#include "shellprv.h" #pragma hdrstop #include "idlcomm.h" #include "datautil.h" #ifdef DEBUG // Dugging aids for making sure we dont use free pidls #define VALIDATE_PIDL(pidl) ASSERT(IS_VALID_PIDL(pidl)) #else #define VALIDATE_PIDL(pidl) #endif STDAPI_(BOOL) SHIsValidPidl(LPCITEMIDLIST pidl) { __try { LPCITEMIDLIST pidlIterate = pidl; // I use my own while loop instead of ILGetSize to avoid extra debug spew, // including asserts, that would result from the VALIDATE_PIDL call. We are // testing for validity so an invalid pidl is an OK condition. while (pidlIterate->mkid.cb) { pidlIterate = _ILNext(pidlIterate); } return IsValidPIDL(pidl); } __except(EXCEPTION_EXECUTE_HANDLER) { return FALSE; } } STDAPI_(LPITEMIDLIST) ILGetNext(LPCITEMIDLIST pidl) { LPITEMIDLIST pidlRet = NULL; if (pidl && pidl->mkid.cb) { VALIDATE_PIDL(pidl); pidlRet = _ILNext(pidl); } return pidlRet; } STDAPI_(UINT) ILGetSizeAndDepth(LPCITEMIDLIST pidl, DWORD *pdwDepth) { DWORD dwDepth = 0; UINT cbTotal = 0; if (pidl) { VALIDATE_PIDL(pidl); cbTotal += sizeof(pidl->mkid.cb); // Null terminator while (pidl->mkid.cb) { cbTotal += pidl->mkid.cb; pidl = _ILNext(pidl); dwDepth++; } } if (pdwDepth) *pdwDepth = dwDepth; return cbTotal; } STDAPI_(UINT) ILGetSize(LPCITEMIDLIST pidl) { return ILGetSizeAndDepth(pidl, NULL); } #define CBIDL_MIN 256 #define CBIDL_INCL 256 STDAPI_(LPITEMIDLIST) ILCreate() { return _ILCreate(CBIDL_MIN); } // cbExtra is the amount to add to cbRequired if the block needs to grow, // or it is 0 if we want to resize to the exact size STDAPI_(LPITEMIDLIST) ILResize(LPITEMIDLIST pidl, UINT cbRequired, UINT cbExtra) { if (pidl == NULL) { pidl = _ILCreate(cbRequired + cbExtra); } else if (!cbExtra || SHGetSize(pidl) < cbRequired) { pidl = (LPITEMIDLIST)SHRealloc(pidl, cbRequired + cbExtra); } return pidl; } STDAPI_(LPITEMIDLIST) ILAppendID(LPITEMIDLIST pidl, LPCSHITEMID pmkid, BOOL fAppend) { // Create the ID list, if it is not given. if (!pidl) { pidl = ILCreate(); if (!pidl) return NULL; // memory overflow } UINT cbUsed = ILGetSize(pidl); UINT cbRequired = cbUsed + pmkid->cb; pidl = ILResize(pidl, cbRequired, CBIDL_INCL); if (!pidl) return NULL; // memory overflow if (fAppend) { // Append it. MoveMemory(_ILSkip(pidl, cbUsed - sizeof(pidl->mkid.cb)), pmkid, pmkid->cb); } else { // Put it at the top MoveMemory(_ILSkip(pidl, pmkid->cb), pidl, cbUsed); MoveMemory(pidl, pmkid, pmkid->cb); ASSERT((ILGetSize(_ILNext(pidl))==cbUsed) || (pmkid->cb == 0)); // if we're prepending the empty pidl, nothing changed } // We must put zero-terminator because of LMEM_ZEROINIT. _ILSkip(pidl, cbRequired - sizeof(pidl->mkid.cb))->mkid.cb = 0; ASSERT(ILGetSize(pidl) == cbRequired); return pidl; } STDAPI_(LPITEMIDLIST) ILFindLastID(LPCITEMIDLIST pidl) { LPCITEMIDLIST pidlLast = pidl; LPCITEMIDLIST pidlNext = pidl; if (pidl == NULL) return NULL; VALIDATE_PIDL(pidl); // Find the last one while (pidlNext->mkid.cb) { pidlLast = pidlNext; pidlNext = _ILNext(pidlLast); } return (LPITEMIDLIST)pidlLast; } STDAPI_(BOOL) ILRemoveLastID(LPITEMIDLIST pidl) { BOOL fRemoved = FALSE; if (pidl == NULL) return FALSE; if (pidl->mkid.cb) { LPITEMIDLIST pidlLast = (LPITEMIDLIST)ILFindLastID(pidl); ASSERT(pidlLast->mkid.cb); ASSERT(_ILNext(pidlLast)->mkid.cb==0); // Remove the last one pidlLast->mkid.cb = 0; // null-terminator fRemoved = TRUE; } return fRemoved; } STDAPI_(LPITEMIDLIST) ILClone(LPCITEMIDLIST pidl) { if (pidl) { UINT cb = ILGetSize(pidl); LPITEMIDLIST pidlRet = (LPITEMIDLIST)SHAlloc(cb); if (pidlRet) memcpy(pidlRet, pidl, cb); return pidlRet; } return NULL; } STDAPI_(LPITEMIDLIST) ILCloneCB(LPCITEMIDLIST pidl, UINT cbPidl) { UINT cb = cbPidl + sizeof(pidl->mkid.cb); LPITEMIDLIST pidlRet = (LPITEMIDLIST)SHAlloc(cb); if (pidlRet) { memcpy(pidlRet, pidl, cbPidl); // cbPidl can be odd, must use UNALIGNED *((UNALIGNED WORD *)((BYTE *)pidlRet + cbPidl)) = 0; // NULL terminate } return pidlRet; } STDAPI_(LPITEMIDLIST) ILCloneUpTo(LPCITEMIDLIST pidl, LPCITEMIDLIST pidlUpTo) { return ILCloneCB(pidl, (UINT)((BYTE *)pidlUpTo - (BYTE *)pidl)); } STDAPI_(LPITEMIDLIST) ILCloneFirst(LPCITEMIDLIST pidl) { return ILCloneCB(pidl, pidl->mkid.cb); } STDAPI_(BOOL) ILIsEqualEx(LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2, BOOL fMatchDepth, LPARAM lParam) { BOOL fRet = FALSE; VALIDATE_PIDL(pidl1); VALIDATE_PIDL(pidl2); if (pidl1 == pidl2) fRet = TRUE; else { DWORD dw1; UINT cb1 = ILGetSizeAndDepth(pidl1, &dw1); DWORD dw2; UINT cb2 = ILGetSizeAndDepth(pidl2, &dw2); if (!fMatchDepth || dw1 == dw2) { if (cb1 == cb2 && memcmp(pidl1, pidl2, cb1) == 0) fRet = TRUE; else { IShellFolder *psfDesktop; if (SUCCEEDED(SHGetDesktopFolder(&psfDesktop))) { if (psfDesktop->CompareIDs(lParam, pidl1, pidl2) == 0) fRet = TRUE; psfDesktop->Release(); } } } } return fRet; } // the only case where this wouldnt be effective is if we were using // an old Simple pidl of a UNC and trying to compare with the actual // pidl. because the depth wasnt maintained correctly before. // ILIsParent() has always had this problem. STDAPI_(BOOL) ILIsEqual(LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2) { return ILIsEqualEx(pidl1, pidl2, TRUE, SHCIDS_CANONICALONLY); } // test if // pidlParent is a parent of pidlBelow // fImmediate requires that pidlBelow be a direct child of pidlParent. // Otherwise, self and grandchildren are okay too. // // example: // pidlParent: [my comp] [c:\] [windows] // pidlBelow: [my comp] [c:\] [windows] [system32] [vmm.vxd] // fImmediate == FALSE result: TRUE // fImmediate == TRUE result: FALSE STDAPI_(BOOL) ILIsParent(LPCITEMIDLIST pidlParent, LPCITEMIDLIST pidlBelow, BOOL fImmediate) { LPCITEMIDLIST pidlParentT; LPCITEMIDLIST pidlBelowT; VALIDATE_PIDL(pidlParent); VALIDATE_PIDL(pidlBelow); if (!pidlParent || !pidlBelow) return FALSE; /* This code will not work correctly when comparing simple NET id lists / against, real net ID lists. Simple ID lists DO NOT contain network provider / information therefore cannot pass the initial check of is pidlBelow longer than pidlParent. / daviddv (2/19/1996) */ for (pidlParentT = pidlParent, pidlBelowT = pidlBelow; !ILIsEmpty(pidlParentT); pidlParentT = _ILNext(pidlParentT), pidlBelowT = _ILNext(pidlBelowT)) { // if pidlBelow is shorter than pidlParent, pidlParent can't be its parent. if (ILIsEmpty(pidlBelowT)) return FALSE; } if (fImmediate) { // If fImmediate is TRUE, pidlBelowT should contain exactly one ID. if (ILIsEmpty(pidlBelowT) || !ILIsEmpty(_ILNext(pidlBelowT))) return FALSE; } // // Create a new IDList from a portion of pidlBelow, which contains the // same number of IDs as pidlParent. // BOOL fRet = FALSE; UINT cb = (UINT)((UINT_PTR)pidlBelowT - (UINT_PTR)pidlBelow); LPITEMIDLIST pidlBelowPrefix = _ILCreate(cb + sizeof(pidlBelow->mkid.cb)); if (pidlBelowPrefix) { IShellFolder *psfDesktop; if (SUCCEEDED(SHGetDesktopFolder(&psfDesktop))) { CopyMemory(pidlBelowPrefix, pidlBelow, cb); ASSERT(ILGetSize(pidlBelowPrefix) == cb + sizeof(pidlBelow->mkid.cb)); fRet = psfDesktop->CompareIDs(SHCIDS_CANONICALONLY, pidlParent, pidlBelowPrefix) == ResultFromShort(0); psfDesktop->Release(); } ILFree(pidlBelowPrefix); } return fRet; } // this returns a pointer to the child id ie: // given // pidlParent = [my comp] [c] [windows] [desktop] // pidlChild = [my comp] [c] [windows] [desktop] [dir] [bar.txt] // return pointer to: // [dir] [bar.txt] // NULL is returned if pidlParent is not a parent of pidlChild STDAPI_(LPITEMIDLIST) ILFindChild(LPCITEMIDLIST pidlParent, LPCITEMIDLIST pidlChild) { if (ILIsParent(pidlParent, pidlChild, FALSE)) { while (!ILIsEmpty(pidlParent)) { pidlChild = _ILNext(pidlChild); pidlParent = _ILNext(pidlParent); } return (LPITEMIDLIST)pidlChild; } return NULL; } STDAPI_(LPITEMIDLIST) ILCombine(LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2) { // Let me pass in NULL pointers if (!pidl1) { if (!pidl2) { return NULL; } return ILClone(pidl2); } else if (!pidl2) { return ILClone(pidl1); } UINT cb1 = ILGetSize(pidl1) - sizeof(pidl1->mkid.cb); UINT cb2 = ILGetSize(pidl2); VALIDATE_PIDL(pidl1); VALIDATE_PIDL(pidl2); LPITEMIDLIST pidlNew = _ILCreate(cb1 + cb2); if (pidlNew) { CopyMemory(pidlNew, pidl1, cb1); CopyMemory((LPTSTR)(((LPBYTE)pidlNew) + cb1), pidl2, cb2); ASSERT(ILGetSize(pidlNew) == cb1+cb2); } return pidlNew; } STDAPI_(void) ILFree(LPITEMIDLIST pidl) { if (pidl) { ASSERT(IS_VALID_PIDL(pidl)); SHFree(pidl); } } // back on Win9x this did global global data, no longer STDAPI_(LPITEMIDLIST) ILGlobalClone(LPCITEMIDLIST pidl) { return ILClone(pidl); } STDAPI_(void) ILGlobalFree(LPITEMIDLIST pidl) { ILFree(pidl); } SHSTDAPI SHParseDisplayName(PCWSTR pszName, IBindCtx *pbc, LPITEMIDLIST *ppidl, SFGAOF sfgaoIn, SFGAOF *psfgaoOut) { *ppidl = 0; if (psfgaoOut) *psfgaoOut = 0; // since ISF::PDN() takes a non-const pointer PWSTR pszParse = StrDupW(pszName); HRESULT hr = pszParse ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { CComPtr spsfDesktop; hr = SHGetDesktopFolder(&spsfDesktop); if (SUCCEEDED(hr)) { CComPtr spbcLocal; // if they pass their own pbc, then they are responsible for // adding in the translate param, else we default to using it if (!pbc) { hr = BindCtx_RegisterObjectParam(NULL, STR_PARSE_TRANSLATE_ALIASES, NULL, &spbcLocal); pbc = spbcLocal; } if (SUCCEEDED(hr)) { ULONG cchEaten; SFGAOF sfgaoInOut = sfgaoIn; hr = spsfDesktop->ParseDisplayName(BindCtx_GetUIWindow(pbc), pbc, pszParse, &cchEaten, ppidl, psfgaoOut ? &sfgaoInOut : NULL); if (SUCCEEDED(hr) && psfgaoOut) { *psfgaoOut = (sfgaoInOut & sfgaoIn); // only return attributes passed in } } } LocalFree(pszParse); } return hr; } HRESULT _CFPBindCtx(IUnknown *punkToSkip, ILCFP_FLAGS dwFlags, IBindCtx **ppbc) { HRESULT hr = S_FALSE; if (punkToSkip || (dwFlags & ILCFP_FLAG_SKIPJUNCTIONS)) hr = SHCreateSkipBindCtx(punkToSkip, ppbc); else if (dwFlags & ILCFP_FLAG_NO_MAP_ALIAS) { // we need to create a bindctx to block alias mapping. // this will keep SHParseDisplayName() from adding the STR_PARSE_TRANSLATE_ALIASES hr = CreateBindCtx(0, ppbc); } return hr; } STDAPI ILCreateFromPathEx(LPCTSTR pszPath, IUnknown *punkToSkip, ILCFP_FLAGS dwFlags, LPITEMIDLIST *ppidl, DWORD *rgfInOut) { CComPtr spbc; HRESULT hr = _CFPBindCtx(punkToSkip, dwFlags, &spbc); if (SUCCEEDED(hr)) { hr = SHParseDisplayName(pszPath, spbc, ppidl, rgfInOut ? *rgfInOut : 0, rgfInOut); } return hr; } STDAPI ILCreateFromCLSID(REFCLSID clsid, LPITEMIDLIST *ppidl) { TCHAR szCLSID[GUIDSTR_MAX + 3]; szCLSID[0] = TEXT(':'); szCLSID[1] = TEXT(':'); SHStringFromGUID(clsid, szCLSID + 2, ARRAYSIZE(szCLSID) - 2); return SHILCreateFromPath(szCLSID, ppidl, NULL); } STDAPI SHILCreateFromPath(LPCTSTR pszPath, LPITEMIDLIST *ppidl, DWORD *rgfInOut) { return ILCreateFromPathEx(pszPath, NULL, ILCFP_FLAG_NO_MAP_ALIAS, ppidl, rgfInOut); } STDAPI_(LPITEMIDLIST) ILCreateFromPath(LPCTSTR pszPath) { LPITEMIDLIST pidl = NULL; HRESULT hr = SHILCreateFromPath(pszPath, &pidl, NULL); ASSERT(SUCCEEDED(hr) ? pidl != NULL : pidl == NULL); return pidl; } LPITEMIDLIST ILCreateFromPathA(IN LPCSTR pszPath) { TCHAR szPath[MAX_PATH]; SHAnsiToUnicode(pszPath, szPath, SIZECHARS(szPath)); return ILCreateFromPath(szPath); } STDAPI_(BOOL) ILGetDisplayNameExA(IShellFolder *psf, LPCITEMIDLIST pidl, LPSTR pszName, DWORD cchSize, int fType) { TCHAR szPath[MAX_PATH]; if (ILGetDisplayNameEx(psf, pidl, szPath, fType)) { SHTCharToAnsi(szPath, pszName, cchSize); return TRUE; } return FALSE; } STDAPI_(BOOL) ILGetDisplayNameEx(IShellFolder *psf, LPCITEMIDLIST pidl, LPTSTR pszName, int fType) { TraceMsg(TF_WARNING, "WARNING: ILGetDisplayNameEx() has been deprecated, should use SHGetNameAndFlags() instead!!!"); RIPMSG(pszName && IS_VALID_WRITE_BUFFER(pszName, TCHAR, MAX_PATH), "ILGetDisplayNameEx: caller passed bad pszName"); if (!pszName) return FALSE; DEBUGWhackPathBuffer(pszName, MAX_PATH); *pszName = 0; if (!pidl) return FALSE; HRESULT hr; if (psf) { hr = S_OK; psf->AddRef(); } else { hr = SHGetDesktopFolder(&psf); } if (SUCCEEDED(hr)) { DWORD dwGDNFlags; switch (fType) { case ILGDN_FULLNAME: dwGDNFlags = SHGDN_FORPARSING | SHGDN_FORADDRESSBAR; hr = DisplayNameOf(psf, pidl, dwGDNFlags, pszName, MAX_PATH); break; case ILGDN_INFOLDER: case ILGDN_ITEMONLY: dwGDNFlags = fType == ILGDN_INFOLDER ? SHGDN_INFOLDER : SHGDN_NORMAL; if (!ILIsEmpty(pidl)) { hr = SHGetNameAndFlags(pidl, dwGDNFlags, pszName, MAX_PATH, NULL); } else { hr = DisplayNameOf(psf, pidl, dwGDNFlags, pszName, MAX_PATH); } break; } psf->Release(); } return SUCCEEDED(hr) ? TRUE : FALSE; } STDAPI_(BOOL) ILGetDisplayName(LPCITEMIDLIST pidl, LPTSTR pszPath) { return ILGetDisplayNameEx(NULL, pidl, pszPath, ILGDN_FULLNAME); } //*** ILGetPseudoName -- encode pidl relative to base // Not used any more // STDAPI_(BOOL) ILGetPseudoNameW(LPCITEMIDLIST pidl, LPCITEMIDLIST pidlSpec, WCHAR *pszBuf, int fType) { *pszBuf = TEXT('\0'); return FALSE; } STDAPI ILLoadFromStream(IStream *pstm, LPITEMIDLIST * ppidl) { ASSERT(ppidl); // Delete the old one if any. if (*ppidl) { ILFree(*ppidl); *ppidl = NULL; } // Read the size of the IDLIST ULONG cb = 0; // WARNING: We need to fill its HIWORD! HRESULT hr = pstm->Read(&cb, sizeof(USHORT), NULL); // Yes, USHORT if (SUCCEEDED(hr) && cb) { // Create a IDLIST LPITEMIDLIST pidl = _ILCreate(cb); if (pidl) { // Read its contents hr = pstm->Read(pidl, cb, NULL); if (SUCCEEDED(hr)) { // Some pidls may be invalid. We know they are invalid // if their size claims to be larger than the memory we // allocated. if (SHIsValidPidl(pidl) && (cb >= ILGetSize(pidl))) { *ppidl = pidl; } else { hr = E_FAIL; } } if (FAILED(hr)) { ILFree(pidl); } } else { hr = E_OUTOFMEMORY; } } return hr; } STDAPI ILSaveToStream(IStream *pstm, LPCITEMIDLIST pidl) { ULONG cb = ILGetSize(pidl); ASSERT(HIWORD(cb) == 0); HRESULT hr = pstm->Write(&cb, sizeof(USHORT), NULL); // Yes, USHORT if (SUCCEEDED(hr) && cb) { hr = pstm->Write(pidl, cb, NULL); } return hr; } // // This one reallocated pidl if necessary. NULL is valid to pass in as pidl. // STDAPI_(LPITEMIDLIST) HIDA_FillIDList(HIDA hida, UINT i, LPITEMIDLIST pidl) { UINT cbRequired = HIDA_GetIDList(hida, i, NULL, 0); pidl = ILResize(pidl, cbRequired, 32); // extra 32-byte if we realloc if (pidl) { HIDA_GetIDList(hida, i, pidl, cbRequired); } return pidl; } STDAPI_(LPITEMIDLIST) IDA_FullIDList(LPIDA pida, UINT i) { LPITEMIDLIST pidl = NULL; LPCITEMIDLIST pidlParent = IDA_GetIDListPtr(pida, (UINT)-1); if (pidlParent) { LPCITEMIDLIST pidlRel = IDA_GetIDListPtr(pida, i); if (pidlRel) { pidl = ILCombine(pidlParent, pidlRel); } } return pidl; } LPITEMIDLIST HIDA_ILClone(HIDA hida, UINT i) { LPIDA pida = (LPIDA)GlobalLock(hida); if (pida) { LPITEMIDLIST pidl = IDA_ILClone(pida, i); GlobalUnlock(hida); return pidl; } return NULL; } // // This is a helper function to be called from within IShellFolder::CompareIDs. // When the first IDs of pidl1 and pidl2 are the (logically) same. // // Required: // psf && pidl1 && pidl2 && !ILEmpty(pidl1) && !ILEmpty(pidl2) // HRESULT ILCompareRelIDs(IShellFolder *psfParent, LPCITEMIDLIST pidl1, LPCITEMIDLIST pidl2, LPARAM lParam) { HRESULT hr; LPCITEMIDLIST pidlRel1 = _ILNext(pidl1); LPCITEMIDLIST pidlRel2 = _ILNext(pidl2); if (ILIsEmpty(pidlRel1)) { if (ILIsEmpty(pidlRel2)) hr = ResultFromShort(0); else hr = ResultFromShort(-1); } else { if (ILIsEmpty(pidlRel2)) { hr = ResultFromShort(1); } else { // // pidlRel1 and pidlRel2 point to something // (1) Bind to the next level of the IShellFolder // (2) Call its CompareIDs to let it compare the rest of IDs. // LPITEMIDLIST pidlNext = ILCloneFirst(pidl1); // pidl2 would work as well if (pidlNext) { IShellFolder *psfNext; hr = psfParent->BindToObject(pidlNext, NULL, IID_PPV_ARG(IShellFolder, &psfNext)); if (SUCCEEDED(hr)) { IShellFolder2 *psf2; if (SUCCEEDED(psfNext->QueryInterface(IID_PPV_ARG(IShellFolder2, &psf2)))) { // we can use the lParam psf2->Release(); } else // cant use the lParam lParam = 0; // columns arent valid to pass down // we just care about the flags param hr = psfNext->CompareIDs((lParam & ~SHCIDS_COLUMNMASK), pidlRel1, pidlRel2); psfNext->Release(); } ILFree(pidlNext); } else { hr = E_OUTOFMEMORY; } } } return hr; } // in: // pszLeft // pidl // // in/out: // psr STDAPI StrRetCatLeft(LPCTSTR pszLeft, STRRET *psr, LPCITEMIDLIST pidl) { HRESULT hr; TCHAR szRight[MAX_PATH]; UINT cchRight, cchLeft = ualstrlen(pszLeft); switch (psr->uType) { case STRRET_CSTR: cchRight = lstrlenA(psr->cStr); break; case STRRET_OFFSET: cchRight = lstrlenA(STRRET_OFFPTR(pidl, psr)); break; case STRRET_WSTR: cchRight = lstrlenW(psr->pOleStr); break; } if (cchLeft + cchRight < MAX_PATH) { hr = StrRetToBuf(psr, pidl, szRight, ARRAYSIZE(szRight)); // will free psr for us if (SUCCEEDED(hr)) { psr->pOleStr = (LPOLESTR)SHAlloc((lstrlen(pszLeft) + 1 + cchRight) * sizeof(TCHAR)); if (psr->pOleStr == NULL) { hr = E_OUTOFMEMORY; } else { psr->uType = STRRET_WSTR; lstrcpy(psr->pOleStr, pszLeft); lstrcat(psr->pOleStr, szRight); hr = S_OK; } } } else { hr = E_NOTIMPL; } return hr; } STDAPI_(void) StrRetFormat(STRRET *psr, LPCITEMIDLIST pidlRel, LPCTSTR pszTemplate, LPCTSTR pszAppend) { TCHAR szT[MAX_PATH]; StrRetToBuf(psr, pidlRel, szT, ARRAYSIZE(szT)); LPTSTR pszRet = ShellConstructMessageString(HINST_THISDLL, pszTemplate, pszAppend, szT); if (pszRet) { StringToStrRet(pszRet, psr); LocalFree(pszRet); } } // // Notes: This one passes SHGDN_FORPARSING to ISF::GetDisplayNameOf. // HRESULT ILGetRelDisplayName(IShellFolder *psf, STRRET *psr, LPCITEMIDLIST pidlRel, LPCTSTR pszName, LPCTSTR pszTemplate, DWORD dwFlags) { HRESULT hr; LPITEMIDLIST pidlLeft = ILCloneFirst(pidlRel); if (pidlLeft) { IShellFolder *psfNext; hr = psf->BindToObject(pidlLeft, NULL, IID_PPV_ARG(IShellFolder, &psfNext)); if (SUCCEEDED(hr)) { LPCITEMIDLIST pidlRight = _ILNext(pidlRel); hr = psfNext->GetDisplayNameOf(pidlRight, dwFlags, psr); if (SUCCEEDED(hr)) { if (pszTemplate) { StrRetFormat(psr, pidlRight, pszTemplate, pszName); } else { hr = StrRetCatLeft(pszName, psr, pidlRight); } } psfNext->Release(); } ILFree(pidlLeft); } else { hr = E_OUTOFMEMORY; } return hr; } #undef ILCreateFromPath STDAPI_(LPITEMIDLIST) ILCreateFromPath(LPCTSTR pszPath) { return ILCreateFromPathW(pszPath); }