* Se agrega ejemplo de carga desde un archivo XML. Para operar, copiar un xml

[z.facultad/75.42/plaqui.git] / Model / src / main.cpp

diff --git a/Model/src/main.cpp b/Model/src/main.cpp
index 5f9187e4ac2450a84f72a1d445b856d2fbdc333b..ab4f7f648407301aa4fa424a93f35fa5074102c3 100644 (file)
--- a/Model/src/main.cpp
+++ b/Model/src/main.cpp
@@ -8,88 +8,39 @@
 #include "drainage.h"
 #include "exclusa.h"
 #include <unistd.h>
 #include "drainage.h"
 #include "exclusa.h"
 #include <unistd.h>

+#include <iostream>
+#include "simulador.h"

 
 using namespace std;
 using namespace PlaQui::Model;
 
 int main(int argc, char *argv[])
 {
 
 using namespace std;
 using namespace PlaQui::Model;
 
 int main(int argc, char *argv[])
 {

-       Pump *bomba1;
-       Exclusa *exclusa1;
-       Conduct *salida1;
-       Conduct *salida2;
-       Conduct *entrada;
-       Splitter *split;
-       Drainage *dren1, *dren2;
-       
+       Simulador *sim = new Simulador();

 
 

-       bomba1 = new Pump("bomba");
-       bomba1->set_max_flow(30);
-       salida1 = new Conduct("salida_1");
-       salida1->set_max_flow(2);
-       salida2 = new Conduct("salida_2");
-       salida2->set_max_flow(5);
-       exclusa1 = new Exclusa("exclusa1");
+       sim->add_pump("bomba1");
+       sim->add_conduct("c");
+       sim->add_conduct("c1");
+       sim->add_drainage("d");
+       sim->add_tank("tanque");

 
 

-       split = new Splitter("splitter");
-       split->set_max_flow(8);
-       entrada = new Conduct("entrada");
-       entrada->set_max_flow(10);
+       sim->connect("bomba1", "c", IConector::OUT);
+       sim->connect("c", "tanque", IConector::OUT);
+       sim->connect("tanque", "c1", IConector::OUT);
+       sim->connect("c1", "d", IConector::OUT);

 
 

-       dren1 = new Drainage("drenaje1");
-       dren2 = new Drainage("drenaje2");
-
-       bomba1->connect(exclusa1, IConector::OUT);
-       exclusa1->connect(bomba1, IConector::IN);
-       exclusa1->connect(entrada, IConector::OUT);
-       entrada->connect(exclusa1, IConector::IN);
-       entrada->connect(split, IConector::OUT);
-       split->connect(entrada, IConector::IN);
-       split->connect(salida1, IConector::OUT);
-       split->connect(salida2, IConector::OUT);
-       salida1->connect(split, IConector::IN);
-       salida2->connect(split, IConector::IN);
-       salida1->connect(dren1, IConector::OUT);
-       salida2->connect(dren2, IConector::OUT);
-
-       //// LOGICA DE CONTROL!!
-       // CONECTO LA SALIDA DE LA EXCLUSA A LA ENTRADA DE LA BOMBA
-       bomba1->connect_input_logic( exclusa1->get_logic_output() );
-
-       int i = 0;
+       int i=0;

        while (i<10) {
        while (i<10) {

-               bomba1->update();
-               exclusa1->update();
-               salida1->update();
-               salida2->update();
-               entrada->update();
-               split->update();
-               dren1->update();
-               dren2->update();
-
-               bomba1->simulate();
-               exclusa1->simulate();
-               salida1->simulate();
-               salida2->simulate();
-               entrada->simulate();
-               split->simulate();
-               dren1->simulate();
-               dren2->simulate();
-                                       
-               sleep(1);
-               if (i == 5) {
-                       //bomba1->deactivate();
-                       // Ahora cierro la exclusa!, la bomba deberia apagarse!!!
-                       exclusa1->close();
+               sim->simulate();
+               if (i == 4) {
+                       if (!sim->pump_deactivate("bomba1")) {
+                               std::cout << "c no es pump :-)" << std::endl;
+                       }

                }
                i++;
        }
 
                }
                i++;
        }
 

-       delete bomba1;
-       delete salida1;
-       delete salida2;
-       delete entrada;
-       delete split;
+       delete sim;

        return 1;
 }
 
        return 1;
 }