Пример #1
0
/// Generic list of objects access, possibly searching up or down from the current context
///
/// Note that the template wrapper method should generally be used to have the correct return type,
void DAGNode::getObjects(const sofa::core::objectmodel::ClassInfo& class_info, GetObjectsCallBack& container, const sofa::core::objectmodel::TagSet& tags, SearchDirection dir) const
{
    if (dir == SearchRoot)
    {
        if (!getParents().empty())
        {
            getRootContext()->getObjects(class_info, container, tags, dir);
            return;
        }
        else dir = SearchDown; // we are the root, search down from here.
    }
    if (dir != SearchParents)
        for (ObjectIterator it = this->object.begin(); it != this->object.end(); ++it)
        {
            core::objectmodel::BaseObject* obj = it->get();
            void* result = class_info.dynamicCast(obj);
            if (result != NULL && (tags.empty() || (obj)->getTags().includes(tags)))
                container(result);
        }

    {
        switch(dir)
        {
        case Local:
            break;
        case SearchParents:
        case SearchUp:
        {
            // WORK IN PROGRESS
            // TODO: manage diamond setups to avoid multiple getObjects() calls on a Node...
            Parents parents = getParents();
            for (Parents::iterator it = parents.begin(); it!=parents.end(); it++)
                dynamic_cast<Node*>(*it)->getObjects(class_info, container, tags, SearchUp);
        }
        break;
        case SearchDown:
            for(ChildIterator it = child.begin(); it != child.end(); ++it)
            {
                if ((*it)->isActive())
                    (*it)->getObjects(class_info, container, tags, dir);
            }
            break;
        case SearchRoot:
            std::cerr << "SearchRoot SHOULD NOT BE POSSIBLE HERE!\n";
            break;
        }
    }
}
Пример #2
0
/// Test if the given node is a parent of this node.
bool DAGNode::hasParent(const BaseNode* node) const
{
    Parents p = getParents();
    return (p.end() != std::find(p.begin(), p.end(), node));
}
Пример #3
0
/// Generic object access, given a path from the current context
///
/// Note that the template wrapper method should generally be used to have the correct return type,
void* DAGNode::getObject(const sofa::core::objectmodel::ClassInfo& class_info, const std::string& path) const
{
    if (path.empty())
    {
        // local object
        return Node::getObject(class_info, Local);
    }
    else if (path[0] == '/')
    {
        // absolute path; let's start from root
        Parents parents = getParents();
        if (parents.empty()) return getObject(class_info,std::string(path,1));
        else return getRootContext()->getObject(class_info,path);
    }
    else if (std::string(path,0,2)==std::string("./"))
    {
        std::string newpath = std::string(path, 2);
        while (!newpath.empty() && path[0] == '/')
            newpath.erase(0);
        return getObject(class_info,newpath);
    }
    else if (std::string(path,0,3)==std::string("../"))
    {
        // tricky case:
        // let's test EACH parent and return the first object found (if any)
        std::string newpath = std::string(path, 3);
        while (!newpath.empty() && path[0] == '/')
            newpath.erase(0);
        Parents parents = getParents();
        if (!parents.empty())
        {
            for (Parents::iterator it = parents.begin(); it!=parents.end(); it++)
            {
                void* obj = dynamic_cast<Node*>(*it)->getObject(class_info,newpath);
                if (obj) return obj;
            }
            return 0;   // not found in any parent node at all
        }
        else return getObject(class_info,newpath);
    }
    else
    {
        std::string::size_type pend = path.find('/');
        if (pend == std::string::npos) pend = path.length();
        std::string name ( path, 0, pend );
        Node* child = getChild(name);
        if (child)
        {
            while (pend < path.length() && path[pend] == '/')
                ++pend;
            return child->getObject(class_info, std::string(path, pend));
        }
        else if (pend < path.length())
        {
            //std::cerr << "ERROR: child node "<<name<<" not found in "<<getPathName()<<std::endl;
            return NULL;
        }
        else
        {
            core::objectmodel::BaseObject* obj = simulation::Node::getObject(name);
            if (obj == NULL)
            {
                //std::cerr << "ERROR: object "<<name<<" not found in "<<getPathName()<<std::endl;
                return NULL;
            }
            else
            {
                void* result = class_info.dynamicCast(obj);
                if (result == NULL)
                {
                    std::cerr << "ERROR: object "<<name<<" in "<<getPathName()<<" does not implement class "<<class_info.name()<<std::endl;
                    return NULL;
                }
                else
                {
                    return result;
                }
            }
        }
    }
}
Пример #4
0
/// Generic object access, possibly searching up or down from the current context
///
/// Note that the template wrapper method should generally be used to have the correct return type,
void* DAGNode::getObject(const sofa::core::objectmodel::ClassInfo& class_info, const sofa::core::objectmodel::TagSet& tags, SearchDirection dir) const
{
    if (dir == SearchRoot)
    {
        if (!getParents().empty()) return getRootContext()->getObject(class_info, tags, dir);
        else dir = SearchDown; // we are the root, search down from here.
    }
    void *result = NULL;
#ifdef DEBUG_GETOBJECT
    std::string cname = class_info.name();
    if (cname != std::string("N4sofa4core6ShaderE"))
        std::cout << "DAGNode: search for object of type " << class_info.name() << std::endl;
    std::string gname = "N4sofa9component8topology32TetrahedronSetGeometryAlgorithms";
    bool isg = cname.length() >= gname.length() && std::string(cname, 0, gname.length()) == gname;
#endif
    if (dir != SearchParents)
        for (ObjectIterator it = this->object.begin(); it != this->object.end(); ++it)
        {
            core::objectmodel::BaseObject* obj = it->get();
            if (tags.empty() || (obj)->getTags().includes(tags))
            {
#ifdef DEBUG_GETOBJECT
                if (isg)
                    std::cout << "DAGNode: testing object " << (obj)->getName() << " of type " << (obj)->getClassName() << std::endl;
#endif
                result = class_info.dynamicCast(obj);
                if (result != NULL)
                {
#ifdef DEBUG_GETOBJECT
                    std::cout << "DAGNode: found object " << (obj)->getName() << " of type " << (obj)->getClassName() << std::endl;
#endif
                    break;
                }
            }
        }

    if (result == NULL)
    {
        switch(dir)
        {
        case Local:
            break;
        case SearchParents:
        case SearchUp:
        {
            Parents parents = getParents();
            if (!parents.empty())
                for (Parents::iterator it = parents.begin(); it!=parents.end() && !result; it++)
                    result = dynamic_cast<Node*>(*it)->getObject(class_info, tags, SearchUp);
        }
        break;
        case SearchDown:
            for(ChildIterator it = child.begin(); it != child.end(); ++it)
            {
                result = (*it)->getObject(class_info, tags, dir);
                if (result != NULL) break;
            }
            break;
        case SearchRoot:
            std::cerr << "SearchRoot SHOULD NOT BE POSSIBLE HERE!\n";
            break;
        }
    }

    return result;
}