis->hwndItem,
CB_GETLBTEXT,
lpdis->itemID,
(LONG_PTR)(LPTSTR)szFace );
ExtTextOut( hDC,
lpdis->rcItem.left + DX_BITMAP,
lpdis->rcItem.top,
ETO_OPAQUE,
&lpdis->rcItem,
szFace,
lstrlen(szFace),
NULL );
//
// Reset font.
//
if (hFont)
{
SelectObject(hDC, hFont);
}
hdcMem = CreateCompatibleDC(hDC);
if (hdcMem)
{
if (hbmFont)
{
LPITEMDATA lpItemData = (LPITEMDATA)lpdis->itemData;
hOld = SelectObject(hdcMem, hbmFont);
if (!lpItemData)
{
goto SkipBlt;
}
if (lpItemData->nFontType & TRUETYPE_FONTTYPE)
{
#ifdef WINNT
if (lpItemData->nFontType & TT_OPENTYPE_FONTTYPE)
x = 2 * DX_BITMAP;
else
#endif
x = 0;
}
#ifdef WINNT
else if (lpItemData->nFontType & PS_OPENTYPE_FONTTYPE)
{
x = 3 * DX_BITMAP;
}
else if (lpItemData->nFontType & TYPE1_FONTTYPE)
{
x = 4 * DX_BITMAP;
}
#endif
else
{
if ((lpItemData->nFontType & (PRINTER_FONTTYPE |
DEVICE_FONTTYPE))
== (PRINTER_FONTTYPE | DEVICE_FONTTYPE))
{
//
// This may be a screen and printer font but
// we will call it a printer font here.
//
x = DX_BITMAP;
}
else
{
goto SkipBlt;
}
}
//If it a mirrored DC then the bitmaps are order from right to left.
if (IS_DC_RTL_MIRRORED(hdcMem)) {
x = ((NUM_OF_BITMAP - 1) - (x / DX_BITMAP)) * DX_BITMAP;
}
dy = ((lpdis->rcItem.bottom - lpdis->rcItem.top) - DY_BITMAP) / 2;
BitBlt( hDC,
lpdis->rcItem.left,
lpdis->rcItem.top + dy,
DX_BITMAP,
DY_BITMAP,
hdcMem,
x,
lpdis->itemState & ODS_SELECTED ? DY_BITMAP : 0,
SRCCOPY );
SkipBlt:
SelectObject(hdcMem, hOld);
}
DeleteDC(hdcMem);
}
SetTextColor(hDC, rgbText);
SetBkColor(hDC, rgbBack);
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// DrawColorComboItem
//
// Computes and draws the color combo items.
// Called by main dialog function in response to a WM_DRAWITEM msg.
//
// All color name strings have already been loaded and filled into
// the combobox.
//
// Returns: TRUE if succesful
// FALSE otherwise.
//
////////////////////////////////////////////////////////////////////////////
BOOL DrawColorComboItem(
LPDRAWITEMSTRUCT lpdis)
{
HDC hDC;
HBRUSH hbr;
int dx, dy;
RECT rc;
TCHAR szColor[CCHCOLORNAMEMAX];
DWORD rgbBack, rgbText, dw;
HFONT hFont;
hDC = lpdis->hDC;
if (lpdis->itemState & ODS_SELECTED)
{
rgbBack = SetBkColor(hDC, GetSysColor(COLOR_HIGHLIGHT));
rgbText = SetTextColor(hDC, GetSysColor(COLOR_HIGHLIGHTTEXT));
}
else
{
rgbBack = SetBkColor(hDC, GetSysColor(COLOR_WINDOW));
rgbText = SetTextColor(hDC, GetSysColor(COLOR_WINDOWTEXT));
}
ExtTextOut( hDC,
lpdis->rcItem.left,
lpdis->rcItem.top,
ETO_OPAQUE,
&lpdis->rcItem,
NULL,
0,
NULL );
//
// Compute coordinates of color rectangle and draw it.
//
dx = GetSystemMetrics(SM_CXBORDER);
dy = GetSystemMetrics(SM_CYBORDER);
rc.top = lpdis->rcItem.top + dy;
rc.bottom = lpdis->rcItem.bottom - dy;
rc.left = lpdis->rcItem.left + dx;
rc.right = rc.left + 2 * (rc.bottom - rc.top);
dw = (DWORD) SendMessage(lpdis->hwndItem, CB_GETITEMDATA, lpdis->itemID, 0L);
hbr = CreateSolidBrush(dw);
if (!hbr)
{
return (FALSE);
}
hbr = SelectObject(hDC, hbr);
Rectangle(hDC, rc.left, rc.top, rc.right, rc.bottom);
DeleteObject(SelectObject(hDC, hbr));
//
// Shift the color text right by the width of the color rectangle.
//
*szColor = 0;
SendMessage( lpdis->hwndItem,
CB_GETLBTEXT,
lpdis->itemID,
(LONG_PTR)(LPTSTR)szColor );
//
// We must first select the dialog control font.
//
if (hDlgFont)
{
hFont = SelectObject(hDC, hDlgFont);
}
TextOut( hDC,
2 * dx + rc.right,
lpdis->rcItem.top,
szColor,
lstrlen(szColor) );
//
// Reset font.
//
if (hFont)
{
SelectObject(hDC, hFont);
}
SetTextColor(hDC, rgbText);
SetBkColor(hDC, rgbBack);
return (TRUE);
}
////////////////////////////////////////////////////////////////////////////
//
// DrawSampleText
//
// Displays sample text with given attributes. Assumes rcText holds the
// coordinates of the area within the frame (relative to dialog client)
// which text should be drawn in.
//
////////////////////////////////////////////////////////////////////////////
VOID DrawSampleText(
HWND hDlg,
PFONTINFO pFI,
LPCHOOSEFONT lpcf,
HDC hDC)
{
DWORD rgbText;
DWORD rgbBack;
int iItem;
HFONT hFont, hTemp;
TCHAR szSample[50];
#ifdef MM_DESIGNVECTOR_DEFINED
ENUMLOGFONTEXDV elfdv;
#else
LOGFONT lf;
#endif // MM_DESIGNVECTOR_DEFINED
SIZE TextExtent;
int len, x, y;
TEXTMETRIC tm;
BOOL bCompleteFont;
RECT rcText;
#ifdef MM_DESIGNVECTOR_DEFINED
bCompleteFont = FillInFontEx(hDlg, pFI, lpcf, &elfdv, FALSE);
elfdv.elfEnumLogfontEx.elfLogFont.lfEscapement = 0;
elfdv.elfEnumLogfontEx.elfLogFont.lfOrientation = 0;
if (pFI->pfnCreateFontIndirectEx != NULL)
{
hFont = pFI->pfnCreateFontIndirectEx(&elfdv);
}
else
{
hFont = CreateFontIndirect((LPLOGFONT)&elfdv);
}
#else
bCompleteFont = FillInFont(hDlg, pFI, lpcf, &lf, FALSE);
lf.lfEscapement = 0;
lf.lfOrientation = 0;
hFont = CreateFontIndirect(&lf);
#endif // MM_DESIGNVECTOR_DEFINED
if (!hFont)
{
return;
}
hTemp = SelectObject(hDC, hFont);
rgbBack = SetBkColor(hDC, GetSysColor((pFI->ProcessVersion < 0x40000)
? COLOR_WINDOW
: COLOR_3DFACE));
if (lpcf->Flags & CF_EFFECTS)
{
iItem = (int)SendDlgItemMessage(hDlg, cmb4, CB_GETCURSEL, 0, 0L);
if (iItem != CB_ERR)
{
rgbText = (DWORD) SendDlgItemMessage(hDlg, cmb4, CB_GETITEMDATA, iItem, 0L);
}
else
{
goto GetWindowTextColor;
}
}
else
{
GetWindowTextColor:
rgbText = GetSysColor(COLOR_WINDOWTEXT);
}
rgbText = SetTextColor(hDC, rgbText);
if (bCompleteFont)
{
if (GetUnicodeSampleText(hDC, szSample, ARRAYSIZE(szSample)))
{
//Empty Body
}
else
{
GetDlgItemText(hDlg, stc5, szSample, ARRAYSIZE(szSample));
}
}
else
{
szSample[0] = 0;
}
GetTextMetrics(hDC, &tm);
len = lstrlen(szSample);
GetTextExtentPoint(hDC, szSample, len, &TextExtent);
TextExtent.cy = tm.tmAscent - tm.tmInternalLeading;
rcText = pFI->rcText;
if (pFI->ProcessVersion >= 0x40000)
{
#ifdef UNICODE
if (!IS16BITWOWAPP(lpcf) || !(lpcf->Flags & CF_ENABLEHOOK))
#endif
{
DrawEdge(hDC, &rcText, EDGE_SUNKEN, BF_RECT | BF_ADJUST);
}
}
#ifndef WINNT
else
{
//
// We only care about conforming if we have no border.
//
FORWARD_WM_CTLCOLORSTATIC(hDlg, hDC, NULL, SendMessage);
}
#endif
if ((TextExtent.cx >= (rcText.right - rcText.left)) ||
(TextExtent.cx <= 0))
{
x = rcText.left;
}
else
{
x = rcText.left + ((rcText.right - rcText.left) - TextExtent.cx) / 2;
}
y = min( rcText.bottom,
rcText.bottom - ((rcText.bottom - rcText.top) - TextExtent.cy) / 2);
ExtTextOut( hDC,
x,
y - (tm.tmAscent),
ETO_OPAQUE | ETO_CLIPPED,
&rcText,
szSample,
len,
NULL );
SetBkColor(hDC, rgbBack);
SetTextColor(hDC, rgbText);
if (hTemp)
{
DeleteObject(SelectObject(hDC, hTemp));
}
}
#ifdef MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// FillInFontEx
//
// Fills in the ENUMLOGFONTEXDV structure based on the current selection.
//
// bSetBits - if TRUE the Flags fields in the lpcf are set to indicate
// what parts (face, style, size) are not selected
//
// lpelfdv - ENUMLOGFONTEXDV filled in upon return
//
// Returns: TRUE if there was an unambiguous selection
// (the ENUMLOGFONTEXDV is filled in as per the enumeration)
// FALSE there was not a complete selection
// (fields set in the ENUMLOGFONTEXDV with default values)
//
////////////////////////////////////////////////////////////////////////////
BOOL FillInFontEx(
HWND hDlg,
PFONTINFO pFI,
LPCHOOSEFONT lpcf,
LPENUMLOGFONTEXDV lpelfdv,
BOOL bSetBits)
{
UINT i;
BOOL bTranslated;
ZeroMemory(lpelfdv, sizeof(ENUMLOGFONTEXDV));
lpelfdv->elfDesignVector.dvNumAxes = pFI->DefaultDesignVector.dvNumAxes;
lpelfdv->elfDesignVector.dvReserved = STAMP_DESIGNVECTOR;
for (i=0; i<lpelfdv->elfDesignVector.dvNumAxes; i++)
lpelfdv->elfDesignVector.dvValues[i] = GetDlgItemInt(hDlg, edt1 + i, &bTranslated, TRUE);
return FillInFont(hDlg, pFI, lpcf, &lpelfdv->elfEnumLogfontEx.elfLogFont, bSetBits);
// memcpy (&lpelfdv->elfEnumLogfontEx.elfLogFont, &lf, sizeof(LOGFONT));
}
#endif // MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// FillInFont
//
// Fills in the LOGFONT structure based on the current selection.
//
// bSetBits - if TRUE the Flags fields in the lpcf are set to indicate
// what parts (face, style, size) are not selected
//
// lplf - LOGFONT filled in upon return
//
// Returns: TRUE if there was an unambiguous selection
// (the LOGFONT is filled in as per the enumeration)
// FALSE there was not a complete selection
// (fields set in the LOGFONT with default values)
//
////////////////////////////////////////////////////////////////////////////
BOOL FillInFont(
HWND hDlg,
PFONTINFO pFI,
LPCHOOSEFONT lpcf,
LPLOGFONT lplf,
BOOL bSetBits)
{
HDC hdc;
int iSel, id, pts;
LPITEMDATA lpItemData;
DWORD nFontType;
PLOGFONT plf;
TCHAR szStyle[LF_FACESIZE];
TCHAR szMessage[128];
BOOL bFontComplete = TRUE;
CHARSETINFO csi;
DWORD dwCodePage = GetACP();
if (!TranslateCharsetInfo(IntToPtr_(DWORD*, dwCodePage), &csi, TCI_SRCCODEPAGE))
{
csi.ciCharset = ANSI_CHARSET;
}
InitLF(lplf);
GetDlgItemText( hDlg,
cmb1,
lplf->lfFaceName,
sizeof(lplf->lfFaceName) / sizeof(TCHAR) );
if (CBFindString(GetDlgItem(hDlg, cmb1), lplf->lfFaceName) >= 0)
{
if (bSetBits)
{
lpcf->Flags &= ~CF_NOFACESEL;
}
}
else
{
bFontComplete = FALSE;
if (bSetBits)
{
lpcf->Flags |= CF_NOFACESEL;
}
}
iSel = CBGetTextAndData( GetDlgItem(hDlg, cmb2),
szStyle,
sizeof(szStyle) / sizeof(TCHAR),
(PULONG_PTR)&lpItemData );
if ((iSel >= 0) && lpItemData)
{
nFontType = lpItemData->nFontType;
plf = lpItemData->pLogFont;
*lplf = *plf; // copy the LOGFONT
lplf->lfWidth = 0; // 1:1 x-y scaling
if (!lstrcmp(lplf->lfFaceName, TEXT("Small Fonts")))
{
lplf->lfCharSet = (BYTE) csi.ciCharset;
}
if (bSetBits)
{
lpcf->Flags &= ~CF_NOSTYLESEL;
}
}
else
{
//
// Even if the style is invalid, we still need the charset.
//
iSel = CBGetTextAndData( GetDlgItem(hDlg, cmb2),
(LPTSTR)NULL,
0,
(PULONG_PTR)&lpItemData );
if ((iSel >= 0) && lpItemData)
{
nFontType = lpItemData->nFontType;
plf = lpItemData->pLogFont;
*lplf = *plf; // copy the LOGFONT
lplf->lfWidth = 0; // 1:1 x-y scaling
if (!lstrcmp(lplf->lfFaceName, TEXT("Small Fonts")) ||
!lstrcmp(lplf->lfFaceName, TEXT("Lucida Sans Unicode")))
{
lplf->lfCharSet = (BYTE) csi.ciCharset;
}
}
bFontComplete = FALSE;
if (bSetBits)
{
lpcf->Flags |= CF_NOSTYLESEL;
}
nFontType = 0;
}
//
// Now make sure the size is in range; pts will be 0 if not.
//
GetPointSizeInRange(hDlg, lpcf, &pts, 0);
hdc = GetDC(NULL);
if (pts)
{
if (g_bIsSimplifiedChineseUI)
{
UINT iHeight;
int iLogPixY = GetDeviceCaps(hdc, LOGPIXELSY);
int ptsfr = pts % 10; // fractional point size
pts /= 10; // real point size
iHeight = pts * iLogPixY;
if (ptsfr)
{
iHeight += MulDiv(ptsfr, iLogPixY, 10);
}
lplf->lfHeight = -((int)((iHeight + POINTS_PER_INCH / 2) /
POINTS_PER_INCH));
}
else
{
pts /= 10;
lplf->lfHeight = -MulDiv( pts,
GetDeviceCaps(hdc, LOGPIXELSY),
POINTS_PER_INCH );
}
if (bSetBits)
{
lpcf->Flags &= ~CF_NOSIZESEL;
}
}
else
{
lplf->lfHeight = -MulDiv( DEF_POINT_SIZE,
GetDeviceCaps(hdc, LOGPIXELSY),
POINTS_PER_INCH );
bFontComplete = FALSE;
if (bSetBits)
{
lpcf->Flags |= CF_NOSIZESEL;
}
}
ReleaseDC(NULL, hdc);
//
// And the attributes we control.
//
lplf->lfStrikeOut = (BYTE)IsDlgButtonChecked(hDlg, chx1);
lplf->lfUnderline = (BYTE)IsDlgButtonChecked(hDlg, chx2);
lplf->lfCharSet = (BYTE) pFI->iCharset;
if (nFontType != pFI->nLastFontType)
{
if (lpcf->Flags & CF_PRINTERFONTS)
{
if (nFontType & SIMULATED_FONTTYPE)
{
id = iszSynth;
}
#ifdef WINNT
else if (nFontType & TT_OPENTYPE_FONTTYPE)
{
id = iszTTOpenType;
}
else if (nFontType & PS_OPENTYPE_FONTTYPE)
{
id = iszPSOpenType;
}
else if (nFontType & TYPE1_FONTTYPE)
{
id = iszType1;
}
#endif
else if (nFontType & TRUETYPE_FONTTYPE)
{
id = iszTrueType;
}
else if ((nFontType & (PRINTER_FONTTYPE | DEVICE_FONTTYPE)) ==
(PRINTER_FONTTYPE | DEVICE_FONTTYPE))
{
//
// May be both screen and printer (ATM) but we'll just
// call this a printer font.
//
id = iszPrinterFont;
}
else if ((nFontType & (PRINTER_FONTTYPE | SCREEN_FONTTYPE)) ==
SCREEN_FONTTYPE)
{
id = iszGDIFont;
}
else
{
szMessage[0] = 0;
goto SetText;
}
CDLoadString( g_hinst,
id,
szMessage,
sizeof(szMessage) / sizeof(TCHAR) );
SetText:
SetDlgItemText(hDlg, stc6, szMessage);
}
}
pFI->nLastFontType = nFontType;
return (bFontComplete);
}
////////////////////////////////////////////////////////////////////////////
//
// SetLogFont
//
// Sets the current selection based on the LOGFONT structure passed in.
//
// lpcf - CHOOSEFONT structure for the current dialog
// lplf - LOGFONT filled in upon return
//
// Returns: TRUE if there was an unambiguous selection
// (the LOGFONT is filled in as per the enumeration)
// FALSE there was not a complete selection
// (fields set in the LOGFONT with default values)
//
////////////////////////////////////////////////////////////////////////////
BOOL SetLogFont(
HWND hDlg,
LPCHOOSEFONT lpcf,
LPLOGFONT lplf)
{
*(lpcf->lpLogFont) = *lplf; // Copies data & FaceName
FORWARD_WM_COMMAND( hDlg,
cmb1,
GetDlgItem(hDlg, cmb1),
CBN_SELCHANGE,
SendMessage );
return (TRUE);
}
#ifdef MM_DESIGNVECTOR_DEFINED
BOOL SetLogFontEx(
HWND hDlg,
LPCHOOSEFONT lpcf,
LPENUMLOGFONTEXDV lplf)
{
memcpy(lpcf->lpLogFont, lplf, sizeof(ENUMLOGFONTEXDV));
FORWARD_WM_COMMAND( hDlg,
cmb1,
GetDlgItem(hDlg, cmb1),
CBN_SELCHANGE,
SendMessage );
return (TRUE);
}
#endif // MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// TermFont
//
// Release any data required by functions in this module.
//
////////////////////////////////////////////////////////////////////////////
VOID TermFont()
{
if (hbmFont)
{
DeleteObject(hbmFont);
}
}
////////////////////////////////////////////////////////////////////////////
//
// GetPointString
//
// Converts font height into a string of digits representing point size.
//
// Returns: Size in points and fills in buffer with string
//
////////////////////////////////////////////////////////////////////////////
int GetPointString(
LPTSTR buf,
HDC hDC,
int height)
{
int pts;
if (g_bIsSimplifiedChineseUI)
{
int ptsfr, iLogPixY, ctr;
long lpts;
BOOL IsZihao = FALSE;
lpts = ((height < 0) ? -height : height) * 72;
//
// Get real point size.
//
pts = (int)(lpts / (iLogPixY = GetDeviceCaps(hDC, LOGPIXELSY)));
//
// Get fractional point size.
//
ptsfr = MulDiv((int)(lpts % iLogPixY), 10, iLogPixY);
//
// See if it's Zihao.
//
for (ctr = 0; ctr < NUM_ZIHAO; ctr++)
{
if ((pts == stZihao[ctr].size) &&
(abs(ptsfr - stZihao[ctr].sizeFr) <= 3))
{
IsZihao = TRUE;
wsprintf(buf, TEXT("%s"), stZihao[ctr].name);
break;
}
}
if (!IsZihao)
{
pts = MulDiv((height < 0) ? -height : height, 72, iLogPixY);
for (ctr = 0; ctr < NUM_ZIHAO; ctr++)
{
if ((pts == stZihao[ctr].size) && (!stZihao[ctr].sizeFr))
{
IsZihao = TRUE;
wsprintf(buf, TEXT("%s"), stZihao[ctr].name);
break;
}
}
}
if (!IsZihao)
{
wsprintf(buf, szPtFormat, pts);
}
}
else
{
pts = MulDiv( (height < 0) ? -height : height,
72,
GetDeviceCaps(hDC, LOGPIXELSY) );
wsprintf(buf, szPtFormat, pts);
}
return (pts);
}
////////////////////////////////////////////////////////////////////////////
//
// FlipColor
//
////////////////////////////////////////////////////////////////////////////
DWORD FlipColor(
DWORD rgb)
{
return ( RGB(GetBValue(rgb), GetGValue(rgb), GetRValue(rgb)) );
}
////////////////////////////////////////////////////////////////////////////
//
// LoadBitmaps
//
// This routine loads DIB bitmaps, and "fixes up" their color tables
// so that we get the desired result for the device we are on.
//
// This routine requires:
// the DIB is a 16 color DIB authored with the standard windows colors
// bright blue (00 00 FF) is converted to the background color
// light grey (C0 C0 C0) is replaced with the button face color
// dark grey (80 80 80) is replaced with the button shadow color
//
// This means you can't have any of these colors in your bitmap.
//
////////////////////////////////////////////////////////////////////////////
#define BACKGROUND 0x000000FF // bright blue
#define BACKGROUNDSEL 0x00FF00FF // bright blue
#define BUTTONFACE 0x00C0C0C0 // bright grey
#define BUTTONSHADOW 0x00808080 // dark grey
HBITMAP LoadBitmaps(
int id)
{
HDC hdc;
HANDLE h;
DWORD *p;
BYTE *lpBits;
HANDLE hRes;
LPBITMAPINFOHEADER lpBitmapInfo;
int numcolors;
DWORD rgbSelected;
DWORD rgbUnselected;
HBITMAP hbm;
UINT cbBitmapSize;
LPBITMAPINFOHEADER lpBitmapData;
rgbSelected = FlipColor(GetSysColor(COLOR_HIGHLIGHT));
rgbUnselected = FlipColor(GetSysColor(COLOR_WINDOW));
h = FindResource(g_hinst, MAKEINTRESOURCE(id), RT_BITMAP);
hRes = LoadResource(g_hinst, h);
//
// Lock the bitmap and get a pointer to the color table.
//
lpBitmapInfo = (LPBITMAPINFOHEADER)LockResource(hRes);
if (!lpBitmapInfo)
{
return (FALSE);
}
//
// Lock the bitmap data and make a copy of it for the mask and the
// bitmap.
//
cbBitmapSize = SizeofResource(g_hinst, h);
lpBitmapData = (LPBITMAPINFOHEADER)LocalAlloc(LPTR, cbBitmapSize);
if (!lpBitmapData)
{
return (NULL);
}
memcpy((TCHAR *)lpBitmapData, (TCHAR *)lpBitmapInfo, cbBitmapSize);
p = (DWORD *)((LPTSTR)(lpBitmapData) + lpBitmapData->biSize);
//
// Search for the Solid Blue entry and replace it with the current
// background RGB.
//
numcolors = 16;
while (numcolors-- > 0)
{
if (*p == BACKGROUND)
{
*p = rgbUnselected;
}
else if (*p == BACKGROUNDSEL)
{
*p = rgbSelected;
}
#if 0
else if (*p == BUTTONFACE)
{
*p = FlipColor(GetSysColor(COLOR_BTNFACE));
}
else if (*p == BUTTONSHADOW)
{
*p = FlipColor(GetSysColor(COLOR_BTNSHADOW));
}
#endif
p++;
}
//
// First skip over the header structure.
//
lpBits = (BYTE *)(lpBitmapData + 1);
//
// Skip the color table entries, if any.
//
lpBits += (1 << (lpBitmapData->biBitCount)) * sizeof(RGBQUAD);
//
// Create a color bitmap compatible with the display device.
//
hdc = GetDC(NULL);
hbm = CreateDIBitmap( hdc,
lpBitmapData,
(DWORD)CBM_INIT,
lpBits,
(LPBITMAPINFO)lpBitmapData,
DIB_RGB_COLORS );
ReleaseDC(NULL, hdc);
LocalFree(lpBitmapData);
return (hbm);
}
////////////////////////////////////////////////////////////////////////////
//
// LookUpFontSubs
//
// Looks in the font substitute list for a real font name.
//
// lpSubFontName - substitute font name
// lpRealFontName - real font name buffer
//
// Returns: TRUE if lpRealFontName is filled in
// FALSE if not
//
////////////////////////////////////////////////////////////////////////////
BOOL LookUpFontSubs(LPCTSTR lpSubFontName, LPTSTR lpRealFontName)
{
LONG lResult;
HKEY hKey;
TCHAR szValueName[MAX_PATH];
TCHAR szValueData[MAX_PATH];
DWORD dwValueSize;
DWORD dwIndex = 0;
DWORD dwType, dwSize;
//
// Open the font substitution's key.
//
lResult = RegOpenKeyEx( HKEY_LOCAL_MACHINE,
KEY_FONT_SUBS,
0,
KEY_READ,
&hKey );
if (lResult != ERROR_SUCCESS)
{
return (FALSE);
}
//
// Loop through the values in the key
//
dwValueSize = MAX_PATH;
dwSize = MAX_PATH;
while (RegEnumValue( hKey,
dwIndex,
szValueName,
&dwValueSize,
NULL,
&dwType,
(LPBYTE)szValueData,
&dwSize ) == ERROR_SUCCESS)
{
//
// If the value name matches the requested font name, then
// copy the real font name to the output buffer.
//
if (!lstrcmpi(szValueName, lpSubFontName))
{
lstrcpy(lpRealFontName, szValueData);
RegCloseKey(hKey);
return (TRUE);
}
//
// Re-initialize for the next time through the loop.
//
dwValueSize = MAX_PATH;
dwSize = MAX_PATH;
dwIndex++;
}
//
// Clean up.
//
*lpRealFontName = CHAR_NULL;
RegCloseKey(hKey);
return (FALSE);
}
////////////////////////////////////////////////////////////////////////////
//
// GetUnicodeSampleText
//
// Gets the sample text for the font selected in the HDC
//
////////////////////////////////////////////////////////////////////////////
BOOL GetUnicodeSampleText(HDC hdc, LPTSTR lpString, int nMaxCount)
{
FONTSIGNATURE sig;
int i, j;
int iLang = 0;
int base = 0;
int mask;
if (!lpString || !nMaxCount)
{
return FALSE;
}
//Make sure return value is nulled
lpString[0] = 0;
//First Get the Font Signature
GetTextCharsetInfo(hdc, &sig, 0);
//Select the first unicode range supported by this font
//For each of Unicode dwords
for (i=0; i < 4; i++)
{
// See if a particular bit is set
for (j=0; j < sizeof(DWORD) * 8 ; j++)
{
mask = 1 << j;
if (sig.fsUsb[i] & mask)
{
//if set the get the language id for that bit
iLang = base + j;
goto LoadString;
}
}
base +=32;
}
LoadString:
//Do we have lang id and string for that language ?
if (iLang && LoadString(g_hinst, iszUnicode + iLang, lpString, nMaxCount))
{
return TRUE;
}
return FALSE;
}
/*========================================================================*/
/* Ansi->Unicode Thunk routines */
/*========================================================================*/
#ifdef UNICODE
////////////////////////////////////////////////////////////////////////////
//
// ThunkChooseFontA2W
//
////////////////////////////////////////////////////////////////////////////
void ThunkChooseFontA2W(
PFONTINFO pFI)
{
LPCHOOSEFONTW pCFW = pFI->pCF;
LPCHOOSEFONTA pCFA = pFI->pCFA;
pCFW->hwndOwner = pCFA->hwndOwner;
pCFW->lCustData = pCFA->lCustData;
pCFW->Flags = pCFA->Flags;
//
// !!! hack, should not be based on flag value, since this could happen
// at any time.
//
if (pCFA->Flags & CF_INITTOLOGFONTSTRUCT)
{
#ifdef MM_DESIGNVECTOR_DEFINED
if (pFI->pfnCreateFontIndirectEx !=NULL)
{
ThunkEnumLogFontExDvA2W( (LPENUMLOGFONTEXDVA)pCFA->lpLogFont,
(LPENUMLOGFONTEXDVW)pCFW->lpLogFont);
}
else
{
ThunkLogFontA2W( pCFA->lpLogFont, pCFW->lpLogFont);
}
#else
ThunkLogFontA2W( pCFA->lpLogFont, pCFW->lpLogFont);
#endif // MM_DESIGNVECTOR_DEFINED
}
pCFW->hInstance = pCFA->hInstance;
pCFW->lpfnHook = pCFA->lpfnHook;
if (pCFW->Flags & CF_PRINTERFONTS)
{
pCFW->hDC = pCFA->hDC;
}
if (pCFW->Flags & CF_USESTYLE)
{
RtlAnsiStringToUnicodeString(pFI->pusStyle, pFI->pasStyle, FALSE);
}
pCFW->nSizeMin = pCFA->nSizeMin;
pCFW->nSizeMax = pCFA->nSizeMax;
pCFW->rgbColors = pCFA->rgbColors;
pCFW->iPointSize = pCFA->iPointSize;
pCFW->nFontType = pCFA->nFontType;
}
////////////////////////////////////////////////////////////////////////////
//
// ThunkChooseFontW2A
//
////////////////////////////////////////////////////////////////////////////
void ThunkChooseFontW2A(
PFONTINFO pFI)
{
LPCHOOSEFONTA pCFA = pFI->pCFA;
LPCHOOSEFONTW pCFW = pFI->pCF;
#ifdef MM_DESIGNVECTOR_DEFINED
if (pFI->pfnCreateFontIndirectEx !=NULL)
{
ThunkEnumLogFontExDvW2A( (LPENUMLOGFONTEXDVW)pCFW->lpLogFont,
(LPENUMLOGFONTEXDVA)pCFA->lpLogFont);
}
else
{
ThunkLogFontW2A( pCFW->lpLogFont, pCFA->lpLogFont);
}
#else
ThunkLogFontW2A( pCFW->lpLogFont, pCFA->lpLogFont);
#endif // MM_DESIGNVECTOR_DEFINED
pCFA->hInstance = pCFW->hInstance;
pCFA->lpfnHook = pCFW->lpfnHook;
if (pCFA->Flags & CF_USESTYLE)
{
pFI->pusStyle->Length = (USHORT)((lstrlen(pFI->pusStyle->Buffer) + 1) * sizeof(WCHAR));
RtlUnicodeStringToAnsiString(pFI->pasStyle, pFI->pusStyle, FALSE);
}
pCFA->Flags = pCFW->Flags;
pCFA->nSizeMin = pCFW->nSizeMin;
pCFA->nSizeMax = pCFW->nSizeMax;
pCFA->rgbColors = pCFW->rgbColors;
pCFA->iPointSize = pCFW->iPointSize;
pCFA->nFontType = pCFW->nFontType;
pCFA->lCustData = pCFW->lCustData;
}
#ifdef MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// ThunkEnumLogFontExDvA2W
//
////////////////////////////////////////////////////////////////////////////
VOID ThunkEnumLogFontExDvA2W(
LPENUMLOGFONTEXDVA lpELFDVA,
LPENUMLOGFONTEXDVW lpELFDVW)
{
UINT i;
ThunkLogFontA2W(&lpELFDVA->elfEnumLogfontEx.elfLogFont,
&lpELFDVW->elfEnumLogfontEx.elfLogFont);
MultiByteToWideChar( CP_ACP,
0,
lpELFDVA->elfEnumLogfontEx.elfFullName,
-1,
lpELFDVW->elfEnumLogfontEx.elfFullName,
LF_FULLFACESIZE );
MultiByteToWideChar( CP_ACP,
0,
lpELFDVA->elfEnumLogfontEx.elfScript,
-1,
lpELFDVW->elfEnumLogfontEx.elfScript,
LF_FACESIZE );
MultiByteToWideChar( CP_ACP,
0,
lpELFDVA->elfEnumLogfontEx.elfStyle,
-1,
lpELFDVW->elfEnumLogfontEx.elfStyle,
LF_FACESIZE );
lpELFDVW->elfDesignVector.dvNumAxes = lpELFDVA->elfDesignVector.dvNumAxes;
lpELFDVW->elfDesignVector.dvReserved = lpELFDVA->elfDesignVector.dvReserved;
for (i=0; i<lpELFDVA->elfDesignVector.dvNumAxes; i++)
lpELFDVW->elfDesignVector.dvValues[i] = lpELFDVA->elfDesignVector.dvValues[i];
}
////////////////////////////////////////////////////////////////////////////
//
// ThunkEnumLogFontExDvW2A
//
////////////////////////////////////////////////////////////////////////////
VOID ThunkEnumLogFontExDvW2A(
LPENUMLOGFONTEXDVW lpELFDVW,
LPENUMLOGFONTEXDVA lpELFDVA)
{
BOOL fDefCharUsed;
UINT i;
if (lpELFDVW && lpELFDVA)
{
ThunkLogFontW2A(&lpELFDVW->elfEnumLogfontEx.elfLogFont,
&lpELFDVA->elfEnumLogfontEx.elfLogFont);
WideCharToMultiByte( CP_ACP,
0,
lpELFDVW->elfEnumLogfontEx.elfFullName,
-1,
lpELFDVA->elfEnumLogfontEx.elfFullName,
LF_FULLFACESIZE,
NULL,
&fDefCharUsed );
WideCharToMultiByte( CP_ACP,
0,
lpELFDVW->elfEnumLogfontEx.elfScript,
-1,
lpELFDVA->elfEnumLogfontEx.elfScript,
LF_FACESIZE,
NULL,
&fDefCharUsed );
WideCharToMultiByte( CP_ACP,
0,
lpELFDVW->elfEnumLogfontEx.elfStyle,
-1,
lpELFDVA->elfEnumLogfontEx.elfStyle,
LF_FACESIZE,
NULL,
&fDefCharUsed );
lpELFDVA->elfDesignVector.dvNumAxes = lpELFDVW->elfDesignVector.dvNumAxes;
lpELFDVA->elfDesignVector.dvReserved = lpELFDVW->elfDesignVector.dvReserved;
for (i=0; i<lpELFDVW->elfDesignVector.dvNumAxes; i++)
lpELFDVA->elfDesignVector.dvValues[i] = lpELFDVW->elfDesignVector.dvValues[i];
}
}
#endif // MM_DESIGNVECTOR_DEFINED
////////////////////////////////////////////////////////////////////////////
//
// ThunkLogFontA2W
//
////////////////////////////////////////////////////////////////////////////
VOID ThunkLogFontA2W(
LPLOGFONTA lpLFA,
LPLOGFONTW lpLFW)
{
lpLFW->lfHeight = lpLFA->lfHeight;
lpLFW->lfWidth = lpLFA->lfWidth;
lpLFW->lfEscapement = lpLFA->lfEscapement;
lpLFW->lfOrientation = lpLFA->lfOrientation;
lpLFW->lfWeight = lpLFA->lfWeight;
lpLFW->lfItalic = lpLFA->lfItalic;
lpLFW->lfUnderline = lpLFA->lfUnderline;
lpLFW->lfStrikeOut = lpLFA->lfStrikeOut;
lpLFW->lfCharSet = lpLFA->lfCharSet;
lpLFW->lfOutPrecision = lpLFA->lfOutPrecision;
lpLFW->lfClipPrecision = lpLFA->lfClipPrecision;
lpLFW->lfQuality = lpLFA->lfQuality;
lpLFW->lfPitchAndFamily = lpLFA->lfPitchAndFamily;
SHAnsiToUnicode(lpLFA->lfFaceName,lpLFW->lfFaceName,LF_FACESIZE );
}
////////////////////////////////////////////////////////////////////////////
//
// ThunkLogFontW2A
//
////////////////////////////////////////////////////////////////////////////
VOID ThunkLogFontW2A(
LPLOGFONTW lpLFW,
LPLOGFONTA lpLFA)
{
if (lpLFW && lpLFA)
{
lpLFA->lfHeight = lpLFW->lfHeight;
lpLFA->lfWidth = lpLFW->lfWidth;
lpLFA->lfEscapement = lpLFW->lfEscapement;
lpLFA->lfOrientation = lpLFW->lfOrientation;
lpLFA->lfWeight = lpLFW->lfWeight;
lpLFA->lfItalic = lpLFW->lfItalic;
lpLFA->lfUnderline = lpLFW->lfUnderline;
lpLFA->lfStrikeOut = lpLFW->lfStrikeOut;
lpLFA->lfCharSet = lpLFW->lfCharSet;
lpLFA->lfOutPrecision = lpLFW->lfOutPrecision;
lpLFA->lfClipPrecision = lpLFW->lfClipPrecision;
lpLFA->lfQuality = lpLFW->lfQuality;
lpLFA->lfPitchAndFamily = lpLFW->lfPitchAndFamily;
SHUnicodeToAnsi(lpLFW->lfFaceName,lpLFA->lfFaceName,LF_FACESIZE);
}
}
#ifdef WINNT
////////////////////////////////////////////////////////////////////////////
//
// Ssync_ANSI_UNICODE_CF_For_WOW
//
// Function to allow NT WOW to keep the ANSI & UNICODE versions of
// the CHOOSEFONT structure in ssync as required by many 16-bit apps.
// See notes for Ssync_ANSI_UNICODE_Struct_For_WOW() in dlgs.c.
//
////////////////////////////////////////////////////////////////////////////
VOID Ssync_ANSI_UNICODE_CF_For_WOW(
HWND hDlg,
BOOL f_ANSI_to_UNICODE)
{
PFONTINFO pFI;
if (pFI = (PFONTINFO)GetProp(hDlg, FONTPROP))
{
if (pFI->pCF && pFI->pCFA)
{
if (f_ANSI_to_UNICODE)
{
ThunkChooseFontA2W(pFI);
}
else
{
ThunkChooseFontW2A(pFI);
}
}
}
}
#endif // WINNT
#endif // UNICODE
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