Exemplo n.º 1
0
void processParticle(XSParticle *xsParticle)
{
    if (!xsParticle) {
        XERCES_STD_QUALIFIER cout << "xsParticle is NULL"; 
        return;
    }
    XSParticle::TERM_TYPE termType = xsParticle->getTermType();
    if (termType == XSParticle::TERM_ELEMENT) {
        XSElementDeclaration *xsElement = xsParticle->getElementTerm();
        XERCES_STD_QUALIFIER cout << StrX(xsElement->getName());
    } else if (termType == XSParticle::TERM_MODELGROUP) {
        XERCES_STD_QUALIFIER cout << "(";
        
        XSModelGroup *xsModelGroup = xsParticle->getModelGroupTerm();
        XSModelGroup::COMPOSITOR_TYPE compositorType = xsModelGroup->getCompositor();
        XSParticleList *xsParticleList = xsModelGroup->getParticles();
        for (unsigned i = 0; i < xsParticleList->size()-1; i++) {
            processParticle(xsParticleList->elementAt(i));
            printCompositorTypeConnector(compositorType);
        }
        processParticle(xsParticleList->elementAt(xsParticleList->size()-1));
        
        XERCES_STD_QUALIFIER cout << ")";
    } else if (termType == XSParticle::TERM_WILDCARD) {
        XERCES_STD_QUALIFIER cout << "* (wildcard)";
    }
}
Exemplo n.º 2
0
void PUParticleSystem3D::updator( float elapsedTime )
{
    bool firstActiveParticle = true;
    bool firstParticle = true;
    processParticle(_particlePool, firstActiveParticle, firstParticle, elapsedTime);

    for (auto &iter : _emittedEmitterParticlePool){
        processParticle(iter.second, firstActiveParticle, firstParticle, elapsedTime);
    }

    for (auto &iter : _emittedSystemParticlePool){
        processParticle(iter.second, firstActiveParticle, firstParticle, elapsedTime);
    }
}
Exemplo n.º 3
0
/* Move the particles */
void	atmosUpdateSystem( void )
{
	UDWORD	i;
	UDWORD	numberToAdd;
	Vector3i pos;

	// we don't want to do any of this while paused.
	if(!gamePaused() && weather!=WT_NONE)
	{
		for(i = 0; i < MAX_ATMOS_PARTICLES; i++)
		{
			/* See if it's active */
			if(asAtmosParts[i].status == APS_ACTIVE)
			{
				processParticle(&asAtmosParts[i]);
			}
		}

		/* This bit below needs to go into a "precipitation function" */
		numberToAdd = ((weather==WT_SNOWING) ? 2 : 4);

		/* Temporary stuff - just adds a few particles! */
		for(i=0; i<numberToAdd; i++)
		{

			pos.x = player.p.x + ((visibleTiles.x/2)*TILE_UNITS);
			pos.z = player.p.z + ((visibleTiles.y/2)*TILE_UNITS);
			pos.x += (((visibleTiles.x/2) - rand()%visibleTiles.x) * TILE_UNITS);
			pos.z += (((visibleTiles.x/2) - rand()%visibleTiles.x) * TILE_UNITS);
			pos.y = 1000;

			/* If we've got one on the grid */
			if(pos.x>0 && pos.z>0 &&
			   pos.x<(SDWORD)((mapWidth-1)*TILE_UNITS) &&
			   pos.z<(SDWORD)((mapHeight-1)*TILE_UNITS) )
			{
			   	/* On grid, so which particle shall we add? */
				switch(weather)
				{
				case WT_SNOWING:
					atmosAddParticle(&pos,AP_SNOW);
					break;
				case WT_RAINING:
					atmosAddParticle(&pos,AP_RAIN);
					break;
				case WT_NONE:
					break;
				default:
					break;
				}
			}
		}
	}
}
Exemplo n.º 4
0
void processComplexTypeDefinition(XSComplexTypeDefinition *xsComplexTypeDef)
{
    XSTypeDefinition *xsBaseTypeDef = xsComplexTypeDef->getBaseType();
    if (xsBaseTypeDef) {
        XERCES_STD_QUALIFIER cout << "Base:\t\t\t";
        XERCES_STD_QUALIFIER cout << StrX(xsBaseTypeDef->getName()) << "\n";
    }
    
    XERCES_STD_QUALIFIER cout << "Content Model:\t";
    XSComplexTypeDefinition::CONTENT_TYPE contentType = xsComplexTypeDef->getContentType();
    if (contentType == XSComplexTypeDefinition::CONTENTTYPE_ELEMENT ||
        contentType == XSComplexTypeDefinition::CONTENTTYPE_MIXED) {
        processParticle(xsComplexTypeDef->getParticle());
        XERCES_STD_QUALIFIER cout << XERCES_STD_QUALIFIER endl;
    }
}