/*----------------------------------------------------------------------------------------------
Load data into the cache from the record set defined by hstmt, according to the specs
in prgocs/cocs. Columns with m_icolID = 0 give properties of hvoBase.
Load properties of at most crowMax objects; this may only be used if there is no vector
property being loaded, since we could not be sure of having a complete record of the
value of a vector without loading the next row. If crowMax is zero, load everything.
Note: call from inside try/catch block; may throw exceptions.
Note that prgocs[i] describes the column which ODBC indexes as [i+1].
----------------------------------------------------------------------------------------------*/
void VwRsOdbcDa::Load(SQLHSTMT hstmt, OdbcColSpec * prgocs, int cocs, HVO hvoBase,
int crowMax)
{
AssertArray(prgocs, cocs);
Assert((uint)cocs <= (uint) 200); // limit because of size of rghvoBaseIds
Assert(crowMax >= 0);
ITsStrFactoryPtr qtsf;
qtsf.CreateInstance(CLSID_TsStrFactory);
ITsPropsFactoryPtr qtpf;
qtpf.CreateInstance(CLSID_TsPropsFactory);
// Block of variables for binary fields
Vector<byte> vbData; // used to buffer data from binary fields
const int kcbMaxData = 1000; // amount of binary data to read in one go
byte rgbData[kcbMaxData]; // buffer for short binary data fields
long cbData; // how many bytes in prgbData hold valid data
byte * prgbData; // points to rgbData or vbData.Begin(), as appropriate
// Similar block for Unicode text
Vector<wchar> vchData;
const int kcchMaxData = 1000;
wchar rgchData[kcchMaxData];
long cchData;
wchar * prgchData;
Vector<HVO> vhvo; // accumulate objects for sequence property
int nrows = 0;
if (crowMax == 0)
crowMax = INT_MAX;
HVO rghvoBaseIds[200];
int icolVec = -1; // index of (one and only) column of type koctObjVec
int hvoVecBase; // object that is base of vector property
while (CheckSqlRc(SQLFetch(hstmt)) != SQL_NO_DATA)
{
// We have a record.
for (int icol = 0; icol < cocs; icol++)
{
int nVal;
HVO hvoVal;
ITsStringPtr qtssVal;
// TOxDO JohnT: fill this in...
HVO hvoCurBase; // object whose property we will read.
if (prgocs[icol].m_icolID == 0)
hvoCurBase = hvoBase;
else
{
// Must refer to a previous column; use <= because m_icolID is 1-based, so
// if equal to i, it refers to the immediate previous column.
Assert(prgocs[icol].m_icolID <= icol);
hvoCurBase = rghvoBaseIds[prgocs[icol].m_icolID - 1];
}
switch (prgocs[icol].m_oct)
{
default:
Assert(false);
ThrowHr(WarnHr(E_UNEXPECTED));
case koctInt:
CheckSqlRc(SQLGetData(hstmt, (unsigned short)(icol + 1), SQL_C_SLONG, &nVal, 4, NULL));
CacheIntProp(hvoCurBase, prgocs[icol].m_tag, nVal);
break;
case koctUnicode:
ReadUnicode(hstmt, icol + 1, rgchData, kcchMaxData,
vchData, prgchData, cchData);
CacheUnicodeProp(hvoCurBase, prgocs[icol].m_tag, prgchData, cchData);
break;
case koctString:
case koctMlsAlt:
case koctMltAlt:
// Next column must give format; both are for the same property
ReadUnicode(hstmt, icol + 1, rgchData, kcchMaxData,
vchData, prgchData, cchData);
if (koctMltAlt != prgocs[icol].m_oct)
{
Assert(icol < cocs - 1 && prgocs[icol + 1].m_oct == koctFmt);
Assert(prgocs[icol].m_tag == prgocs[icol + 1].m_tag);
// Leave the data in prgchData and cchData, to be processed next iteration
// when we read the format.
break;
}
// A MS alt without a FMT column, use the specified writing system both for the string
// formatting and to indicate the alternative.
CheckHr(qtsf->MakeStringRgch(prgchData, cchData, prgocs[icol].m_ws, &qtssVal));
CacheStringAlt(hvoCurBase, prgocs[icol].m_tag,
prgocs[icol].m_ws, qtssVal);
break;
case koctFmt:
// Previous column must be string or multistring; we have already checked same tag.
Assert(icol > 0 &&
(prgocs[icol - 1].m_oct == koctString || prgocs[icol - 1].m_oct == koctMlsAlt));
ReadBinary(hstmt, icol + 1, rgbData, kcbMaxData,
vbData, prgbData, cbData);
int cbDataInt;
cbDataInt = cbData;
int cchDataInt;
cchDataInt = cchData;
if (cchDataInt == 0 && cbDataInt == 0)
CheckHr(qtsf->MakeStringRgch(NULL, 0, prgocs[icol - 1].m_ws, &qtssVal));
else
CheckHr(qtsf->DeserializeStringRgch(prgchData, &cchDataInt, prgbData,
&cbDataInt, &qtssVal));
if (prgocs[icol - 1].m_oct == koctString)
{
CacheStringProp(hvoCurBase, prgocs[icol].m_tag, qtssVal);
}
else
{
CacheStringAlt(hvoCurBase, prgocs[icol].m_tag,
prgocs[icol - 1].m_ws, qtssVal);
}
break;
case koctObj:
case koctBaseId:
long nIndicator;
CheckSqlRc(SQLGetData(hstmt, (unsigned short)(icol + 1), SQL_C_SLONG,
&hvoVal, 4, &nIndicator));
// Treat null as zero.
if (nIndicator == SQL_NULL_DATA)
hvoVal = 0;
if (prgocs[icol].m_oct == koctObj)
CacheObjProp(hvoCurBase, prgocs[icol].m_tag, hvoVal);
rghvoBaseIds[icol] = hvoVal;
break;
case koctObjVec:
CheckSqlRc(SQLGetData(hstmt, (unsigned short)(icol + 1), SQL_C_SLONG,
&hvoVal, 4, NULL));
rghvoBaseIds[icol] = hvoVal;
// See if there has been a change in the base column, if so, record value and
// start a new one.
if (icolVec < 0)
{
// First iteration, ignore previous object
icolVec = icol;
hvoVecBase = hvoCurBase;
}
else
{
// Only one vector column allowed!
Assert(icolVec == icol);
if (hvoVecBase != hvoCurBase)
{
// Started a new vector! Record the old one
CacheVecProp(hvoVecBase, prgocs[icolVec].m_tag, vhvo.Begin(),
vhvo.Size());
// clear the list out and note new base object
vhvo.Clear();
hvoVecBase = hvoCurBase;
}
}
vhvo.Push(hvoVal);
break;
case koctTtp:
ReadBinary(hstmt, icol + 1, rgbData, kcbMaxData,
vbData, prgbData, cbData);
if (cbData > 0) // otherwise field is null, cache nothing
{
cbDataInt = cbData;
ITsTextPropsPtr qttp;
qtpf->DeserializePropsRgb(prgbData, &cbDataInt, &qttp);
CacheUnknown(hvoCurBase, prgocs[icol].m_tag, qttp);
}
break;
}
}
// Stop if we have processed the requested number of rows.
nrows++;
if (nrows >= crowMax)
break;
}
// If we are processing a vector, we need to fill in the last occurrence
if (icolVec >= 0)
{
CacheVecProp(hvoVecBase, prgocs[icolVec].m_tag, vhvo.Begin(),
vhvo.Size());
}
}
/*----------------------------------------------------------------------------------------------
This is the method for displaying the name of a single reference. This view shows the
name for an RnGenericRec consisting of the type of record, hyphen, title, hyphen,
creation date. "Subevent - Fishing for pirana - 3/22/2001"
@param pvwenv Pointer to the view environment.
@param hvo The id of the object we are displaying.
@param frag Identifies the part of the view we are currently displaying.
@return HRESULT indicating success (S_OK), or failure (E_FAIL).
----------------------------------------------------------------------------------------------*/
STDMETHODIMP CleRecVc::Display(IVwEnv * pvwenv, HVO hvo, int frag)
{
BEGIN_COM_METHOD;
ChkComArgPtr(pvwenv);
Assert(false); // Is this needed for poss lists?
switch (frag)
{
case kfrRefName:
case kfrListName:
{
SmartBstr bstrClass = L"UnLoaded";
ITsStringPtr qtss;
ITsStringPtr qtssTitle;
// Make sure data is loaded.
LoadDataFor(pvwenv, hvo, frag);
AfMainWnd * pafw = AfApp::Papp()->GetCurMainWnd();
AssertPtr(pafw);
AfLpInfo * plpi = pafw->GetLpInfo();
AssertPtr(plpi);
AfDbInfo * pdbi = plpi->GetDbInfo();
AssertPtr(pdbi);
#define HYPERLINK_CHANGE
#ifdef HYPERLINK_CHANGE
// Update the string with the new object.
GUID uid;
if (!pdbi->GetGuidFromId(hvo, uid))
ReturnHr(E_FAIL);
StrUni stuData;
OLECHAR * prgchData;
// Make large enough for a guid plus the type character at the start.
stuData.SetSize(isizeof(GUID) / isizeof(OLECHAR) + 1, &prgchData);
*prgchData = kodtNameGuidHot;
memmove(prgchData + 1, &uid, isizeof(uid));
ITsPropsFactoryPtr qtpf;
ITsPropsBldrPtr qtpb;
ITsTextPropsPtr qttp;
ITsStrFactoryPtr qtsf;
qtpf.CreateInstance(CLSID_TsPropsFactory);
CheckHr(qtpf->GetPropsBldr(&qtpb));
CheckHr(qtpb->SetIntPropValues(ktptWs, ktpvDefault, pdbi->UserWs()));
CheckHr(qtpb->SetStrPropValue(ktptObjData, stuData.Bstr()));
CheckHr(qtpb->GetTextProps(&qttp));
qtsf.CreateInstance(CLSID_TsStrFactory);
OLECHAR chObj = kchObject;
CheckHr(qtsf->MakeStringWithPropsRgch(&chObj, 1, qttp, &qtss));
CheckHr(pvwenv->OpenSpan());
// REVIEW KenZ(RandyR) Whey are DN flids in this app?
int flid = kflidRnGenericRec_Title;
CheckHr(pvwenv->NoteDependency(&hvo, &flid, 1));
CheckHr(pvwenv->AddString(qtss)); // The class name.
CheckHr(pvwenv->CloseSpan());
#else // !HYPERLINK_CHANGE
int clid;
HVO hvoOwn;
int64 ntim;
int ws = pdbi->UserWs();
ISilDataAccessPtr qsda;
CheckHr(pvwenv->get_DataAccess(&qsda));
AssertPtr(qsda);
CheckHr(qsda->get_IntProp(hvo, kflidCmObject_Class, &clid));
CheckHr(qsda->get_ObjectProp(hvo, kflidCmObject_Owner, &hvoOwn));
// REVIEW KenZ(RandyR) Whey are DN flids in this app?
CheckHr(qsda->get_TimeProp(hvo, kflidRnGenericRec_DateCreated, &ntim));
CheckHr(qsda->get_StringProp(hvo, kflidRnGenericRec_Title, &qtssTitle));
int stid;
// Sharon! Not needed?
// if (clid == kclidRnEvent)
// {
// if (plpi->GetRnId() == hvoOwn)
// stid = kstidEvent;
// else
// stid = kstidSubevent;
// }
// else if (clid == kclidRnAnalysis)
// {
// if (plpi->GetRnId() == hvoOwn)
// stid = kstidAnalysis;
// else
// stid = kstidSubanalysis;
// }
StrUni stu(stid);
StrUni stuSep(kstidSpHyphenSp);
ITsStrFactoryPtr qtsf;
qtsf.CreateInstance(CLSID_TsStrFactory);
CheckHr(qtsf->MakeStringRgch(stu.Chars(), stu.Length(), ws, &qtss));
CheckHr(pvwenv->OpenSpan());
CheckHr(pvwenv->AddString(qtss)); // The class name.
CheckHr(qtsf->MakeStringRgch(stuSep.Chars(), stuSep.Length(), ws, &qtss));
CheckHr(pvwenv->AddString(qtss)); // The separator
//CheckHr(pvwenv->AddString(qtssTitle)); // The title.
// The following gives the title of the owning object instead of the ref.
CheckHr(pvwenv->AddStringProp(kflidRnGenericRec_Title, this)); // The title.
CheckHr(pvwenv->AddString(qtss)); // The separator
// Leave the date blank if a date doesn't exist.
if (ntim)
{
// Convert the date to a system date.
SilTime tim = ntim;
SYSTEMTIME stim;
stim.wYear = (unsigned short) tim.Year();
stim.wMonth = (unsigned short) tim.Month();
stim.wDay = (unsigned short) tim.Date();
// Then format it to a time based on the current user locale.
char rgchDate[50]; // Tuesday, August 15, 2000 mardi 15 août 2000
::GetDateFormat(LOCALE_USER_DEFAULT, DATE_SHORTDATE, &stim, NULL, rgchDate, 50);
stu = rgchDate;
CheckHr(qtsf->MakeStringRgch(stu.Chars(), stu.Length(), ws, &qtss));
CheckHr(pvwenv->AddString(qtss)); // The date.
}
CheckHr(pvwenv->CloseSpan());
#endif // HYPERLINK_CHANGE
break;
}
}
return S_OK;
END_COM_METHOD(g_fact2, IID_IVwViewConstructor)
}
/*----------------------------------------------------------------------------------------------
Do the main loop of looking through all fields in the database that may include
monolingual or multilingual strings.
----------------------------------------------------------------------------------------------*/
void DbStringCrawler::DoAll(int stid1, int stid2, bool fTrans, const OLECHAR * pszIdsTable)
{
if (fTrans)
{
m_qodc.Clear(); // Can't have a command open when we start a transaction.
BeginTrans();
CreateCommand();
}
StrUni stuCmd;
ComBool fMoreRows;
ComBool fIsNull;
unsigned long cbSpaceTaken;
// Get the version number
int nVer;
stuCmd = L"select DbVer from version$";
CheckHr(m_qodc->ExecCommand(stuCmd.Bstr(), knSqlStmtSelectWithOneRowset));
CheckHr(m_qodc->GetRowset(0));
CheckHr(m_qodc->NextRow(&fMoreRows));
CheckHr(m_qodc->GetColValue(1, reinterpret_cast <BYTE *>(&nVer), sizeof(int),
&cbSpaceTaken, &fIsNull, 0));
int hobj = 0;
int flid = 0;
int encStr;
Vector<byte> vbFmt;
int cbFmt;
int ieFix;
Vector<int> vflidFix;
Vector<int> vhobjFix;
Vector<int> vwsFix;
Vector<Vector<byte> > vvbFmtFix;
ComVector<ITsTextProps> vqttp;
Vector<int> vich;
int cpttp;
ITsPropsFactoryPtr qtpf;
qtpf.CreateInstance(CLSID_TsPropsFactory);
StrUni stuMsg;
if (m_qadvi3)
{
stuMsg.Load(stid1);
m_qadvi3->put_Message(stuMsg.Bstr());
}
// Review (SharonC): Does getting the count of the query results slow things down too much?
// 1. Scan all multilingual formatted strings for embedded runs in the specified
// writing system.
// 1a. Regular multilingual strings: MultiStr
int cRows;
if (m_fExactCount && m_qadvi3)
{
stuCmd.Format(L"SELECT COUNT(*) FROM MultiStr$ a");
if (pszIdsTable != NULL)
stuCmd.FormatAppend(L" JOIN %s b ON b.ObjId = a.Obj", pszIdsTable);
CheckHr(m_qodc->ExecCommand(stuCmd.Bstr(), knSqlStmtSelectWithOneRowset));
CheckHr(m_qodc->GetRowset(0));
CheckHr(m_qodc->NextRow(&fMoreRows));
CheckHr(m_qodc->GetColValue(1, reinterpret_cast<BYTE *>(&cRows),
isizeof(int), &cbSpaceTaken, &fIsNull, 0));
}
/*----------------------------------------------------------------------------------------------
Crawl through the database and rename/delete the given styles.
----------------------------------------------------------------------------------------------*/
STDMETHODIMP FwDbMergeStyles::Process(DWORD hWnd)
{
BEGIN_COM_METHOD;
Assert(m_vstuOldNames.Size() == m_vstuNewNames.Size());
if (!m_hvoRoot)
return E_UNEXPECTED;
if (!m_pclsidApp)
return E_UNEXPECTED;
if (LogFile())
{
ULONG cbLog;
StrAnsi staLog;
staLog.Format("Changing style names in %S (%S)%n",
DbName().Chars(), ServerName().Chars());
LogFile()->Write(staLog.Chars(), staLog.Length(), &cbLog);
}
m_qprog->DoModeless((HWND)hWnd);
StrUni stuMsg(kstidChgStyleLabel);
m_qprog->put_Title(stuMsg.Bstr());
ResetConnection();
BeginTrans();
CreateCommand();
SetPercentComplete(0);
// We want to affect only a subset of the formatting and style information in the database,
// based on which program is currently running, since different programs may be using
// different sets of styles. This information is derived from m_hvoRoot and m_pclsidApp.
// (Unfortunately, there's no way to derive one of these values from the other one.) The
// current scheme works for Data Notebook, List Editor, TE, and LexText. Additional
// programs may introduce even more complexities.
// 1. Find all the owners of StStyle objects. This should match up to LangProject (Data
// Notebook and List Editor), Scripture (TE), or LexDb (LexText).
// 2. If an owner equals m_hvoRoot, then only those objects owned by m_hvoRoot have the
// string and paragraph formatting fixed. Except that LexText also wants to fix all the
// Text objects owned by the LangProject in addition to all the objects owned by the
// LexDb, so those have to be added to the collection of objects.
// 3. If none of the owners equals m_hvoRoot, we must be dealing with Data Notebook or List
// Editor, which share a common set of styles owned by the LangProject itself. In
// this case, we want all the objects owned by the LangProject except those owned by
// another owner of styles (or the LangProject Text objects, since those use the
// LexText styles even though they're not owned by the root object). (This isn't quite
// right if either TE or LexText does not actually own any styles yet, but we won't worry
// about this nicety.)
// 4. After creating a temp table containing just the ids of those objects of interest, we
// can then process all the relevant string formatting (via a string crawler) and
// paragraph StyleRules (later in this method)
// 5. Finally, we may need to fix the Style fields of the relevant UserViewField objects.
// These are limited by the psclsidApp argument, since the UserView objects are specific
// to specific applications. If pssclidApp indicates either Data Notebook or List
// Editor, then UserViewField objects belonging to both of those programs are fixed.
// Otherwise, only those UserViewField objects belonging to the specific program
// identified by psclsidApp are fixed.
ComBool fMoreRows;
UINT cbSpaceTaken;
ComBool fIsNull;
int hobj = 0;
int clid = 0;
bool fFixOwned = false;
int clidOwned = 0;
int hvoLangProj = 0;
Vector<int> vhvoOwners;
Vector<int> vclidOwners;
Vector<int> vhvoTexts;
StrUni stuCmd;
stuCmd.Format(L"SELECT DISTINCT c.Owner$, co.Class$ "
L"FROM CmObject c "
L"JOIN CmObject co on co.Id = c.Owner$ "
L"WHERE c.Class$ = %d",
kclidStStyle);
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtSelectWithOneRowset));
CheckHr(GetOleDbCommand()->GetRowset(0));
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
while (fMoreRows)
{
CheckHr(GetOleDbCommand()->GetColValue(1, reinterpret_cast <BYTE *>(&hobj),
isizeof(hobj), &cbSpaceTaken, &fIsNull, 0));
CheckHr(GetOleDbCommand()->GetColValue(2, reinterpret_cast <BYTE *>(&clid),
isizeof(clid), &cbSpaceTaken, &fIsNull, 0));
if (hobj == m_hvoRoot)
{
fFixOwned = true;
clidOwned = clid;
}
else if (clid == kclidLangProject)
{
hvoLangProj = hobj;
}
else
{
vhvoOwners.Push(hobj);
vclidOwners.Push(clid);
}
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
}
Assert(hvoLangProj != 0);
// This may not be defined in any of our header files.
#ifndef kclidLexDb
#define kclidLexDb 5005
#endif
if (!fFixOwned || clidOwned == kclidLexDb)
{
// We need the set of LangProject_Texts objects to include or exclude.
stuCmd.Format(L"SELECT Dst FROM LangProject_Texts WHERE Src = %d", hvoLangProj);
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(),
knSqlStmtSelectWithOneRowset));
CheckHr(GetOleDbCommand()->GetRowset(0));
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
while (fMoreRows)
{
CheckHr(GetOleDbCommand()->GetColValue(1, reinterpret_cast <BYTE *>(&hobj),
isizeof(hobj), &cbSpaceTaken, &fIsNull, 0));
vhvoTexts.Push(hobj);
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
}
}
// Note that dbo.fnGetOwnedObjects$() returns the root object as the first row.
stuCmd.Format(L"CREATE TABLE #OwnedObjIdsTbl%n"
L"(%n"
L" ObjId int not null%n"
L")%n"
L"CREATE CLUSTERED INDEX #OwnedObjIdsTblObjId ON #OwnedObjIdsTbl ([ObjId])%n");
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtNoResults));
const OLECHAR * kpszDefTableFmt =
L"INSERT INTO #OwnedObjIdsTbl%n"
L"SELECT ObjId%n"
L"FROM dbo.fnGetOwnedObjects$('%d', null, 0, 0, 1, null, 0)";
if (fFixOwned)
{
stuCmd.Format(kpszDefTableFmt, m_hvoRoot);
stuCmd.FormatAppend(L";%n");
if (vhvoTexts.Size())
{
stuCmd.FormatAppend(
L"INSERT INTO #OwnedObjIdsTbl%n"
L"SELECT ObjId%n"
L"FROM dbo.fnGetOwnedObjects$('");
for (int ihvo = 0; ihvo < vhvoTexts.Size(); ++ihvo)
if (ihvo == 0)
stuCmd.FormatAppend(L"%d", vhvoTexts[ihvo]);
else
stuCmd.FormatAppend(L",%d", vhvoTexts[ihvo]);
stuCmd.FormatAppend(L"', null, 0, 0, 1, null, 0);");
}
}
else
{
/*
POSSIBLE SPEED ENHANCEMENT
--------------------------
SELECT co.Id
FROM CmObject co
WHERE co.Owner$=1 AND co.OwnFlid$ NOT IN (6001006, 6001014, 6001040)
gives a list of ids which own what we want to look through. This could then be
handled by the following query, which runs in one-half to one-third of the time
required by the current code.
SELECT 1 UNION SELECT ObjId FROM dbo.fnGetOwnedObjects$('2,54728', null, 0, 0, 1, null, 0)
whether the C++ code or the SQL code should put together the XML string is a good
question.
*/
// REVIEW (SteveMiller): The temp tables below just slow things down.
stuCmd.Clear();
if (vhvoOwners.Size() || vhvoTexts.Size())
{
stuCmd.FormatAppend(L"CREATE TABLE #tblUnwanted ( ObjId int not null );%n");
stuCmd.FormatAppend(L"INSERT INTO #tblUnwanted%n");
stuCmd.FormatAppend(L"SELECT ObjId%n");
stuCmd.FormatAppend(L"FROM dbo.fnGetOwnedObjects$('");
for (int ihvo = 0; ihvo < vhvoOwners.Size(); ++ihvo)
if (ihvo == 0)
stuCmd.FormatAppend(L"%d", vhvoOwners[ihvo]);
else
stuCmd.FormatAppend(L",%d", vhvoOwners[ihvo]);
for (int ihvo = 0; ihvo < vhvoTexts.Size(); ++ihvo)
if (vhvoOwners.Size() < 0)
// I don't think we can have an ownerless text, but hey...
stuCmd.FormatAppend(L"%d", vhvoTexts[ihvo]);
else
stuCmd.FormatAppend(L",%d", vhvoTexts[ihvo]);
stuCmd.FormatAppend(L"',null,0,0,1,null,0);%n");
}
stuCmd.FormatAppend(kpszDefTableFmt, hvoLangProj);
if (vhvoOwners.Size() || vhvoTexts.Size())
{
stuCmd.FormatAppend(L"WHERE ObjId NOT IN (SELECT ObjId FROM #tblUnwanted);%n");
stuCmd.FormatAppend(L"DROP TABLE #tblUnwanted");
}
stuCmd.FormatAppend(L";%n"); // terminate for Firebird
}
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtNoResults));
// Do the standard stuff for monolingual and multilingual strings.
DoAll(kstidChgStylePhaseOne, kstidChgStylePhaseTwo,
false, // don't create a new transaction--this method handles it
L"#OwnedObjIdsTbl");
// Fix all the StyleRules of instances of StPara.
stuMsg.Load(kstidChgStylePhaseThree);
m_qprog->put_Message(stuMsg.Bstr());
int nPercent = 0;
SetPercentComplete(nPercent);
Vector<int> vhobjFix;
Vector<Vector<byte> > vvbFmtFix;
vhobjFix.Clear();
vvbFmtFix.Clear();
Vector<byte> vbFmt;
int cbFmt;
ITsPropsFactoryPtr qtpf;
qtpf.CreateInstance(CLSID_TsPropsFactory);
int cRows;
StrUni stuCmdCnt;
stuCmdCnt.Format(L"SELECT COUNT(*) FROM StPara a%n"
L"JOIN #OwnedObjIdsTbl b on b.ObjId = a.Id%n"
L"WHERE a.StyleRules IS NOT NULL",
m_hvoRoot);
CheckHr(GetOleDbCommand()->ExecCommand(stuCmdCnt.Bstr(),
knSqlStmtSelectWithOneRowset));
CheckHr(GetOleDbCommand()->GetRowset(0));
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
CheckHr(GetOleDbCommand()->GetColValue(1, reinterpret_cast <BYTE *>(&cRows),
isizeof(hobj), &cbSpaceTaken, &fIsNull, 0));
stuCmd.Format(L"SELECT a.Id, a.StyleRules FROM StPara a%n"
L"JOIN #OwnedObjIdsTbl b on b.ObjId = a.Id%n"
L"WHERE a.StyleRules IS NOT NULL",
m_hvoRoot);
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtSelectWithOneRowset));
CheckHr(GetOleDbCommand()->GetRowset(0));
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
int iRow = 0;
ComVector<ITsTextProps> vqttp;
vqttp.Resize(1);
while (fMoreRows)
{
CheckHr(GetOleDbCommand()->GetColValue(1, reinterpret_cast <BYTE *>(&hobj),
isizeof(hobj), &cbSpaceTaken, &fIsNull, 0));
CheckHr(GetOleDbCommand()->GetColValue(2,
reinterpret_cast <BYTE *>(vbFmt.Begin()), vbFmt.Size(), &cbSpaceTaken, &fIsNull,
0));
cbFmt = cbSpaceTaken;
if (cbFmt >= vbFmt.Size())
{
vbFmt.Resize(cbFmt + 1);
CheckHr(GetOleDbCommand()->GetColValue(2,
reinterpret_cast <BYTE *>(vbFmt.Begin()),
vbFmt.Size(), &cbSpaceTaken, &fIsNull, 0));
cbFmt = cbSpaceTaken;
}
vbFmt.Resize(cbFmt);
ITsTextPropsPtr qttp;
bool fModify = false;
int cb = vbFmt.Size();
CheckHr(qtpf->DeserializePropsRgb(vbFmt.Begin(), &cb, (ITsTextProps **)&qttp));
// use a vector with exactly 1 item
vqttp[0] = qttp;
// Note: using "Normal" doesn't work all the time. For more complex scenarios where the
// default style depends on the context of the deleted style, a replace should be done
// instead of a delete. See FwStylesDlg.DeleteAndRenameStylesInDB() in FwStylesDlg.cs.
fModify = ProcessFormatting(vqttp, g_pszwStyleNormal);
if (fModify)
{
vhobjFix.Push(hobj);
int cbNeeded;
HRESULT hr;
CheckHr(hr = vqttp[0]->SerializeRgb(vbFmt.Begin(), vbFmt.Size(), &cbNeeded));
if (hr == S_FALSE)
{
vbFmt.Resize(cbNeeded);
hr = vqttp[0]->SerializeRgb(vbFmt.Begin(), vbFmt.Size(), &cbNeeded);
}
vbFmt.Resize(cbNeeded);
vvbFmtFix.Push(vbFmt);
}
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
iRow++;
SetPercentComplete((iRow * 50) / cRows);
}
int ceFix = vhobjFix.Size();
SetPercentComplete(50);
for (int ieFix = 0; ieFix < ceFix; ++ieFix)
{
stuCmd.Format(L"UPDATE StPara SET StyleRules=? WHERE [Id] = %d", vhobjFix[ieFix]);
// Set the parameter and execute the command.
CheckHr(GetOleDbCommand()->SetParameter(1, DBPARAMFLAGS_ISINPUT, NULL,
DBTYPE_BYTES, reinterpret_cast<BYTE *>(vvbFmtFix[ieFix].Begin()),
vvbFmtFix[ieFix].Size()));
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtNoResults));
SetPercentComplete(50 + ((ieFix * 50) / ceFix));
}
SetPercentComplete(100);
stuCmd.Assign(L"DROP TABLE #OwnedObjIdsTbl");
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtNoResults));
// Fix style names in the view specs.
// SQL gives us the power to just rename all items in one query. But that
// won't correctly handle the situation of, for instance, renaming A to B, B to C, and
// C to A. So we fix one item at a time and then update the database.
static const GUID clsidNotebook = // {39886581-4DD5-11D4-8078-0000C0FB81B5}
{ 0x39886581, 0x4DD5, 0x11D4, { 0x80, 0x78, 0x00, 0x00, 0xC0, 0xFB, 0x81, 0xB5 } };
static GUID clsidListEditor = // {5EA62D01-7A78-11D4-8078-0000C0FB81B5}
{ 0x5EA62D01, 0x7A78, 0x11D4, { 0x80, 0x78, 0x00, 0x00, 0xC0, 0xFB, 0x81, 0xB5 } };
StrUni stuBaseCmd;
stuBaseCmd.Format(L"%nFROM UserViewField a%n"
L"JOIN UserViewRec_Fields uf on uf.Dst = a.Id%n"
L"JOIN UserView_Records ur on ur.Dst = uf.Src%n"
L"JOIN UserView uv on uv.Id = ur.Src%n"
L"WHERE a.Style IS NOT NULL AND");
if (*m_pclsidApp == clsidNotebook || *m_pclsidApp == clsidListEditor)
{
Assert(!fFixOwned);
stuBaseCmd.FormatAppend(L"%n\tuv.App in ('%g','%g')", &clsidNotebook, &clsidListEditor);
}
else
{
Assert(fFixOwned);
stuBaseCmd.FormatAppend(L" uv.App = '%g'", m_pclsidApp);
}
stuMsg.Load(kstidChgStylePhaseFour);
m_qprog->put_Message(stuMsg.Bstr());
SetPercentComplete(0);
OLECHAR rgch[1024];
vhobjFix.Clear();
Vector<StrUni> vstuFix;
stuCmdCnt.Format(L"SELECT COUNT(*)%s", stuBaseCmd.Chars());
CheckHr(GetOleDbCommand()->ExecCommand(stuCmdCnt.Bstr(),
knSqlStmtSelectWithOneRowset));
CheckHr(GetOleDbCommand()->GetRowset(0));
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
CheckHr(GetOleDbCommand()->GetColValue(1, reinterpret_cast <BYTE *>(&cRows),
isizeof(hobj), &cbSpaceTaken, &fIsNull, 0));
stuCmd.Format(L"SELECT a.Id, a.Style%s", stuBaseCmd.Chars());
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtSelectWithOneRowset));
CheckHr(GetOleDbCommand()->GetRowset(0));
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
iRow = 0;
while (fMoreRows)
{
CheckHr(GetOleDbCommand()->GetColValue(1, reinterpret_cast <BYTE *>(&hobj),
isizeof(hobj), &cbSpaceTaken, &fIsNull, 0));
CheckHr(GetOleDbCommand()->GetColValue(2, reinterpret_cast <BYTE *>(*&rgch),
isizeof(rgch), &cbSpaceTaken, &fIsNull, 0));
int cchw = cbSpaceTaken / isizeof(OLECHAR);
StrUni stuOld(rgch, cchw);
StrUni stuNew;
if (Delete(stuOld))
{
vstuFix.Push(L"");
vhobjFix.Push(hobj);
}
else if (Rename(stuOld, stuNew))
{
vstuFix.Push(stuNew);
vhobjFix.Push(hobj);
}
CheckHr(GetOleDbCommand()->NextRow(&fMoreRows));
iRow++;
SetPercentComplete((iRow * 50) / cRows);
}
SetPercentComplete(50);
Assert(vhobjFix.Size() == vstuFix.Size());
ceFix = vstuFix.Size();
for (int ieFix = 0; ieFix < ceFix; ieFix++)
{
if (vstuFix[ieFix] == L"")
{
stuCmd.Format(L"UPDATE UserViewField SET Style = NULL where [Id] = '%d'",
vhobjFix[ieFix]);
}
else
{
StrUtil::NormalizeStrUni(vstuFix[ieFix], UNORM_NFD);
stuCmd.Format(L"UPDATE UserViewField SET Style = '%s' where [Id] = '%d'",
vstuFix[ieFix].Chars(), vhobjFix[ieFix]);
}
CheckHr(GetOleDbCommand()->ExecCommand(stuCmd.Bstr(), knSqlStmtNoResults));
SetPercentComplete(50 + ((ieFix * 50) / ceFix));
}
SetPercentComplete(100);
CommitTrans();
Terminate(m_hvoRoot);
if (m_qprog)
m_qprog->DestroyHwnd();
END_COM_METHOD(g_fact, IID_IFwDbMergeStyles);
}