I was able to find the following method of determining if a Unicode-16 character is supported by a font. Unfortunately that doesn't work for surrogate pair Unicode characters, since WCRANGE struct supported by GetFontUnicodeRanges function returns only WCHAR (16-bit) parameters as output.

Here's an example of what I'm trying to do:

    static HFONT hFont = NULL;

    switch (message)
        case WM_CREATE:
            LOGFONT lf = {0};
            lf.lfHeight = -64;
            ::StringCchCopy(lf.lfFaceName, _countof(lf.lfFaceName), L"Arial");

            hFont = ::CreateFontIndirect(&lf);

        case WM_PAINT:
            PAINTSTRUCT ps;
            HDC hdc = BeginPaint(hWnd, &ps);

            RECT rcClient = {0};
            ::GetClientRect(hWnd, &rcClient);

            HGDIOBJ hOldFont = ::SelectObject(hdc, hFont);

            LPCTSTR pStr = L">\U0001F609<";
            int nLn = wcslen(pStr);

            RECT rc = {20, 20, rcClient.right, rcClient.bottom};
            ::DrawText(hdc, pStr, nLn, &rc, DT_NOPREFIX | DT_SINGLELINE);

            ::SelectObject(hdc, hOldFont);

            EndPaint(hWnd, &ps);


If I run it on Windows 10, I get this:

enter image description here

But this is what I'm getting on Windows 7:

enter image description here

So what is the way to tell if that middle character is not going to be rendered?

PS. I also attempted to use badly documented Uniscribe, and a modified version of this tutorial as an example. But no matter what I did, it failed to produce a discernible outcome between Win10 and Win7. If it helps to answer this question, here's the code I experimented with:

//Call from WM_PAINT handler
std::wstring str;
test02(hdc, pStr, str);

RECT rc0 = {0, 200, rcClient.right, rcClient.bottom};
::DrawText(hdc, str.c_str(), str.size(), &rc0, DT_NOPREFIX | DT_SINGLELINE);

and then:

void test02(HDC hDc, LPCTSTR pStr, std::wstring& str)
    //'str' = receives debugging outcome (needs to be printed on the screen)

    //      https://maxradi.us/documents/uniscribe/

    HRESULT hr;

    int nLn = wcslen(pStr);

    hr = ::ScriptStringAnalyse(hDc,
        0, NULL, NULL, NULL, NULL, NULL, &ssa);

        const SCRIPT_PROPERTIES **g_ppScriptProperties;
        int g_iMaxScript;

        hr = ::ScriptGetProperties(&g_ppScriptProperties, &g_iMaxScript);
            const int cMaxItems = 20;
            SCRIPT_ITEM si[cMaxItems + 1];
            SCRIPT_ITEM *pItems = si;
            int cItems;                 //Receives number of glyphs

            SCRIPT_CONTROL scrCtrl = {0};
            SCRIPT_STATE scrState = {0};

            hr = ::ScriptItemize(pStr, nLn, cMaxItems, &scrCtrl, &scrState, pItems, &cItems);
                FormatAdd2(str, L"cItems=%d: ", cItems);

                int nCntGlyphs = nLn * 4;
                WORD* pGlyphs = new WORD[nCntGlyphs];
                WORD* pLogClust = new WORD[nLn];
                SCRIPT_VISATTR* pSVs = new SCRIPT_VISATTR[nCntGlyphs];

                //Go through each run
                for(int i = 0; i < cItems; i++)
                    FormatAdd2(str, L"[%d]:", i);

                    SCRIPT_CACHE sc = NULL;
                    int nCntGlyphsWrtn = 0;
                    int iPos = pItems[i].iCharPos;
                    const WCHAR* pP = &pStr[iPos];
                    int cChars = i + 1 < cItems ? pItems[i + 1].iCharPos - iPos : nLn - iPos;

                    hr = ::ScriptShape(hDc, &sc, pP, cChars,
                        nCntGlyphs, &pItems[i].a, pGlyphs, pLogClust, pSVs, &nCntGlyphsWrtn);

                        std::wstring strGlyphs;
                        for(int g = 0; g < nCntGlyphsWrtn; g++)
                            FormatAdd2(strGlyphs, L"%02X,", pGlyphs[g]);

                        std::wstring strLogClust;
                        for(int w = 0; w < cChars; w++)
                            FormatAdd2(strLogClust, L"%02X,", pLogClust[w]);

                        std::wstring strSVs;
                        for(int g = 0; g < nCntGlyphsWrtn; g++)
                            FormatAdd2(strSVs, L"%02X,", pSVs[g]);

                        FormatAdd2(str, L"c=%d {G:%s LC:%s SV:%s} ", nCntGlyphsWrtn, strGlyphs.c_str(), strLogClust.c_str(), strSVs.c_str());

                        int* pAdvances = new int[nCntGlyphsWrtn];
                        GOFFSET* pOffsets = new GOFFSET[nCntGlyphsWrtn];
                        ABC abc = {0};

                        hr = ::ScriptPlace(hDc, &sc, pGlyphs, nCntGlyphsWrtn, pSVs, &pItems[i].a, pAdvances, pOffsets, &abc);
                            std::wstring strAdvs;
                            for(int g = 0; g < nCntGlyphsWrtn; g++)
                                FormatAdd2(strAdvs, L"%02X,", pAdvances[g]);

                            std::wstring strOffs;
                            for(int g = 0; g < nCntGlyphsWrtn; g++)
                                FormatAdd2(strOffs, L"u=%02X v=%02X,", pOffsets[g].du, pOffsets[g].dv);

                            FormatAdd2(str, L"{a=%d,b=%d,c=%d} {A:%s OF:%s}", abc.abcA, abc.abcB, abc.abcC, strAdvs.c_str(), strOffs.c_str());

                        delete[] pAdvances;
                        delete[] pOffsets;


                    //Clear cache
                    hr = ::ScriptFreeCache(&sc);

                delete[] pSVs;
                delete[] pGlyphs;
                delete[] pLogClust;

        hr = ::ScriptStringFree(&ssa);

std::wstring& FormatAdd2(std::wstring& str, LPCTSTR pszFormat, ...)
    va_list argList;
    va_start(argList, pszFormat);
    int nSz = _vsctprintf(pszFormat, argList) + 1;

    TCHAR* pBuff = new TCHAR[nSz];      //One char for last null
    pBuff[0] = 0;
    _vstprintf_s(pBuff, nSz, pszFormat, argList);
    pBuff[nSz - 1] = 0;


    delete[] pBuff;


    return str;

EDIT: I was able to create a demo GUI app that demonstrates the solution suggested by Barmak Shemirani below.

  • 1
    Have you tried GetGlyphIndicesW ? – Alexander Gutenev Jan 5 at 11:50
  • @AlexanderGutenev: Yes. Same thing. It doesn't work with glyphs "wider" than 16 bits. – c00000fd Jan 5 at 16:41

😉 character is actually not supported in Windows 10 Arial font. Windows 10 uses "Segoe UI Emoji" as fallback font for that particular code point.

So first we have to figure out if fallback font is used. Then check the glyph index to see if it is tofu character (usually shown as square sign )

We can use meta file to find if font substitution is used. Select that font in to HDC.

Use ScriptGetFontProperties to find the values for unsupported glyphs.

Use GetCharacterPlacement to find the glyph indices for the string. If the glyph index matches unsupported glyphs, then the code point is being printed as tofu .


If you try to print Chinese character etc. then you have to choose the appropriate font (SimSun for Chinese)

This part is done by IMLangFontLink. It's a different type of font substitution. The example below will test for single code point (it can be expanded to handle a string).

If Segoe UI font is selected, then for the Chinese character , it will switch Segoe UI to SimSun.

For emojis, it will switch Segoe UI to Segoe UI Emoji

See also this article in oldnewthing. Note the article in OldNewThing does not handle Emojis, it just lets TextOut handle it (which is handled correctly in Windows 10 so the result appears okay)

#include <iostream>
#include <windows.h>
#include <usp10.h>
#include <AtlBase.h>
#include <AtlCom.h>
#include <mlang.h>

#pragma comment(lib, "Usp10.lib")

int CALLBACK metafileproc(HDC, HANDLETABLE*, const ENHMETARECORD *record,
    int, LPARAM logfont)
        auto ptr = (const EMREXTCREATEFONTINDIRECTW*)record;
        *(LOGFONT*)logfont = ptr->elfw.elfLogFont;
    return 1;

HFONT GetFallbackFont(const wchar_t *str, HFONT hfont_test)
    //use metafile to find the fallback font
    auto metafile_hdc = CreateEnhMetaFile(NULL, NULL, NULL, NULL);
    auto metafile_oldfont = SelectObject(metafile_hdc, hfont_test);

    ScriptStringAnalyse(metafile_hdc, str, wcslen(str), 0, -1,
        0, NULL, NULL, NULL, NULL, NULL, &ssa);
    ScriptStringOut(ssa, 0, 0, 0, NULL, 0, 0, FALSE);

    SelectObject(metafile_hdc, metafile_oldfont);
    auto hmetafile = CloseEnhMetaFile(metafile_hdc);

    LOGFONT logfont = { 0 };
    EnumEnhMetaFile(0, hmetafile, metafileproc, &logfont, NULL);
    wprintf(L"Selecting fallback font: %s\n", logfont.lfFaceName);
    HFONT hfont = CreateFontIndirect(&logfont);

    return hfont;

bool IsTofu(HDC hdc, HFONT hfont_test, const wchar_t *str)
    if(wcsstr(str, L" "))
        wprintf(L"*** cannot test strings containing blank space\n");

    auto hfont = GetFallbackFont(str, hfont_test);
    auto oldfont = SelectObject(hdc, hfont);

    //find the characters not supported in this font
    //note, blank space is blank, unsupported fonts can be blank also
    SCRIPT_FONTPROPERTIES fp = { sizeof(fp) };
    ScriptGetFontProperties(hdc, &sc, &fp);
    wprintf(L" Blank: %d, Default: %d, Invalid: %d\n",
        fp.wgBlank, fp.wgDefault, fp.wgInvalid);

    // Get glyph indices for the string
    GCP_RESULTS gcp_results = { sizeof(GCP_RESULTS) };
    gcp_results.nGlyphs = wcslen(str);
    auto wstr_memory = (wchar_t*)calloc(wcslen(str) + 1, sizeof(wchar_t));
    gcp_results.lpGlyphs = wstr_memory;
    GetCharacterPlacement(hdc, str, wcslen(str), 0, &gcp_results, GCP_GLYPHSHAPE);

    //check the characters against wgBlank...
    bool istofu = false;
    for(UINT i = 0; i < gcp_results.nGlyphs; i++)
        wchar_t n = gcp_results.lpGlyphs[i];
        wprintf(L"%d,", (int)n);
        if(n == fp.wgBlank || n == fp.wgInvalid || n == fp.wgDefault)
            istofu = true;

    SelectObject(hdc, oldfont);

    return istofu;

bool get_font_link(const wchar_t *str, 
    HDC hdc, 
    HFONT &hfont,
    CComPtr<IMLangFontLink> &ifont,
    CComPtr<IMLangCodePages> &icodepages)
    SelectObject(hdc, hfont);

    DWORD codepages_dst[100] = { 0 };
    LONG codepages_count = 100;

    DWORD codepages = 0;
    if(SUCCEEDED(icodepages->GetStrCodePages(str, wcslen(str), 0, codepages_dst, &codepages_count)))
        codepages = codepages_dst[0];

    HFONT hfont_new = NULL;
    if(SUCCEEDED(ifont->MapFont(hdc, codepages_dst[0], hfont, &hfont_new)))
        SelectObject(hdc, hfont_new);
        hfont = hfont_new;

        wchar_t buf[100];
        GetTextFace(hdc, _countof(buf), buf);
        wprintf(L"Selecting a different font: %s\n", buf);

    return true;

int main()

        CComPtr<IMultiLanguage> imultilang;
        CComPtr<IMLangFontLink> ifont;
        CComPtr<IMLangCodePages> icodepages;
        if(FAILED(imultilang.CoCreateInstance(CLSID_CMultiLanguage))) return 0;
        if(FAILED(imultilang->QueryInterface(&ifont))) return 0;
        if(FAILED(imultilang->QueryInterface(&icodepages))) return 0;

        const wchar_t *single_codepoint = L"请";// 23😉456";

        auto hdc = GetDC(0);
        auto memdc = CreateCompatibleDC(hdc);
        auto hbitmap = CreateCompatibleBitmap(hdc, 1, 1);
        auto oldbmp = SelectObject(memdc, hbitmap);
        auto hfont = CreateFont(10, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, L"Segoe UI");

        get_font_link(single_codepoint, memdc, hfont, ifont, icodepages);

        printf("IsTofu: %d\n", IsTofu(hdc, hfont, single_codepoint));

        SelectObject(memdc, oldbmp);
        ReleaseDC(0, hdc);


    return 0;


IsTofu is false for Windows 10.

It will be true for some older Windows versions. But this is not tested in WinXP

Using GetUniscribeFallbackFont from this link

Note, Windows documentation describes GetCharacterPlacement as obsolete, it recommends using Uniscribe functions. But I don't know what replacement to use for it here.

  • Thank you! That's very cool, although I'm struggling to understand what you're doing there. Would you mind putting more comments into your IsTofu to explain it a little bit better? Also just to note. It doesn't work on WinXP -- IsTofu returns false. Although, can we safely assume that XP will not support surrogate pairs? And lastly, if the character is not a surrogate pair, can we use a simpler API for that: WORD gi = 0; GetGlyphIndicesW(hdc, str, 1, &gi, GGI_MARK_NONEXISTING_GLYPHS); and then check if gi == -1 for non-supported glyphs? – c00000fd Jan 5 at 19:21
  • I don't know about Windows XP. GetGlyphIndices looks similar to GetCharacterPlacement in this context. I don't know why GetGlyphIndices doesn't work. The odd part is using meta file to get the fallback font. After that it's just the gdi function GetCharacterPlacement to get the glyphs. – Barmak Shemirani Jan 5 at 23:30
  • NT4 was UCS2 only, 2000 has some surrogate support and even more support in XP. docs.microsoft.com/en-us/windows/desktop/intl/… – Anders Jan 6 at 3:25
  • @Anders: Hmm... thanks. Did you have a chance to see why his code doesn't seem to work under XP then? – c00000fd Jan 6 at 3:34
  • 1
    OK, well, technically it works with just using the last font. (It's above my pay-grade to see how else to parse that meta file output.) Thanks for your help. By the way, heads-up to whoever wants to use this code. I adjusted his last edit to fix the resource leak and also a buffer overflow vulnerability in the get_font_link() function. It would be nice not to include those, since quite a lot of people blindly copy code from SO into their commercial software. My adjusted code with a demo can be found here on Github. – c00000fd Apr 13 at 19:35

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