float m_data = *((float *)data)*2;
float tmp;
- if (updated) {
- who->recieve_msg(MSG_RESPONSE_MAX_FLOW, this, &actual_flow);
+/* if (updated) {
+ if (m_data == 0) {
+ tmp = 0;
+ actual_flow /= 2.0f;
+ } else {
+ tmp = actual_flow/2.0f;
+ }
+ who->recieve_msg(MSG_RESPONSE_MAX_FLOW, this, &tmp);
break;
- }
+ }*/
updated = true;
if (m_data == 0) {
in_on_zero++;
tmp = 0.0f;
who->recieve_msg(MSG_RESPONSE_MAX_FLOW, this, &tmp);
- if (in_on_zero == 1) {
- if (in_ready == 0)
- tmp = max_flow;
- else
- tmp = actual_flow/2.0f;
+ switch (in_on_zero) {
+ case 1:
+ if (in_ready == 0)
+ tmp = max_flow;
+ else
+ tmp = actual_flow/2.0f;
+ break;
+ case 0:
+ if (in_ready == 1) {
+ tmp = actual_flow/2.0f;
+ }
+ break;
+ case 2:
+ tmp = 0.0f;
}
send_msg(OUT, MSG_QUERY_MAX_FLOW_OUT, &tmp);
} else {
}
}
break;
+ case MSG_RESPONSE_COLOR:
+ if (in_colors == 0) {
+ color1 = *((RGB *)data);
+ entrada1 = static_cast<PlantItem *>(who);
+ flow1 = entrada1->get_actual_flow();
+ in_colors++;
+ } else if ((in_colors == 1) && (entrada1 != who)) {
+ color2 = *((RGB *)data);
+ flow2 = static_cast<PlantItem *>(who)->get_actual_flow();
+ in_colors++;
+ if (color1 == color2) {
+ std::cout << "TODO MAL" << std::endl << std::endl;
+ }
+
+ /* Ya tengo mis 2 colores, los sumo */
+ int r,g,b;
+ int n=2;
+ if (flow1 == 0) n--;
+ if (flow2 == 0) n--;
+ float suma = flow1+flow2;
+ if (n != 0) {
+ r = (int)(color1.r()*flow1/suma + color2.r()*flow2/suma);
+ g = (int)(color1.g()*flow1/suma + color2.g()*flow2/suma);
+ b = (int)(color1.b()*flow1/suma + color2.b()*flow2/suma);
+ set_color(RGB(r,g,b));
+ } else {
+ set_color(RGB(0,0,0));
+ }
+ color_updated = true;
+ }
+ break;
default:
Transport::recieve_msg(msg, who, data);
}
{
// Si ya me actualice, no lo tengo que hacer de nuevo
if (updated) return;
+
// Seteo mi actualizar en true para evitar entrar de nuevo
// FIXME : 99999 == INFINITO!!
actual_flow = 99999;
void Union::simulate()
{
- RGB c_in1, c_in2;
- unsigned r=0,g=0,b=0;
- float c_f1, c_f2; // para ver los flujos de cada uno
-
- if (!updated) {
- return;
- }
- std::list<IConector *>::iterator i = in_list.begin();
- if (i != in_list.end()) {
- PlantItem *o = (PlantItem *)(*i);
- c_in1 = o->get_color();
- c_f1 = o->get_actual_flow();
- i++;
- o = (PlantItem *)(*i);
- c_in2 = o->get_color();
- c_f2 = o->get_actual_flow();
- }
+ if (!updated) return;
- set_color( RGB(r,g,b) );
- if ((c_f1 != 0) && (c_f2 != 0)) {
- // Si ambas entradas traen flujo, sumo sus colores
- r = ((c_in1.r()+c_in2.r())/2)%256;
- g = ((c_in1.g()+c_in2.g())/2)%256;
- b = ((c_in1.b()+c_in2.b())/2)%256;
- set_color(RGB(r,g,b));
- } else {
- // Veo que entrada trae color
- if (c_f1 != 0) {
- set_color( c_in1 );
- }
- if (c_f2 != 0) {
- set_color( c_in2 );
- }
- }
-
#ifdef DEBUG
std::cout << name << "::Flujo actual = " << actual_flow << std::endl;
#endif
updated = false;
+ color_updated = false;
in_on_zero = 0;
in_ready = 0;
+ color_updated = false;
+ in_colors = 0;
}