Example #1
0
 void Serializer::applyStateToComponent(const Component::Ptr &theComponent,
                                        const std::string &theState,
                                        const PropertyIO &theIO)
 {
     Json::Reader myReader;
     Json::Value myRoot;
     bool myParsingSuccessful = myReader.parse(theState, myRoot);
     
     if (!myParsingSuccessful)
     {
         throw ParsingException(theState);
     }
     
     for (unsigned int i=0; i<myRoot.size(); i++)
     {
         Json::Value myComponentNode = myRoot[i];
         if(myComponentNode[PropertyIO::PROPERTY_NAME] != theComponent->getName()){continue;}
         
         for (unsigned int i=0; i < myComponentNode[PropertyIO::PROPERTIES].size(); i++)
         {
             try
             {
                 std::string myName =
                 myComponentNode[PropertyIO::PROPERTIES][i][PropertyIO::PROPERTY_NAME].asString();
                 
                 Property::Ptr myProperty = theComponent->getPropertyByName(myName);
                 theIO.writePropertyValue(myProperty, myComponentNode[PropertyIO::PROPERTIES][i]);
                 
             } catch (PropertyNotFoundException &myException)
             {
                 LOG_WARNING << myException.what();
             }
         }
     }
 }
Example #2
0
Component::Ptr Component::remove_component ( const std::string& name )
{
  // find the component exists
  Component::CompStorage_t::iterator itr = m_dynamic_components.find(name);

  if ( itr != m_dynamic_components.end() )         // if exists
  {
    Component::Ptr comp = itr->second;             // get the component

    // remove the component from the root
    if( !m_root.expired() )
      m_root.lock()->remove_component_path(comp->uri());

    m_dynamic_components.erase(itr);               // remove it from the storage

    // remove from the list of all components
    Component::CompStorage_t::iterator citr = m_components.find(name);
    m_components.erase(citr);

    comp->change_parent( NULL );                   // set parent to invalid

    raise_path_changed();

    return comp;                                   // return it to client
  }
  else                                             // if does not exist
  {
    throw ValueNotFound(FromHere(), "Dynamic component with name '"
                        + name + "' does not exist in component '"
                        + this->name() + "' with path ["
                        + m_path.path() + "]");
  }
}
Example #3
0
 void GLFW_App::create_tweakbar_from_component(const Component::Ptr &the_component)
 {
     if(!the_component) return;
     m_tweakBars.push_back(TwNewBar(the_component->getName().c_str()));
     setBarColor(glm::vec4(0, 0, 0, .5), m_tweakBars.back());
     setBarSize(glm::ivec2(250, 500));
     glm::ivec2 offset(10);
     setBarPosition(glm::ivec2(offset.x + 260 * (m_tweakBars.size() - 1), offset.y), m_tweakBars.back());
     addPropertyListToTweakBar(the_component->getPropertyList(), "", m_tweakBars.back());
 }
Example #4
0
	Size StackLayout::layout(Component::Ptr component, const std::list<Component::Ptr>& children, const Size& innerSize)
	{
		Size preferred = Size::ZERO;

		for (std::list<Component::Ptr>::const_iterator child = children.begin(); child != children.end(); ++child) {
			Component::Ptr childComp = *child;

			childComp->setSize(innerSize);
			childComp->setPosition(Point(0, 0));

			preferred = Size::max(preferred, childComp->getPreferredSize());
		}

		return preferred.grow(component->getInsets());
	}
Example #5
0
void Container::pack(Component::Ptr component)
{
	mChildren.push_back(component);

	if (!hasSelection() && component->isSelectable())
		select(mChildren.size() - 1);
}
Example #6
0
void drimi::Gui::Container::Pack ( Component::Ptr pComponent ) {
  m_oChildren.push_back (pComponent);

  // If container has no selection and the component
  // is selectable then select it.
  if (!HasSelection () && pComponent->IsSelectable ())
    Select (m_oChildren.size ()-1);
}
Example #7
0
	void Container::Pack( Component::Ptr component )
	{
		pImpl->mChildren.push_back( component );
		if( !pImpl->HasSelection() && component->IsSelectable() )
		{
			pImpl->Select( pImpl->mChildren.size() - 1 );
		}
	}
Example #8
0
void TpMzScheme::evalDesign(Design::Ptr d){

  DesignStore::Ptr ds = Game::getGame()->getDesignStore();
  
  if (scheme_setjmp(scheme_error_buf)) {
    Logger::getLogger()->warning("MzScheme Error");
  } else {
    Scheme_Object* temp;

    std::ostringstream formater;
   
    formater.str("");
    formater << "(define-values (struct:designType make-designType designType? designType-ref designType-set!)(make-design-type "
	     << ds->getMaxPropertyId() << "))";
    temp = scheme_eval_string(formater.str().c_str(), env);
    
    temp = scheme_eval_string("(define property-designType-set! (lambda (design id val) (designType-set! design (- id 1) val)))", env);

    std::set<uint32_t> propids = ds->getPropertyIds();
    for(std::set<uint32_t>::iterator propit = propids.begin();
	propit != propids.end(); ++propit){
      // for each property type
      Property::Ptr p = ds->getProperty(*propit);
      if(p){
	formater.str("");
	formater << "(define designType." << p->getName() 
		 << " (make-property-accessor designType-ref "
		 << p->getPropertyId() << " \"" << p->getName() 
		 << "\" ))";
	temp = scheme_eval_string(formater.str().c_str(), env);
	
      }
    }
    propids.clear();

        IdMap complist = d->getComponents();

    temp = scheme_eval_string("(define design (make-designType))", env);
    
    for(std::set<uint32_t>::iterator propit = propids.begin();
            propit != propids.end(); ++propit){
        formater.str("");
        formater << "(property-designType-set! design " 
                 << *propit << " 0.0)";
        temp = scheme_eval_string(formater.str().c_str(), env);
    }

        std::map<uint32_t, std::map<uint32_t, std::list<std::string> > > propranking;
        for(IdMap::iterator compit = complist.begin();
                compit != complist.end(); ++compit){
            Component::Ptr c = ds->getComponent(compit->first);
            std::map<uint32_t, std::string> pilist = c->getPropertyList();
            for(std::map<uint32_t, std::string>::iterator piit = pilist.begin();
                    piit != pilist.end(); ++piit){
                Property::Ptr p = ds->getProperty(piit->first);
                for(uint32_t i = 0; i < compit->second; i++){
                    propranking[p->getRank()][p->getPropertyId()].push_back(piit->second);
                }
      }

    }

    std::map<uint32_t, PropertyValue> propertyvalues;

    for(std::map<uint32_t, std::map<uint32_t, std::list<std::string> > >::iterator rpiit = propranking.begin();
	rpiit != propranking.end(); ++rpiit){
      std::map<uint32_t, std::list<std::string> > pilist = rpiit->second;
      std::set<PropertyValue> localvalues;
      for(std::map<uint32_t, std::list<std::string> >::iterator piit = pilist.begin();
	  piit != pilist.end(); ++piit){
	PropertyValue propval(piit->first,0.0);
	std::list<double> listvals;
	std::list<std::string> lambdas = piit->second;
	for(std::list<std::string>::iterator itlamb = lambdas.begin();
	    itlamb != lambdas.end(); ++itlamb){
	  temp = scheme_eval_string((std::string("(") + (*itlamb) + " design)").c_str(), env);
	  if(!SCHEME_NUMBERP(temp)){
	    Logger::getLogger()->warning("MzScheme: Return not a number");
	  }else{
	    listvals.push_back(scheme_real_to_double(temp));
	  }
	}
	Property::Ptr p = ds->getProperty(piit->first);
	formater.str("");
	formater << "(" <<  p->getTpclDisplayFunction() << " design '(";
	for(std::list<double>::iterator itvals = listvals.begin();
	    itvals != listvals.end(); ++itvals){
	  formater << *itvals << " ";
	}
	formater << "))";
	temp = scheme_eval_string(formater.str().c_str(), env);
#ifdef HAVE_MZSCHEME20X
	if(!SCHEME_PAIRP(temp) || !SCHEME_NUMBERP(SCHEME_CAR(temp)) || !SCHEME_STRINGP(SCHEME_CDR(temp))){
#else
	if(!SCHEME_PAIRP(temp) || !SCHEME_NUMBERP(SCHEME_CAR(temp)) || !SCHEME_CHAR_STRINGP(SCHEME_CDR(temp))){
#endif
	  Logger::getLogger()->warning("MzScheme: Return not a pair, or the wrong time in the pair");
	}else{
	  propval.setValue(scheme_real_to_double(SCHEME_CAR(temp)));
#ifdef HAVE_MZSCHEME20X
	  propval.setDisplayString(std::string(SCHEME_STR_VAL(SCHEME_CDR(temp)))); 
#else
	  propval.setDisplayString(std::string((char*)SCHEME_CHAR_STR_VAL(SCHEME_CDR(temp)))); 
#endif
	  localvalues.insert(propval);
	}
      }
      for(std::set<PropertyValue>::iterator pvit = localvalues.begin();
	  pvit != localvalues.end(); ++pvit){
	PropertyValue pv = *pvit;
	formater.str("");
	formater << "(property-designType-set! design " 
		 << pv.getPropertyId() << " " << pv.getValue()
		 << ")";
	temp = scheme_eval_string(formater.str().c_str(), env);
	propertyvalues[pv.getPropertyId()] = pv;
      }
    }

    d->setPropertyValues(propertyvalues);

    // now check if the design is valid
    
    bool valid = true;
    std::string feedback = "";
        Logger::getLogger()->debug("About to process requirement functions");

        for(IdMap::iterator compit = complist.begin();
                compit != complist.end();
                ++compit){
            uint32_t curval = compit->first;
      
      //for each component in the design
      temp = scheme_eval_string((std::string("(") + ds->getComponent(curval)->getTpclRequirementsFunction() + " design)").c_str(), env);
#ifdef HAVE_MZSCHEME20X
      if(!SCHEME_PAIRP(temp) || !SCHEME_STRINGP(SCHEME_CDR(temp))){
#else
      if(!SCHEME_PAIRP(temp) || !SCHEME_CHAR_STRINGP(SCHEME_CDR(temp))){
#endif
	Logger::getLogger()->warning("MzScheme: (a) Return not a pair, or the wrong time in the pair");
      }else{
	valid &= SCHEME_TRUEP(SCHEME_CAR(temp));
#ifdef HAVE_MZSCHEME20X
	std::string strtemp = SCHEME_STR_VAL(SCHEME_CDR(temp));
#else
	std::string strtemp = (char*)SCHEME_CHAR_STR_VAL(SCHEME_CDR(temp));
#endif
	if(strtemp.length() > 0)
	  feedback += strtemp + " ";
      }
    }

        for(std::map<uint32_t, std::map<uint32_t, std::list<std::string> > >::iterator rpiit = propranking.begin();
                rpiit != propranking.end(); ++rpiit){
            std::map<uint32_t, std::list<std::string> > pilist = rpiit->second;
            for(std::map<uint32_t, std::list<std::string> >::iterator piit = pilist.begin();
                    piit != pilist.end(); ++piit){
                temp = scheme_eval_string((std::string("(") + ds->getProperty(piit->first)->getTpclRequirementsFunction() + " design)").c_str(), env);
#ifdef HAVE_MZSCHEME20X
                if(!SCHEME_PAIRP(temp) || !SCHEME_STRINGP(SCHEME_CDR(temp))){
#else
                if(!SCHEME_PAIRP(temp) || !SCHEME_CHAR_STRINGP(SCHEME_CDR(temp))){
#endif
                    Logger::getLogger()->warning("MzScheme: (a) Return not a pair, or the wrong time in the pair");
                }else{
                    valid &= SCHEME_TRUEP(SCHEME_CAR(temp));
#ifdef HAVE_MZSCHEME20X
                    std::string strtemp = SCHEME_STR_VAL(SCHEME_CDR(temp));
#else
                    std::string strtemp = (char*)SCHEME_CHAR_STR_VAL(SCHEME_CDR(temp));
#endif
                    if(strtemp.length() > 0)
                        feedback += strtemp + " ";
                }
            }
        }

        propranking.clear();

    d->setValid(valid, feedback);
    

    Logger::getLogger()->debug("Eval'ed design");
    if(!valid){
        Logger::getLogger()->debug("Design %s is not valid, reason: %s", d->getName().c_str(), feedback.c_str());
    }
  }
  
}

TpMzScheme::TpMzScheme(){
    //scheme_set_stack_base(NULL, 1); /* required for OS X, only. WILL NOT WORK HERE */
    bool loaded = false;
  env = scheme_basic_env();
  if (scheme_setjmp(scheme_error_buf)) {
    Logger::getLogger()->warning("MzScheme warning: could not load local file, trying installed file");
  } else {
      scheme_eval_string("(load \"../modules/tpcl/mzscheme/designstruct.scm\")",env);
        loaded = true;
  }
    if(loaded == false){
        if (scheme_setjmp(scheme_error_buf)) {
            Logger::getLogger()->warning("MzScheme warning: could not load installed file");
        } else {
            scheme_eval_string("(load \"" DATADIR "/tpserver/tpscheme/mzscheme/designstruct.scm\")", env);
            loaded = true;
        }
    }
    if(loaded == false){
        Logger::getLogger()->error("MzScheme Error: failed to load designstruct.scm file");
        //throw exception?
    }
}
Example #9
0
	Size GridLayout::layout(Component::Ptr component, const std::list<Component::Ptr>& children, const Size& innerSize)
	{
		unsigned int actualRows = rows;
		unsigned int actualColumns = columns;

		if (actualRows < 1 && actualColumns < 1) {
			actualRows = actualColumns = (unsigned int) ceil(sqrt(children.size()));
		} else if (actualRows < 1) {
			actualRows = (unsigned int) ceil((float) children.size() / (float) actualColumns);
		} else if (actualColumns < 1) {
			actualColumns = (unsigned int) ceil((float) children.size() / (float) actualRows);
		}

		Size childSize = innerSize.resize(-(actualColumns - 1) * hPadding, -(actualRows - 1) * vPadding).scale(1.0 / actualColumns,
			1.0 / actualRows);

		unsigned int row = 0;
		unsigned int column = 0;

		for (std::list<Component::Ptr>::const_iterator child = children.begin(); child != children.end(); ++child) {
			Component::Ptr childComp = *child;

			childComp->setSize(Size::min(childSize, childComp->getMaximumSize()));

			Point position(column * (childSize.width + hPadding), row * (childSize.height + vPadding));

			switch (defaultHAlignment) {
				default:
				case Component::ALIGN_LEFT:
					position = position.move(0, 0);
					break;

				case Component::ALIGN_CENTER:
					position = position.move((childSize.width - childComp->getWidth()) / 2, 0);
					break;

				case Component::ALIGN_RIGHT:
					position = position.move(childSize.width - childComp->getWidth(), 0);
					break;
			}

			switch (defaultVAlignment) {
				default:
				case Component::ALIGN_TOP:
					position = position.move(0, 0);
					break;

				case Component::ALIGN_CENTER:
					position = position.move(0, (childSize.height - childComp->getHeight()) / 2);
					break;

				case Component::ALIGN_BOTTOM:
					position = position.move(0, childSize.height - childComp->getHeight());
					break;
			}

			childComp->setPosition(position);

			if (order == LEFT_TO_RIGHT) {
				column += 1;
				if (column >= actualColumns) {
					column = 0;
					row += 1;
				}
			} else {
				row += 1;
				if (row >= actualRows) {
					row = 0;
					column += 1;
				}
			}
		}

		Size preferredChildSize = Size::ZERO;
		for (std::list<Component::Ptr>::const_iterator child = children.begin(); child != children.end(); ++child) {
			preferredChildSize = Size::max(preferredChildSize, (*child)->getPreferredSize());
		}

		return preferredChildSize.scale(actualColumns, actualRows).resize((actualColumns - 1) * hPadding, (actualRows - 1) * vPadding).grow(
			component->getInsets());
	}
Example #10
0
void DesignStore::addComponent(Component::Ptr c){
  c->setComponentId(next_componentid++);
  components[c->getId()] = c;
  componentIndex[c->getName()] = c->getId();
  Game::getGame()->getPersistence()->saveComponent(c);
}
Example #11
0
	Size BorderLayout::layout(Component::Ptr component, const std::list<Component::Ptr>& children, const Size& innerSize)
	{
		Component::Ptr top;
		Component::Ptr bottom;
		Component::Ptr left;
		Component::Ptr right;
		Component::Ptr center;

		for (std::list<Component::Ptr>::const_iterator child = children.begin(); child != children.end(); ++child) {
			Component::Alignment alignment = (*child)->getAlignment();

			switch (alignment) {
				case Component::ALIGN_LEFT:
					if (left) {
						throw Exception("BorderLayout supports only one component with ALIGN_LEFT");
					}

					left = (*child);
					break;

				case Component::ALIGN_TOP:
					if (top) {
						throw Exception("BorderLayout supports only one component with ALIGN_TOP");
					}

					top = (*child);
					break;

				case Component::ALIGN_RIGHT:
					if (right) {
						throw Exception("BorderLayout supports only one component with ALIGN_RIGHT");
					}

					right = (*child);
					break;

				case Component::ALIGN_BOTTOM:
					if (bottom) {
						throw Exception("BorderLayout supports only one component with ALIGN_BOTTOM");
					}

					bottom = (*child);
					break;

				default:
				case Component::ALIGN_DEFAULT:
				case Component::ALIGN_CENTER:
					if (center) {
						throw Exception("BorderLayout supports only one component with ALIGN_CENTER/ALIGN_DEFAULT");
					}

					center = (*child);
					break;
			}
		}

		Insets centerInsets;

		if (top) {
			top->setWidth(innerSize.width);
			top->setHeight(top->getPreferredSize().height);
			top->setPosition(Point(0, 0));

			centerInsets.top += top->getHeight();
		}

		if (bottom) {
			bottom->setWidth(innerSize.width);
			bottom->setHeight(bottom->getPreferredSize().height);
			bottom->setPosition(Point(0, innerSize.height - bottom->getHeight()));

			centerInsets.bottom += bottom->getHeight();
		}

		if (left) {
			left->setHeight(innerSize.shrink(centerInsets).height);
			left->setWidth(left->getPreferredSize().width);
			left->setPosition(Point(0, centerInsets.top));

			centerInsets.left += left->getWidth();
		}

		if (right) {
			right->setHeight(innerSize.shrink(centerInsets).height);
			right->setWidth(right->getPreferredSize().width);
			right->setPosition(Point(innerSize.width - right->getWidth(), centerInsets.top));

			centerInsets.right += right->getWidth();
		}

		if (center) {
			center->setSize(innerSize.shrink(centerInsets));
			center->setPosition(centerInsets.getTopLeft());
		}

		Size preferred;

		if (left) {
			const Size& size = left->getPreferredSize();
			preferred.width += size.width;
			preferred.height = std::max(preferred.height, size.height);
		}

		if (center) {
			const Size& size = center->getPreferredSize();
			preferred.width += size.width;
			preferred.height = std::max(preferred.height, size.height);
		}

		if (right) {
			const Size& size = right->getPreferredSize();
			preferred.width += size.width;
			preferred.height = std::max(preferred.height, size.height);
		}

		if (top) {
			const Size& size = top->getPreferredSize();
			preferred.width = std::max(preferred.width, size.width);
			preferred.height += size.height;
		}

		if (bottom) {
			const Size& size = bottom->getPreferredSize();
			preferred.width = std::max(preferred.width, size.width);
			preferred.height += size.height;
		}

		return preferred.grow(component->getInsets());
	}