X-Git-Url: https://git.llucax.com/z.facultad/75.42/plaqui.git/blobdiff_plain/2d7fff39ec5ab67f13b5250a60082c4bc62c1739..4ddd90e71988f16c5ea79f5de86a9fcb63973ded:/Model/src/tank.cpp

diff --git a/Model/src/tank.cpp b/Model/src/tank.cpp
index 895b5ef..0a83de3 100644
--- a/Model/src/tank.cpp
+++ b/Model/src/tank.cpp
@@ -1,16 +1,23 @@
 
 #include "tank.h"
 #include <iostream>
+#include "condition.h"
 
 using namespace PlaQui::Model;
 
 Tank::Tank(const std::string &_name):Source(_name),Drain(_name),Control(_name)
 {
 	litros = 0.0f;
+
+	/* Utilizo en input como el flotante de arriba y el output como el de abajo */
+	input = new Condition(Condition::GT, 0.9, this);
+	output = new Condition(Condition::LT, 0.1, this);
 }
 
 Tank::~Tank()
 {
+	delete input;
+	delete output;
 }
 
 bool Tank::get_output()
@@ -26,33 +33,20 @@ void Tank::update(int dir)
 void Tank::simulate()
 {
 	if (!updated) return;
-	RGB in_color;
 
-	std::list<IConector *>::iterator i = in_list.begin();
-	if (i != in_list.end()) {
-		PlantItem *o = (PlantItem *)(*i);
-		in_color = o->get_color();
-	}
+	// le sumo lo que recibo
+	litros += actual_in_flow;
+	// calculo el nuevo color
 
 	// le resto lo que entrego
 	litros -= actual_out_flow;
 
-	// calculo el nuevo color
-	int r, g, b;
-	float l = litros+actual_in_flow;
-
-	r = (int)(fluid_color.r()*litros/l + in_color.r()*actual_in_flow/l);
-	g = (int)(fluid_color.g()*litros/l + in_color.g()*actual_in_flow/l);
-	b = (int)(fluid_color.b()*litros/l + in_color.b()*actual_in_flow/l);
-	
-	fluid_color = RGB(r,g,b);
-
-	// le sumo lo que recibo
-	litros = l;
-
+#ifdef DEBUG
 	std::cout << name << "Capacidad: " << capacity;
 	std::cout << "  Litros : " << litros << std::endl;
+#endif
 	updated = false;
+	color_updated = false;
 }
 
 void Tank::recieve_msg(int msg, IConector *who, void *data)
@@ -67,20 +61,43 @@ void Tank::recieve_msg(int msg, IConector *who, void *data)
 	
 	switch (msg) {
 		case MSG_QUERY_MAX_FLOW_OUT:
+			if (updated) {
+				who->recieve_msg(MSG_RESPONSE_MAX_FLOW, this, &actual_in_flow);
+			}
 			actual_in_flow = capacity - litros;
 			if (*((float *)data) < actual_in_flow)
 				actual_in_flow = *((float *)data);
-			actual_out_flow = litros;
+			actual_flow = actual_out_flow = litros;
+			updated = true;
 			send_msg(OUT, MSG_QUERY_MAX_FLOW_OUT, &actual_out_flow);
 
 			who->recieve_msg(MSG_RESPONSE_MAX_FLOW, this, &actual_in_flow);
-			updated = true;
 		break;
 		case MSG_RESPONSE_MAX_FLOW:
 			if (pos == OUT) {
 				if (*((float *)data) < actual_out_flow)
-					actual_out_flow = *((float *)data);
+					actual_flow = actual_out_flow = *((float *)data);
 			}
+		break;
+		case MSG_RESPONSE_COLOR:
+		{
+			RGB c = *((RGB *)data);
+			PlantItem *ic = static_cast<PlantItem *>(*(in_list.begin()));
+			int r,g,b;
+			float total = litros + ic->get_actual_flow();
+			
+			r = (int)(get_color().r()*litros/total + c.r()*ic->get_actual_flow()/total);
+			g = (int)(get_color().g()*litros/total + c.g()*ic->get_actual_flow()/total);
+			b = (int)(get_color().b()*litros/total + c.b()*ic->get_actual_flow()/total);
+			r %= 256;
+			g %= 256;
+			b %= 256;
+			set_color(RGB(r,g,b));
+			color_updated = true;
+		}
+		break;
+		default:
+			Control::recieve_msg(msg, who, data);
 	}
 }