// ---------------------------------------------------------------------------- // CWebClientContainer::AddToHeaderWindowL() // Add a single line of text to the header window. // ---------------------------------------------------------------------------- // void CWebClientContainer::AddToHeaderWindowL( const TDesC& aText ) { // Append aText to header window with line break CRichText* text = iHeaderWindow->RichText(); text->InsertL( text->DocumentLength(), aText ); text->InsertL( text->DocumentLength(), CEditableText::ELineBreak ); iHeaderWindow->HandleTextChangedL(); }
EXPORT_C void CMsvTestUtils::WriteBodyDataL(TMsvId aId, const TFileName& aFilepath, CMsvStore& fileStore, TBool aReplace) { CParaFormatLayer* paraLayer = CParaFormatLayer::NewL(); CCharFormatLayer* charLayer = CCharFormatLayer::NewL(); CRichText* body = CRichText::NewL(paraLayer,charLayer); fileStore.RestoreBodyTextL(*body); HBufC* pBodyText = HBufC::NewLC(body->DocumentLength()+(body->DocumentLength()/70)+1); TPtr pBody = pBodyText->Des(); body->Extract(pBody, 0); RFile file; TFileName filename(aFilepath); filename.Append(KFileNameBodies); TInt err = KErrNone; if (aReplace) err = file.Replace(iFs, filename, EFileShareAny | EFileStreamText | EFileWrite); else err = file.Open(iFs, filename, EFileShareAny | EFileStreamText | EFileWrite); if(err==KErrNotFound) // file does not exist - create it err=file.Create(iFs, filename, EFileShareAny | EFileStreamText | EFileWrite); TInt offset=0; iRTest(file.Seek(ESeekEnd, offset)==KErrNone); TBuf<100> buf; buf.Zero(); buf.AppendFormat(_L("*** %d *************** RichText Data ***************\n"), aId); buf.AppendFormat(_L("Size >>> %d\n"), body->DocumentLength()); WriteToFileL(file, buf); RemoveRichtextFormating(pBody); WriteToFileL(file, pBody); buf.Zero(); buf.AppendFormat(_L("\n********************* end of Body ***********************\n")); WriteToFileL(file, buf); CleanupStack::PopAndDestroy(); // pBodyText file.Close(); delete paraLayer; delete charLayer; delete body; }
// ---------------------------------------------------------------------------- // CWebClientContainer::AddToStatusWindowL() // Add a single line of text to the status window. // ---------------------------------------------------------------------------- // void CWebClientContainer::AddToStatusWindowL( const TDesC& aText ) { // Append aText to status window with line break CRichText* text = iStatusWindow->RichText(); text->InsertL( text->DocumentLength(), aText ); text->InsertL( text->DocumentLength(), CEditableText::ELineBreak ); iStatusWindow->HandleTextChangedL(); iStatusWindow->MoveCursorL( TCursorPosition::EFLineDown, EFalse ); }
// ----------------------------------------------------------------------------- // CWPMessage::StoreMsgL // ----------------------------------------------------------------------------- // void CWPMessage::StoreMsgL( TInt aResource ) { FLOG( _L( "CWPMessage::StoreMsgL(aResource)" ) ); // create an invisible blank entry TMsvEntry entry; PrepareEntryLC( entry ); // details on cleanup stack entry.iMtm = KUidMsgTypeSMS; // Store entry in inbox CMsvEntry* msvEntry = iSession->GetEntryL(KMsvGlobalInBoxIndexEntryId); CleanupStack::PushL(msvEntry); msvEntry->CreateL(entry); msvEntry->Session().CleanupEntryPushL(entry.Id()); msvEntry->SetEntryL(entry.Id()); // Save the message body CMsvStore* store = msvEntry->EditStoreL(); CleanupStack::PushL(store); CParaFormatLayer* paraFormat = CParaFormatLayer::NewL(); CleanupStack::PushL( paraFormat ); CCharFormatLayer* charFormat = CCharFormatLayer::NewL(); CleanupStack::PushL( charFormat ); CRichText* body = CRichText::NewL( paraFormat, charFormat ); CleanupStack::PushL( body ); HBufC* text = LoadStringLC( aResource ); body->InsertL( body->DocumentLength(), *text ); store->StoreBodyTextL( *body ); // Store the actual message for post-mortem analysis iMessage->StoreL( *store ); // Save the SMS header and create a description field CSmsHeader* header = CSmsHeader::NewL( CSmsPDU::ESmsDeliver, *body ); CleanupStack::PushL( header ); TBuf<KSmsDescriptionLength> description; CSmsGetDetDescInterface* smsPlugin = CSmsGetDetDescInterface::NewL(); CleanupStack::PushL( smsPlugin ); smsPlugin->GetDescription( header->Message(), description ); CleanupStack::PopAndDestroy( smsPlugin ); entry.iDescription.Set( description ); header->StoreL( *store ); store->CommitL(); CleanupStack::PopAndDestroy( 5 ); // header, text, body, charformat, paraFormat // Complete processing the message PostprocessEntryL( *msvEntry, entry ); CleanupStack::PopAndDestroy(); //store msvEntry->Session().CleanupEntryPop(); //entry CleanupStack::PopAndDestroy(2); //details, msvEntry }
// ---------------------------------------------------------------------------- // CWebClientContainer::AddToSourceWindowL() // Add text to Sourcewindow. No formatting is provided. // ---------------------------------------------------------------------------- // void CWebClientContainer::AddToSourceWindowL( const TDesC8& aText ) { // Convert 8-bit aText to 16-bit and append it to end of Source window HBufC* tempBuf = HBufC::NewL( aText.Length() ); CleanupStack::PushL( tempBuf ); tempBuf->Des().Copy( aText ); CRichText* text = iSourceWindow->RichText(); text->InsertL( text->DocumentLength(), *tempBuf ); iSourceWindow->HandleTextChangedL(); CleanupStack::PopAndDestroy( tempBuf ); }
/** @SYMTestCaseID SYSLIB-FORMA-UT-1899 @SYMTestCaseDesc This function runs the scrolling tests. It sets up the documents then calls the ScrollTestL function to scroll through them. @SYMTestPriority High @SYMTestActions The following paragraphs are tested by scrolling up and down through them: A LTR paragraph containing a few lines of RTL text A LTR paragraph containing less than a line of RTL text A LTR paragraph containing a portion of RTL text which is greater than the band A RTL paragraph containing a few lines of LTR text A RTL paragraph containing less than a line of LTR text A RTL paragraph containing a portion of LTR text which is greater than the band @SYMTestExpectedResults The test must not fail or panic . @SYMDEF DEF092140, DEF092139 */ void RunScrollingTestsL(CRichText& aRichText, CBandMaintainer& aMaintainer, CBandValidator& aValidator) { // set up 3 paragraphs of LTR with runs of RTL embedded in each paragraph aRichText.Reset(); test.Start(_L("Scrolling LTR document with embedded RTL")); aMaintainer.InitialiseViewL(); //LTR paragraph containing a few lines of RTL text aRichText.InsertL(aRichText.DocumentLength(), KLTRWithRTL); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); //LTR paragraph containing less than a line of RTL text aRichText.InsertL(aRichText.DocumentLength(), KLTRWithSmallRTL); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); //LTR paragraph containing a portion of RTL text which is greater than the band aRichText.InsertL(aRichText.DocumentLength(), KLTRWithLargeRTL); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); ScrollingTestL(aMaintainer, aValidator); // 3 paragraphs of RTL with runs of LTR embedded in each paragraph aRichText.Reset(); test.Next(_L("Scrolling RTL document with embedded LTR")); aMaintainer.InitialiseViewL(); //RTL paragraph containing a few lines of LTR text aRichText.InsertL(aRichText.DocumentLength(), KRTLWithLTR); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); //RTL paragraph containing less than a line of LTR text aRichText.InsertL(aRichText.DocumentLength(), KRTLWithSmallLTR); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); //RTL paragraph containing a portion of LTR text which is greater than the band aRichText.InsertL(aRichText.DocumentLength(), KRTLWithLargeLTR); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); ScrollingTestL(aMaintainer, aValidator); test.End(); }
TMsvPartList CTextMtmClient::Find(const TDesC& aTextToFind, TMsvPartList aPartList) // Find text in entry { __ASSERT_DEBUG(iMsvEntry!=NULL, gPanic(ETxtcNoCMsvEntrySet)); TBool found=EFalse; if (aPartList & KMsvMessagePartBody) { CRichText *body = &Body(); if (body != NULL) { TInt textSize = body->DocumentLength(); // Get searchable text if (textSize>0) // Symbian OS doesn't handle allocing zero byte arrays too { TText *bodyText = new TText[textSize]; if (bodyText != NULL) { // search the rich text TPtr p(bodyText,textSize,textSize); body->Extract(p); if (p.FindF( aTextToFind ) >= 0) { found = ETrue; } } delete bodyText; } } } if (aPartList & KMsvMessagePartOriginator) { if (iMsvEntry->Entry().iDetails.FindF( aTextToFind ) >= 0) { found=ETrue; } } if (aPartList & KMsvMessagePartDescription) { if (iMsvEntry->Entry().iDescription.FindF( aTextToFind ) >= 0) { found=ETrue; } } // Never searched - KMsvMessagePartAttachments, KMsvMessagePartRecipient // and KMsvMessagePartDate return found; }
/** ExecuteActionL Obtains the parameters for the test action. Get the Message Id at given index. The Message Id is stored as output parameters of this Test Action @internalTechnology @pre None @post None @leave System wide errors */ void CMtfTestActionSendAsSetBodyText::ExecuteActionL() { if((TestCase().TestStepResult()) == EPass) { TestCase().INFO_PRINTF2(_L("Test Action %S start..."), &KTestActionSendAsSetBodyText); // Get test action input parameters RSendAsMessage sendAsMessage = ObtainValueParameterL<RSendAsMessage>(TestCase(), ActionParameters().Parameter(0)); // Buffer type to be used for adding the body text // 0 => Set body text using Descriptor // 1 => Set body text using CRichText object (Default) TInt bufferType = ObtainValueParameterL<TInt>(TestCase(), ActionParameters().Parameter(1),1); TInt index = ObtainValueParameterL<TInt>(TestCase(), ActionParameters().Parameter(2)); // Get the body text configuration file name TPtrC fileName = TestCase().GetConfigurationFileL(CMtfConfigurationType::EMtfDataFile,index); // Create a Rich text object to store the Body text contents CPlainText::TTextOrganisation ttOrg = {CPlainText::EOrganiseByLine}; CParaFormatLayer* paraFormatLayer = CParaFormatLayer::NewL(); CleanupStack::PushL(paraFormatLayer); CCharFormatLayer* charFormatLayer = CCharFormatLayer::NewL(); CleanupStack::PushL(charFormatLayer); CRichText* bodyCRichText = CRichText::NewL(paraFormatLayer, charFormatLayer); CleanupStack::PushL(bodyCRichText); HBufC* bodyTextFileName = fileName.Alloc(); CleanupStack::PushL(bodyTextFileName); // Read the body text contents into the Rich text object bodyCRichText->ImportTextFileL(0, bodyTextFileName->Des(), ttOrg); TInt err = KErrNone; // Set body text using descriptor if( bufferType == 0 ) { // Create a heap buffer and copy the file contents TInt len1 = bodyCRichText->DocumentLength(); HBufC* buf1 = HBufC::NewL(len1); CleanupStack::PushL(buf1); TPtr fileContents = buf1->Des(); bodyCRichText->Extract(fileContents,0,(len1)); // Set the body text to the message TRAP(err, sendAsMessage.SetBodyTextL(fileContents)); if(err == KErrNone) { TestCase().INFO_PRINTF1(_L("SetBodyTextL using Descriptor was successful")); } else { TestCase().ERR_PRINTF2(_L("SetBodyTextL using Descriptor failed with error: %d"), err); TestCase().SetTestStepResult(EFail); } // destroy the temporary storage of the text CleanupStack::PopAndDestroy(buf1); } else if (bufferType == 1) { // Set body text using CRichText TRAP(err, sendAsMessage.SetBodyTextL(*bodyCRichText)); if(err == KErrNone) { TestCase().INFO_PRINTF1(_L("SetBodyTextL using Rich Text was successful")); } else { TestCase().ERR_PRINTF2(_L("SetBodyTextL using Rich Text failed with error: %d"), err); TestCase().SetTestStepResult(EFail); } } else { err = KErrArgument; TestCase().ERR_PRINTF2(_L("Incorrent input parameter: Buffer type value should be either 0 or 1. The value provided is %d"),bufferType ); TestCase().SetTestStepResult(EFail); } StoreParameterL<TInt>(TestCase(),err,ActionParameters().Parameter(3)); CleanupStack::PopAndDestroy(4); //bodyTextFileName, bodyCRichText, charFormatLayer, paraFormatLayer TestCase().INFO_PRINTF2(_L("Test Action %S completed."), &KTestActionSendAsSetBodyText); } TestCase().ActionCompletedL(*this); }
// Called by EText to scan an area of text TBool CParserList::ParseThisText(CRichText& aTextObj,TInt aStartScan,TInt aScanLength,TInt& aStartOfTags,TInt& aLength) { TBool foundSomething = EFalse; TCharFormatX format; TCharFormatXMask varies; TPtrC ptr; TInt endRange; // Scan either side of the range in case part of some tagged text was deleted. if (aStartScan > 0) { aStartScan--; aScanLength++; } if (aStartScan + aScanLength < aTextObj.DocumentLength()) aScanLength++; if (iNumberInList && aScanLength) { aStartOfTags = aStartScan + aScanLength; aLength = 0; for (TInt count = 0; count < iNumberInList; count++) { // For each parser in the list TUint tagIndex = iParserList[count]->TagIndex(); TInt pos; MParser* parser = iParserList[count]->Parser(); TInt localStartScan = aStartScan; TInt localScanLength = aScanLength; // Start by removing existing tags for this parser. This ensures // that old tags that have been invalidated by subsequent editing // are removed. Any that are still valid will be replaced. aTextObj.GetExtendedCharFormat(format, varies, localStartScan, aScanLength); if (format.iParserTag || varies.AttribIsSet(EAttParserTag)) { // At least some of the object contains a non-zero tag - go through it // Are we starting part way through a tag? aTextObj.GetExtendedCharFormat(format, varies, localStartScan, 1); if (format.iParserTag == tagIndex) { // The first char of this range has the current parsers tag // so we need to check backwards for the start of that tag for (pos = localStartScan; pos > 0; pos--) { aTextObj.GetExtendedCharFormat(format, varies, pos - 1, 1); if (format.iParserTag != tagIndex) break; } // Since we are going to remove a tag starting from here // we need to allow this area to be rescanned localScanLength += localStartScan - pos; localStartScan = pos; } // What about off the end? aTextObj.GetExtendedCharFormat(format, varies, localStartScan + localScanLength - 1, 1); if (format.iParserTag == tagIndex) { // The last char of this range has the current parsers tag // so we need to check forwards for the end of that tag pos = localStartScan + localScanLength; TInt end = aTextObj.DocumentLength(); while (pos < end) { aTextObj.GetTextAndExtendedFormat(ptr, format, pos); if (format.iParserTag != tagIndex) break; pos += ptr.Length(); } // Adjust scan length localScanLength = pos - localStartScan; } pos = localStartScan; while (pos < localStartScan + localScanLength) { // Run along the scan range aTextObj.GetTextAndExtendedFormat(ptr, format, pos); if (format.iParserTag == tagIndex) { // Remove this tag format.iParserTag = 0; varies.ClearAll(); varies.SetAttrib(EAttParserTag); TRAPD(leaveCode, aTextObj.ApplyExtendedCharFormatL(format, varies, pos, ptr.Length())); if (leaveCode==KErrNone) foundSomething = ETrue; // We are removing a tag if (aLength) { if (pos < aStartOfTags) { aLength += aStartOfTags - pos; aStartOfTags = pos; } if (pos + ptr.Length() > aStartOfTags + aLength) aLength = pos + ptr.Length() - aStartOfTags; } else { aStartOfTags = pos; aLength = ptr.Length(); } } pos += ptr.Length(); } } endRange = localStartScan + localScanLength; // For this parser, run through text looking for changes TBool allowBack = ETrue; for (;;) // Run forever { TInt localStartTag = aTextObj.DocumentLength(); TInt localTagLength = 0; TInt result = parser->ParseThisText(aTextObj, allowBack, localStartScan, localScanLength, localStartTag, localTagLength); if (!result) break; if (!allowBack && (localStartTag < localStartScan)) { OstTrace0( TRACE_DUMP, CPARSERLIST_PARSETHISTEXT, "EParserIgnoringAllowFlag" ); } __ASSERT_DEBUG(allowBack || (localStartTag >= localStartScan), Panic(EParserIgnoringAllowFlag)); TInt startNewTag = localStartTag; TInt lengthNewTag = localTagLength; aTextObj.GetExtendedCharFormat(format, varies, localStartTag, localTagLength); if (format.iParserTag || varies.AttribIsSet(EAttParserTag)) { // At least some of this area contains a non-zero tag - go through it pos = localStartTag; TBool higher = EFalse; while (pos < localStartTag + localTagLength) { aTextObj.GetTextAndExtendedFormat(ptr, format, pos); if (format.iParserTag && (MaskedTag(format.iParserTag) < MaskedTag(tagIndex))) { // A higher precedence tag is already here so we can't // insert our tag - let's see how far it goes TUint tag = format.iParserTag; // Stash tag before overwriting it TInt len = aTextObj.DocumentLength(); while (pos < len) { aTextObj.GetTextAndExtendedFormat(ptr, format, pos); if (format.iParserTag != tag) break; pos += ptr.Length(); } result = EFalse; startNewTag = pos; lengthNewTag = 0; break; } // If there aren't any higher precedence tags in here then this // will save us having to go through again if there aren't any // lower precedence tags either if (MaskedTag(format.iParserTag) >= MaskedTag(tagIndex)) higher = ETrue; pos += ptr.Length(); } if (higher) { // There are lower or equal precedence tags in this range // Do they extend back off the start? aTextObj.GetExtendedCharFormat(format, varies, localStartTag, 1); if (format.iParserTag) { // need to check backwards TUint tag = format.iParserTag; // Stash tag before overwriting it for (pos = localStartTag; pos > 0; pos--) { aTextObj.GetExtendedCharFormat(format, varies, pos - 1, 1); if (format.iParserTag != tag) break; } localTagLength += localStartTag - pos; localStartTag = pos; } // What about off the end? pos = localStartTag + localTagLength; aTextObj.GetExtendedCharFormat(format, varies, pos - 1, 1); if (format.iParserTag) { // need to check forwards TUint tag = format.iParserTag; // Stash tag before overwriting it TInt len = aTextObj.DocumentLength(); while (pos < len) { aTextObj.GetTextAndExtendedFormat(ptr, format, pos); if (format.iParserTag != tag) break; pos += ptr.Length(); } localTagLength = pos - localStartTag; } // Remove all tags in this area - they all have lower precedence format.iParserTag = 0; varies.ClearAll(); varies.SetAttrib(EAttCharLanguage); TRAPD(leaveCode, aTextObj.ApplyExtendedCharFormatL(format, varies, localStartTag, localTagLength)); if (leaveCode==KErrNone) foundSomething = ETrue; // We are removing a tag } } if (result) { // Format tag this area with tagIndex format.iParserTag = tagIndex; varies.ClearAll(); varies.SetAttrib(EAttParserTag); // Use the original length, not the possibly expanded version TRAPD(leaveCode, aTextObj.ApplyExtendedCharFormatL(format, varies, startNewTag, lengthNewTag)); if (leaveCode==KErrNone) foundSomething = ETrue; // We are applying a tag if (aLength) { if (localStartTag < aStartOfTags) { aLength += aStartOfTags - localStartTag; aStartOfTags = localStartTag; } if (localStartTag + localTagLength > aStartOfTags + aLength) aLength = localStartTag + localTagLength - aStartOfTags; } else { aStartOfTags = localStartTag; aLength = localTagLength; } } // Jump over localScanLength -= startNewTag + lengthNewTag - localStartScan; localStartScan = startNewTag + lengthNewTag; // Adjust start of next scan run if (localStartScan >= endRange) // Have we reached the end of the range yet? break; allowBack = EFalse; } } } return foundSomething; }
TMsvId TestUniDataModelVCalPlugin::CreateBIOEntryL(TDesC& aText, TBIOMessageType aMessageType) { // Ensure that we have a valid service ID to work with: TMsvId iBioServiceId; iBioServiceId = SetBIOServiceIdL(); HBufC* localBuffer = aText.AllocL(); CleanupStack::PushL(localBuffer); TPtr messDes = localBuffer->Des(); if (aMessageType != EBiovCardMessage && aMessageType != EBiovCalenderMessage) { // convert \r\n to \n since this is what is expected from SMS when not vCard data for (TInt i = 0; i < messDes.Length(); i++) { if (messDes[i] == (TText) '\r' && i < messDes.Length() - 1 && messDes[i + 1] == (TText) '\n') messDes.Delete(i, 1); } } // Create and fill a CRichText object for the jobbie: CParaFormatLayer* paraFormatLayer = CParaFormatLayer::NewL(); CleanupStack::PushL(paraFormatLayer); CCharFormatLayer* charFormatLayer = CCharFormatLayer::NewL(); CleanupStack::PushL(charFormatLayer); CRichText* richText = CRichText::NewL(paraFormatLayer, charFormatLayer); CleanupStack::PushL(richText); TInt pos = richText->DocumentLength(); richText->InsertL(pos, messDes); TMsvEntry newBioEntry; newBioEntry.SetNew(ETrue); newBioEntry.SetComplete(EFalse); newBioEntry.SetUnread(ETrue); newBioEntry.SetVisible(ETrue); newBioEntry.SetReadOnly(EFalse); newBioEntry.SetFailed(EFalse); newBioEntry.SetOperation(EFalse); newBioEntry.SetMultipleRecipients(EFalse); newBioEntry.SetAttachment(EFalse); newBioEntry.iMtm = KUidBIOMessageTypeMtm; newBioEntry.iType = KUidMsvMessageEntry; newBioEntry.iServiceId = iBioServiceId; TTime now; now.UniversalTime(); newBioEntry.iDate = now; TTime unixEpoch(KUnixEpoch); TTimeIntervalSeconds seconds; TTime timeStamp = newBioEntry.iDate; timeStamp.SecondsFrom(unixEpoch, seconds); retTimeStamp.setTime_t(seconds.Int()); newBioEntry.iDescription.Set(richText->Read(0, richText->DocumentLength())); TBufC<KTelephoneNumberMaxLength> telNumber; QString recepient(TEST_MSG_FROM1); tempNumber = XQConversions::qStringToS60Desc(recepient); telNumber = tempNumber->Des(); newBioEntry.iDetails.Set(telNumber); SetForMtmTypeL(newBioEntry, aMessageType); newBioEntry.iSize = richText->DocumentLength();// msgSize; CreateBioEntryClientSideL(newBioEntry, *richText); CleanupStack::PopAndDestroy(4); // richText, charFormatLayer, paraFormatLayer, localBuffer return newBioEntry.Id(); }
// --------------------------------------------------------- // MsgStoreHandler::HandleClass0SmsL() // --------------------------------------------------------- // void MsgStoreHandler::HandleClass0SmsL(CMsvEntry* aMsgEntry, TMsvId aMsgId) { CleanupStack::PushL(aMsgEntry); CMsvStore* store = aMsgEntry->ReadStoreL(); CleanupStack::PushL(store); CParaFormatLayer* paraFormatLayer = CParaFormatLayer::NewL(); CleanupStack::PushL(paraFormatLayer); CCharFormatLayer* charFormatLayer = CCharFormatLayer::NewL(); CleanupStack::PushL(charFormatLayer); CRichText* richText = CRichText::NewL(paraFormatLayer, charFormatLayer); CleanupStack::PushL(richText); store->RestoreBodyTextL(*richText); TInt len = richText->DocumentLength(); HBufC* bufBody = HBufC::NewLC(len * 2); // Get Body content of SMS message TPtr bufBodyPtr = bufBody->Des(); richText->Extract(bufBodyPtr, 0, len); //convert bufbody to qstring.. QString body = XQConversions::s60DescToQString(*bufBody); Class0Info class0Info; class0Info.body = body; CleanupStack::PopAndDestroy(bufBody); // Get From address of SMS message CPlainText* nullString = CPlainText::NewL(); CleanupStack::PushL(nullString); CSmsHeader* smsheader = CSmsHeader::NewL(CSmsPDU::ESmsDeliver, *nullString); CleanupStack::PushL(smsheader); smsheader->RestoreL(*store); QString address = XQConversions::s60DescToQString(smsheader->FromAddress()); class0Info.address = address; // Get alias of SMS message QString alias; int count; MsgContactHandler::resolveContactDisplayName(address, alias, count); class0Info.alias = alias; // Get timestamp of SMS message QDateTime timeStamp; TTime time = aMsgEntry->Entry().iDate; TTime unixEpoch(KUnixEpoch); TTimeIntervalSeconds seconds; time.SecondsFrom(unixEpoch, seconds); timeStamp.setTime_t(seconds.Int()); const QString times = timeStamp.toString("dd/MM/yy hh:mm ap"); class0Info.time = times; class0Info.messageId = aMsgId; CleanupStack::PopAndDestroy(7); aMsgEntry = NULL; // Show the SMS message.. iNotifier->ShowClass0Message(class0Info); }
/** @SYMTestCaseID SYSLIB-FORMA-UT-1900 @SYMTestCaseDesc This function will run tests to check if the bidirectional state is being maintained correctly. Documents containing a mix of different directionality are created and specific edits which are of interest for each document are performed. These edits are location specific and will depend on the bidirectional state of surrounding text. @SYMTestPriority High @SYMTestActions Edits are performed: changing the base directionality of a paragraph changing the directionality of text above the edit position changing the directionality of neutral characters before and after edit position changing the directionality of mirrored characters such as parenthesis changing text directinality by adding explicit embedding @SYMTestExpectedResults The test must not fail or panic . @SYMDEF DEF092140, DEF092139 */ void RunBidirectionalTestL(CRichText& aRichText, CBandMaintainer& aMaintainer, CBandValidator& aValidator) { aRichText.Reset(); aMaintainer.InitialiseViewL(); //set up paragraph of just LTR text aRichText.InsertL(0, KBleak2); aMaintainer.InitialiseViewL(); User::After(3000000); //change paragraph base directionality by inserting a RLM marker at the beginning of the paragraph TInsertText insertRLM(aMaintainer, aRichText, aValidator, KRLM()); insertRLM.ExecuteL(0, 1); User::After(3000000); aRichText.Reset(); aMaintainer.InitialiseViewL(); //set up paragraph of LLL-RRR-LLL-NNN-RRR-LLL aRichText.InsertL(0, KEnglishLongWords_1); aRichText.InsertL(aRichText.DocumentLength(), KArabicLessThanALine); aRichText.InsertL(aRichText.DocumentLength(), KEnglishLessThanALine_1); aRichText.InsertL(aRichText.DocumentLength(), KPuncs); aRichText.InsertL(aRichText.DocumentLength(), KArabicLessThanALine); aRichText.InsertL(aRichText.DocumentLength(), KBleak2); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); aMaintainer.InitialiseViewL(); User::After(1000000); //delete the second run of LTR changing the directionality of the neutrals TDeleteText deleteText(aMaintainer, aRichText, aValidator); TInt editPos = KEnglishLongWords_1().Length()+KArabicLessThanALine().Length(); deleteText.ExecuteL(editPos,KEnglishLessThanALine_1().Length()); User::After(1000000); //delete the second run of RTL characters to check if neutral directionality is maintained editPos = KEnglishLongWords_1().Length()+KArabicLessThanALine().Length()+KPuncs().Length(); deleteText.ExecuteL(editPos,KArabicLessThanALine().Length()); User::After(1000000); aRichText.Reset(); aMaintainer.InitialiseViewL(); //set up band to be a paragraph of numbers followed by LTR i.e. EN-EN-EN-LLL aRichText.InsertL(aRichText.DocumentLength(), KNumbers); aRichText.InsertL(aRichText.DocumentLength(), KBleak2); aMaintainer.InitialiseViewL(); User::After(3000000); //edit to change directionality of numbers above the edit by inserting RTL text before the LTR //This RLM works perfectly TInsertText insertArabic(aMaintainer, aRichText, aValidator, KArabicMoreThanALine()); insertArabic.ExecuteL(KNumbers().Length(), KArabicMoreThanALine().Length()); User::After(3000000); //undo previous edit text will return to previous directionality deleteText.ExecuteL(KNumbers().Length(),KArabicMoreThanALine().Length()); User::After(10000000); aRichText.Reset(); aMaintainer.InitialiseViewL(); // Document containing RRRRR ( LLLL ) LLLL aRichText.InsertL(0, KArabicMoreThanALine); aRichText.InsertL(aRichText.DocumentLength(), KOpenBracket); aRichText.InsertL(aRichText.DocumentLength(), KEnglishLessThanALine_1); aRichText.InsertL(aRichText.DocumentLength(), KCloseBracket); aRichText.InsertL(aRichText.DocumentLength(), KEnglishLessThanALine_2); aRichText.InsertL(aRichText.DocumentLength(), KOpenBracket); aRichText.InsertL(aRichText.DocumentLength(), KEnglishLessThanALine_4); aRichText.InsertL(aRichText.DocumentLength(), KCloseBracket); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); aMaintainer.InitialiseViewL(); // Insert LTR after RTL test Doc should now be RRRR LLLL ( LLLL ) LLLL TInsertText insertEnglish(aMaintainer, aRichText, aValidator, KEnglishLessThanALine_3()); insertEnglish.ExecuteL(KArabicMoreThanALine().Length(), KEnglishLessThanALine_3().Length()); // The brackets are now being displayed correctly // BUT is the neutral English text meant to be displayed as RTL as initially inserted (no RLM)?? User::After(10000000); aRichText.Reset(); aMaintainer.InitialiseViewL(); // Just an arabic RTL sentence. aRichText.InsertL(0, KArabicMoreThanALine); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); aMaintainer.InitialiseViewL(); // Test formatting when inserting RTL enclosed in parenthesis TInsertText insertArabBrackets(aMaintainer, aRichText, aValidator, KArabicInParenthesis()); insertArabBrackets.ExecuteL(KArabicMoreThanALine().Length(), KArabicInParenthesis().Length()); User::After(1000000); aRichText.Reset(); aMaintainer.InitialiseViewL(); // Just an arabic RTL sentence. aRichText.InsertL(0, KArabicMoreThanALine); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); aMaintainer.InitialiseViewL(); // Test formatting when inserting open parenthesis TInsertText insertOpen(aMaintainer, aRichText, aValidator, KOpenBracket()); insertOpen.ExecuteL(KArabicMoreThanALine().Length(), KOpenBracket().Length()); User::After(1000000); // Test formatting when inserting RTL after opening parenthesis TInsertText insertArabicLessLine(aMaintainer, aRichText, aValidator, KArabicLessThanALine()); insertArabicLessLine.ExecuteL(aRichText.DocumentLength()-1, KArabicLessThanALine().Length()); User::After(1000000); // Test formatting when inserting closing parenthesis after RTL text TInsertText insertClose(aMaintainer, aRichText, aValidator, KCloseBracket()); insertClose.ExecuteL(aRichText.DocumentLength()-1, KOpenBracket().Length()); // This is now being displayed correctly User::After(10000000); // Insert RTL text after parenthesis insertArabicLessLine.ExecuteL(aRichText.DocumentLength()-1, KArabicLessThanALine().Length()); // This is now being displayed correctly User::After(10000000); aRichText.Reset(); aMaintainer.InitialiseViewL(); //Explicit Embedding testing aRichText.InsertL(0, KEnglishShortParagraph); aRichText.InsertL(aRichText.DocumentLength(), KRLE); aRichText.InsertL(aRichText.DocumentLength(), KFirstWordArabic); aRichText.InsertL(aRichText.DocumentLength(), KFirstWord); aRichText.InsertL(aRichText.DocumentLength(), KSecondWordArabic); aRichText.InsertL(aRichText.DocumentLength(), KSecondWord); aRichText.InsertL(aRichText.DocumentLength(), KThirdWordArabic); aRichText.InsertL(aRichText.DocumentLength(), KPDF); aRichText.InsertL(aRichText.DocumentLength(), KEnglishMoreThanALine_1); aRichText.InsertL(aRichText.DocumentLength(), KParagraphDelimiter); aMaintainer.InitialiseViewL(); User::After(1000000); editPos=KEnglishShortParagraph().Length()+1; // TInsertText insertText2(aMaintainer, aRichText, aValidator, KEnglishLessThanALine_1()); insertEnglish.ExecuteL(editPos,KEnglishLessThanALine_3().Length()); User::After(1000000); }