Exemple #1
0
QStringList
KStandardDirs::findAllResources( const char *type,
			         const QString& filter,
				 bool recursive,
			         bool unique,
                                 QStringList &relList) const
{
    QStringList list;
    QString filterPath;
    QString filterFile;

    if (filter.length())
    {
       int slash = filter.findRev('/');
       if (slash < 0)
	   filterFile = filter;
       else {
	   filterPath = filter.left(slash + 1);
	   filterFile = filter.mid(slash + 1);
       }
    }

    checkConfig();

    QStringList candidates;
	if (!QDir::isRelativePath(filter)) // absolute path
    {
#ifdef Q_OS_WIN
        candidates << filterPath.left(3); //e.g. "C:\"
        filterPath = filterPath.mid(3);
#else
        candidates << "/";
        filterPath = filterPath.mid(1);
#endif
    }
    else
    {
        if (d && d->restrictionsActive && (strcmp(type, "data")==0))
            applyDataRestrictions(filter);
        candidates = resourceDirs(type);
    }
    if (filterFile.isEmpty())
	filterFile = "*";

    QRegExp regExp(filterFile, true, true);

    for (QStringList::ConstIterator it = candidates.begin();
         it != candidates.end(); ++it)
    {
        lookupPrefix(*it, filterPath, "", regExp, list,
                     relList, recursive, unique);
    }

    return list;
}
Exemple #2
0
static errorCode sample_startElement(QName qname, void* app_data)
{
	struct appData* appD = (struct appData*) app_data;
	if(appD->outputFormat == OUT_EXI)
	{
		printf("SE ");
		printString(qname.uri);
		printf(" ");
		printString(qname.localName);
		printf("\n");
	}
	else if(appD->outputFormat == OUT_XML)
	{
		char error = 0;
		unsigned char prefixIndex = 0;
		unsigned char prxHit = 1;
		int t;

		if(!isStringEmpty(qname.uri))
		{
			error = lookupPrefix(appD, *qname.uri, &prxHit, &prefixIndex);
			if(error != 0)
				return EXIP_HANDLER_STOP;

			sprintf(appD->nameBuf, "p%d:", prefixIndex);
			t = strlen(appD->nameBuf);
			memcpy(appD->nameBuf + t, qname.localName->str, qname.localName->length);
			appD->nameBuf[t + qname.localName->length] = '\0';
		}
		else
		{
			memcpy(appD->nameBuf, qname.localName->str, qname.localName->length);
			appD->nameBuf[qname.localName->length] = '\0';
		}
		push(&(appD->stack), createElement(appD->nameBuf));
		if(appD->unclosedElement)
			printf(">\n");
		printf("<%s", appD->nameBuf);

		if(prxHit == 0)
		{
			sprintf(appD->nameBuf, " xmlns:p%d=\"", prefixIndex);
			printf("%s", appD->nameBuf);
			printString(qname.uri);
			printf("\"");
		}

		appD->unclosedElement = 1;
	}

	return ERR_OK;
}
Exemple #3
0
/**
 * @brief Callback called when the EXIP library has found the start of an element
 * @param qname The qualified name of the element
 * @param app_data Pointer to the struct appData passed to initParser()
 * @return EXIP_HANDLER_OK if success, or EXIP_HANDLER_STOP if need to stop the parser
 */
static errorCode sample_startElement(QName qname, void* app_data) {
	struct appData* appD = (struct appData*) app_data;
	char error = 0;
	unsigned char prefixIndex = 0;
	unsigned char prxHit = 1;
	int t = 0;

	PRINT ("SE ");
	writeQName(qname);
	PRINT ("\n");

	//	Check if we where in another element. If yes, calls cb_startElement
	checkCallback (appD, 0);

	if(!isStringEmpty(qname.uri)) {
		char uri[200];
		char pfx[30];

		error = lookupPrefix(appD, *qname.uri, &prxHit, &prefixIndex);
		if	(error) {
			fprintf (stderr, "Prefix not found\n");
			return EXIP_HANDLER_STOP;
		}

		copyString(*qname.uri, uri);
		strcpy (pfx, getPrefixByNamespace(uri));
		strcpy (appD->nameBuf, pfx);
		strcat (appD->nameBuf, ":");
		t = strlen(appD->nameBuf);

		if(prxHit == 0) {
			// Create xmlns: attribute
			t_ctxt	*ctxt = &appD->ctxt;
			char tmp[30];
			strcpy (tmp, "xmlns:");
			strcat (tmp, pfx);
			ctxt->atname[ctxt->atcount]	= strdup(tmp);
			ctxt->atvalue[ctxt->atcount]	= StringStrdup(qname.uri);
			ctxt->atcount++;
		}
	}

	memcpy(appD->nameBuf + t, qname.localName->str, qname.localName->length);
	appD->nameBuf[t + qname.localName->length] = '\0';

	push(&(appD->stack), createElement(appD->nameBuf));

	appD->unclosedElement = 1;
	return ERR_OK;
}
Exemple #4
0
void runTests(){
	//TODO
	const char* running = nullptr;

	unittest(Scope){
		auto scope = new Scope(0);

		assert(!scope->lookupPrefix("foo"));
		assert(!scope->lookupPrefix("bar"));
		assert(!scope->lookupInfix("bar"));
		assert(!scope->lookupInfix("foo"));
		assert(!scope->containsPrefix("foo"));
		assert(!scope->containsPrefix("bar"));
		assert(!scope->containsInfix("bar"));
		assert(!scope->containsInfix("foo"));

		delete scope;
	}

	unittest(_theEndDummy);
}
Exemple #5
0
const XMLCh* DOMNodeImpl::lookupPrefix(const XMLCh* namespaceURI) const {
    // REVISIT: When Namespaces 1.1 comes out this may not be true
    // Prefix can't be bound to null namespace
    if (namespaceURI == 0) {
        return 0;
    }

    DOMNode *thisNode = castToNode(this);

    short type = thisNode->getNodeType();

    switch (type) {
    case DOMNode::ELEMENT_NODE: {
        return lookupPrefix(namespaceURI, (DOMElement*)thisNode);
    }
    case DOMNode::DOCUMENT_NODE:{
        return ((DOMDocument*)thisNode)->getDocumentElement()->lookupPrefix(namespaceURI);
    }

    case DOMNode::ENTITY_NODE :
    case DOMNode::NOTATION_NODE:
    case DOMNode::DOCUMENT_FRAGMENT_NODE:
    case DOMNode::DOCUMENT_TYPE_NODE:
        // type is unknown
        return 0;
    case DOMNode::ATTRIBUTE_NODE:{
        if (fOwnerNode->getNodeType() == DOMNode::ELEMENT_NODE) {
            return fOwnerNode->lookupPrefix(namespaceURI);
        }
        return 0;
    }
    default:{
        DOMNode *ancestor = getElementAncestor(thisNode);
        if (ancestor != 0) {
            return ancestor->lookupPrefix(namespaceURI);
        }
        return 0;
    }
    }
}
Exemple #6
0
static void lookupPrefix(const QString& prefix, const QString& relpath,
                         const QString& relPart,
			 const QRegExp &regexp,
			 QStringList& list,
			 QStringList& relList,
			 bool recursive, bool unique)
{
    if (relpath.isEmpty()) {
       lookupDirectory(prefix, relPart, regexp, list,
		       relList, recursive, unique);
       return;
    }
    QString path;
    QString rest;

    if (relpath.length())
    {
       int slash = relpath.find('/');
       if (slash < 0)
	   rest = relpath.left(relpath.length() - 1);
       else {
	   path = relpath.left(slash);
	   rest = relpath.mid(slash + 1);
       }
    }

    if (prefix.isEmpty()) //for sanity
      return;
#ifdef Q_WS_WIN
    assert(prefix.at(prefix.length() - 1) == '/' || prefix.at(prefix.length() - 1) == '\\');
#else
    assert(prefix.at(prefix.length() - 1) == '/');
#endif
    KDE_struct_stat buff;

    if (path.contains('*') || path.contains('?')) {

	QRegExp pathExp(path, true, true);
	DIR *dp = opendir( QFile::encodeName(prefix) );
	if (!dp) {
	    return;
	}

	struct dirent *ep;

        QString _dot(".");
        QString _dotdot("..");

	while( ( ep = readdir( dp ) ) != 0L )
	    {
		QString fn( QFile::decodeName(ep->d_name));
		if (fn == _dot || fn == _dotdot || fn.at(fn.length() - 1) == '~')
		    continue;

		if ( !pathExp.exactMatch(fn) )
		    continue; // No match
		QString rfn = relPart+fn;
		fn = prefix + fn;
		if ( KDE_stat( QFile::encodeName(fn), &buff ) != 0 ) {
		    kdDebug() << "Error statting " << fn << " : " << perror << endl;
		    continue; // Couldn't stat (e.g. no permissions)
		}
		if ( S_ISDIR( buff.st_mode ))
		    lookupPrefix(fn + '/', rest, rfn + '/', regexp, list, relList, recursive, unique);
	    }

	closedir( dp );
    } else {
        // Don't stat, if the dir doesn't exist we will find out
        // when we try to open it.
        lookupPrefix(prefix + path + '/', rest,
                     relPart + path + '/', regexp, list,
                     relList, recursive, unique);
    }
}