Ejemplo n.º 1
0
void TokenTree::RecalcInheritanceChain(Token* token)
{
    if (!token)
        return;
    if (!(token->m_TokenKind & (tkClass | tkTypedef | tkEnum | tkNamespace)))
        return;
    if (token->m_AncestorsString.IsEmpty())
        return;

    token->m_DirectAncestors.clear();
    token->m_Ancestors.clear();

    wxStringTokenizer tkz(token->m_AncestorsString, _T(","));
    TRACE(_T("RecalcInheritanceChain() : Token %s, Ancestors %s"), token->m_Name.wx_str(),
          token->m_AncestorsString.wx_str());
    TRACE(_T("RecalcInheritanceChain() : Removing ancestor string from %s"), token->m_Name.wx_str());
    token->m_AncestorsString.Clear();

    while (tkz.HasMoreTokens())
    {
        wxString ancestor = tkz.GetNextToken();
        if (ancestor.IsEmpty() || ancestor == token->m_Name)
            continue;

        TRACE(_T("RecalcInheritanceChain() : Ancestor %s"), ancestor.wx_str());

        // ancestors might contain namespaces, e.g. NS::Ancestor
        if (ancestor.Find(_T("::")) != wxNOT_FOUND)
        {
            Token* ancestorToken = 0;
            wxStringTokenizer anctkz(ancestor, _T("::"));
            while (anctkz.HasMoreTokens())
            {
                wxString ns = anctkz.GetNextToken();
                if (!ns.IsEmpty())
                {
                    int ancestorIdx = TokenExists(ns, ancestorToken ? ancestorToken->m_Index : -1,
                                                  tkNamespace | tkClass | tkTypedef);
                    ancestorToken = at(ancestorIdx);
                    if (!ancestorToken) // unresolved
                        break;
                }
            }
            if (   ancestorToken
                && ancestorToken != token
                && (ancestorToken->m_TokenKind == tkClass || ancestorToken->m_TokenKind == tkNamespace) )
            {
                TRACE(_T("RecalcInheritanceChain() : Resolved to %s"), ancestorToken->m_Name.wx_str());
                RecalcInheritanceChain(ancestorToken);
                token->m_Ancestors.insert(ancestorToken->m_Index);
                ancestorToken->m_Descendants.insert(token->m_Index);
                TRACE(_T("RecalcInheritanceChain() :  + '%s'"), ancestorToken->m_Name.wx_str());
            }
            else
            {
                TRACE(_T("RecalcInheritanceChain() :  ! '%s' (unresolved)"), ancestor.wx_str());
            }
        }
        else // no namespaces in ancestor
        {
            // accept multiple matches for inheritance
            TokenIdxSet result;
            FindMatches(ancestor, result, true, false);
            for (TokenIdxSet::const_iterator it = result.begin(); it != result.end(); ++it)
            {
                Token* ancestorToken = at(*it);
                // only classes take part in inheritance
                if (   ancestorToken
                    && (ancestorToken != token)
                    && (   (ancestorToken->m_TokenKind == tkClass)
                        || (ancestorToken->m_TokenKind == tkEnum)
                        || (ancestorToken->m_TokenKind == tkTypedef)
                        || (ancestorToken->m_TokenKind == tkNamespace) ) )
                {
                    RecalcInheritanceChain(ancestorToken);
                    token->m_Ancestors.insert(*it);
                    ancestorToken->m_Descendants.insert(token->m_Index);
                    TRACE(_T("RecalcInheritanceChain() :  + '%s'"), ancestorToken->m_Name.wx_str());
                }
            }
#if defined(CC_TOKEN_DEBUG_OUTPUT)
    #if CC_TOKEN_DEBUG_OUTPUT
            if (result.empty())
                TRACE(_T("RecalcInheritanceChain() :  ! '%s' (unresolved)"), ancestor.wx_str());
    #endif
#endif
        }

        // Now, we have calc all the direct ancestors
        token->m_DirectAncestors = token->m_Ancestors;
    }

#if defined(CC_TOKEN_DEBUG_OUTPUT)
    #if CC_TOKEN_DEBUG_OUTPUT
    wxStopWatch sw;
    TRACE(_T("RecalcInheritanceChain() : First iteration took : %ld ms"), sw.Time());
    sw.Start();
    #endif
#endif

    // recalc
    TokenIdxSet result;
    for (TokenIdxSet::const_iterator it = token->m_Ancestors.begin(); it != token->m_Ancestors.end(); ++it)
        RecalcFullInheritance(*it, result);

    // now, add the resulting set to ancestors set
    for (TokenIdxSet::const_iterator it = result.begin(); it != result.end(); ++it)
    {
        Token* ancestor = at(*it);
        if (ancestor)
        {
            token->m_Ancestors.insert(*it);
            ancestor->m_Descendants.insert(token->m_Index);
        }
    }

#if defined(CC_TOKEN_DEBUG_OUTPUT)
    #if CC_TOKEN_DEBUG_OUTPUT
    if (token)
    {
        // debug loop
        TRACE(_T("RecalcInheritanceChain() : Ancestors for %s:"), token->m_Name.wx_str());
        for (TokenIdxSet::const_iterator it = token->m_Ancestors.begin(); it != token->m_Ancestors.end(); ++it)
        {
            const Token* anc_token = at(*it);
            if (anc_token)
                TRACE(_T("RecalcInheritanceChain() :  + %s"), anc_token->m_Name.wx_str());
            else
                TRACE(_T("RecalcInheritanceChain() :  + NULL?!"));
        }
    }
    #endif
#endif

#if defined(CC_TOKEN_DEBUG_OUTPUT)
    #if CC_TOKEN_DEBUG_OUTPUT
    TRACE(_T("RecalcInheritanceChain() : Second iteration took : %ld ms"), sw.Time());
    #endif
#endif

    TRACE(_T("RecalcInheritanceChain() : Full inheritance calculated."));
}
Ejemplo n.º 2
0
void TokensTree::RecalcData()
{
    TRACE(cc_text("RecalcData() : Calculating full inheritance tree."));
    // first loop to convert ancestors string to token indices for each token
    for (size_t i = 0; i < size(); ++i)
    {
        Token* token = at(i);
        if (!token)
            continue;

        if (!(token->m_TokenKind & (tkClass | tkTypedef | tkEnum)))
            continue;
        if (token->m_AncestorsString.empty())
            continue;
        // only local symbols might change inheritance
//        if (!token->m_IsLocal)
//            continue;

        token->m_DirectAncestors.clear();
        token->m_Ancestors.clear();

        TRACE(cc_text("RecalcData() : Token %s, Ancestors %s"),
              token->m_Name.wx_str(),
              token->m_AncestorsString.wx_str());

        StringTokenizer tkz(token->m_AncestorsString, cc_text(","));
        while (tkz.HasMoreTokens())
        {
            cc_string ancestor = tkz.GetNextToken();
            if (ancestor.empty() || ancestor == token->m_Name)
                continue;

            TRACE(cc_text("RecalcData() : Ancestor %s"), ancestor.wx_str());

            // ancestors might contain namespaces, e.g. NS::Ancestor
            if (ancestor.find(cc_text("::")) != cc_string::npos)
            {
                Token* ancestorToken = 0;
                StringTokenizer anctkz(ancestor, cc_text("::"));
                while (anctkz.HasMoreTokens())
                {
                    cc_string ns = anctkz.GetNextToken();
                    if (!ns.empty())
                    {
                        int ancestorIdx = TokenExists(ns, ancestorToken ? ancestorToken->GetSelf() : -1, tkNamespace | tkClass | tkTypedef);
                        ancestorToken = at(ancestorIdx);
//                        ancestorToken = token->HasChildToken(ns, tkNamespace | tkClass);
                        if (!ancestorToken) // unresolved
                            break;
                    }
                }
                if (ancestorToken && ancestorToken != token && ancestorToken->m_TokenKind == tkClass)// && !ancestorToken->m_IsTypedef)
                {
                    TRACE(cc_text("RecalcData() : Resolved to %s"), ancestorToken->m_Name.wx_str());
                    token->m_Ancestors.insert(ancestorToken->GetSelf());
                    ancestorToken->m_Descendants.insert(i);
                    TRACE(cc_text("RecalcData() :  + '%s'"), ancestorToken->m_Name.wx_str());

                }
                else
                    TRACE(cc_text("RecalcData() :  ! '%s' (unresolved)"), ancestor.wx_str());
            }
            else // no namespaces in ancestor
            {
                // accept multiple matches for inheritance
                TokenIdxSet result;
                FindMatches(ancestor, result, true, false);
                for (TokenIdxSet::iterator it = result.begin(); it != result.end(); it++)
                {
                    Token* ancestorToken = at(*it);
                    // only classes take part in inheritance
                    if (   ancestorToken
                        && (ancestorToken != token)
                        && (   (ancestorToken->m_TokenKind == tkClass)
                            || (ancestorToken->m_TokenKind == tkEnum)
                            || (ancestorToken->m_TokenKind == tkTypedef) ) ) // && !ancestorToken->m_IsTypedef)
                    {
                        token->m_Ancestors.insert(*it);
                        ancestorToken->m_Descendants.insert(i);
                        TRACE(cc_text("RecalcData() :  + '%s'"), ancestorToken->m_Name.wx_str());
                    }
                }
#if TOKEN_DEBUG_OUTPUT
                if (result.empty())
                    TRACE(_T("RecalcData() :  ! '%s' (unresolved)"), ancestor.wx_str());
#endif
            }
        }

        token->m_DirectAncestors = token->m_Ancestors;

        if (!token->m_IsLocal) // global symbols are linked once
        {
            TRACE(cc_text("RecalcData() : Removing ancestor string from %s"), token->m_Name.wx_str(), token->m_Name.wx_str());
            token->m_AncestorsString.clear();
        }
    }

    // second loop to calculate full inheritance for each token
    for (size_t i = 0; i < size(); ++i)
    {
        Token* token = at(i);
        if (!token)
            continue;

        if (!(token->m_TokenKind & (tkClass | tkTypedef | tkEnum)))
            continue;

        // recalc
        TokenIdxSet result;
        for (TokenIdxSet::iterator it = token->m_Ancestors.begin(); it != token->m_Ancestors.end(); it++)
            RecalcFullInheritance(*it, result);

        // now, add the resulting set to ancestors set
        for (TokenIdxSet::iterator it = result.begin(); it != result.end(); it++)
        {
            Token* ancestor = at(*it);
            if (ancestor)
            {
                token->m_Ancestors.insert(*it);
                ancestor->m_Descendants.insert(i);
            }
        }

#if TOKEN_DEBUG_OUTPUT
        // debug loop
        TRACE(_T("RecalcData() : Ancestors for %s:"),token->m_Name.wx_str());
        for (TokenIdxSet::iterator it = token->m_Ancestors.begin(); it != token->m_Ancestors.end(); it++)
            TRACE(_T("RecalcData() :  + %s"), at(*it)->m_Name.wx_str());
#endif
    }
    TRACE(cc_text("RecalcData() : Full inheritance calculated."));
}
Ejemplo n.º 3
0
void TokensTree::RecalcData()
{
//    Manager::Get()->GetMessageManager()->DebugLog(_T("Calculating full inheritance tree"));

    // first loop to convert ancestors string to token indices for each token
    for (size_t i = 0; i < size(); ++i)
    {
        Token* token = at(i);
        if (!token)
            continue;

        if (!(token->m_TokenKind & (tkClass | tkTypedef | tkEnum)))
            continue;
        if (token->m_AncestorsString.IsEmpty())
            continue;
        // only local symbols might change inheritance
//        if (!token->m_IsLocal)
//            continue;

        token->m_DirectAncestors.clear();
        token->m_Ancestors.clear();
//        Manager::Get()->GetMessageManager()->DebugLog(_T(" : '%s'"), token->m_Name.c_str());

        //Manager::Get()->GetMessageManager()->DebugLog("Token %s, Ancestors %s", token->m_Name.c_str(), token->m_AncestorsString.c_str());
        wxStringTokenizer tkz(token->m_AncestorsString, _T(","));
        while (tkz.HasMoreTokens())
        {
            wxString ancestor = tkz.GetNextToken();
            if (ancestor.IsEmpty() || ancestor == token->m_Name)
                continue;
//            Manager::Get()->GetMessageManager()->DebugLog(_T("Ancestor %s"), ancestor.c_str());
            // ancestors might contain namespaces, e.g. NS::Ancestor
            if (ancestor.Find(_T("::")) != wxNOT_FOUND)
            {
                Token* ancestorToken = 0;
                wxStringTokenizer anctkz(ancestor, _T("::"));
                while (anctkz.HasMoreTokens())
                {
                    wxString ns = anctkz.GetNextToken();
                    if (!ns.IsEmpty())
                    {
                        int ancestorIdx = TokenExists(ns, ancestorToken ? ancestorToken->GetSelf() : -1, tkNamespace | tkClass | tkTypedef);
                        ancestorToken = at(ancestorIdx);
//                        ancestorToken = token->HasChildToken(ns, tkNamespace | tkClass);
                        if (!ancestorToken) // unresolved
                            break;
                    }
                }
                if (ancestorToken && ancestorToken != token && ancestorToken->m_TokenKind == tkClass)// && !ancestorToken->m_IsTypedef)
                {
//                    Manager::Get()->GetMessageManager()->DebugLog(_T("Resolved to %s"), ancestorToken->m_Name.c_str());
                    token->m_Ancestors.insert(ancestorToken->GetSelf());
                    ancestorToken->m_Descendants.insert(i);
//                    Manager::Get()->GetMessageManager()->DebugLog(_T("   + '%s'"), ancestorToken->m_Name.c_str());
                }
//                else
//                    Manager::Get()->GetMessageManager()->DebugLog(_T("   ! '%s' (unresolved)"), ancestor.c_str());
            }
            else // no namespaces in ancestor
            {
                // accept multiple matches for inheritance
                TokenIdxSet result;
                FindMatches(ancestor, result, true, false);
                for (TokenIdxSet::iterator it = result.begin(); it != result.end(); it++)
                {
                    Token* ancestorToken = at(*it);
                    // only classes take part in inheritance
                    if (ancestorToken && ancestorToken != token && (ancestorToken->m_TokenKind == tkClass || ancestorToken->m_TokenKind == tkEnum))// && !ancestorToken->m_IsTypedef)
                    {
                        token->m_Ancestors.insert(*it);
                        ancestorToken->m_Descendants.insert(i);
//                        Manager::Get()->GetMessageManager()->DebugLog(_T("   + '%s'"), ancestorToken->m_Name.c_str());
                    }
                }
//                if (result.empty())
//                    Manager::Get()->GetMessageManager()->DebugLog(_T("   ! '%s' (unresolved)"), ancestor.c_str());
            }
        }

        token->m_DirectAncestors = token->m_Ancestors;

        if (!token->m_IsLocal) // global symbols are linked once
        {
            //Manager::Get()->GetMessageManager()->DebugLog("Removing ancestor string from %s", token->m_Name.c_str(), token->m_Name.c_str());
            token->m_AncestorsString.Clear();
        }
    }

    // second loop to calculate full inheritance for each token
    for (size_t i = 0; i < size(); ++i)
    {
        Token* token = at(i);
        if (!token)
            continue;

        if (!(token->m_TokenKind & (tkClass | tkTypedef | tkEnum)))
            continue;

        // recalc
        TokenIdxSet result;
        for (TokenIdxSet::iterator it = token->m_Ancestors.begin(); it != token->m_Ancestors.end(); it++)
            RecalcFullInheritance(*it, result);

        // now, add the resulting set to ancestors set
        for (TokenIdxSet::iterator it = result.begin(); it != result.end(); it++)
        {
            Token* ancestor = at(*it);
            if (ancestor)
            {
                token->m_Ancestors.insert(*it);
                ancestor->m_Descendants.insert(i);
            }
        }

//        // debug loop
//        Manager::Get()->GetMessageManager()->DebugLog(_T("Ancestors for %s:"),token->m_Name.c_str());
//        for (TokenIdxSet::iterator it = token->m_Ancestors.begin(); it != token->m_Ancestors.end(); it++)
//            Manager::Get()->GetMessageManager()->DebugLog(_T(" + %s"), at(*it)->m_Name.c_str());
    }
//    Manager::Get()->GetMessageManager()->DebugLog(_T("Full inheritance calculated."));
}