]> git.llucax.com Git - z.facultad/75.42/plaqui.git/blob - Constructor/src/conduct.cpp
cambio la sintaxis XML de las compuertas
[z.facultad/75.42/plaqui.git] / Constructor / src / conduct.cpp
1 #include "conduct.h"
2
3 Conduct::Conduct(int orientacion)
4 {
5         in_x = -1;
6         imageN = Gdk::Pixbuf::create_from_file(PACKAGE_DATA_DIR"/plaqui-constructor/pixmaps/canio_n.png");
7         imageS = Gdk::Pixbuf::create_from_file(PACKAGE_DATA_DIR"/plaqui-constructor/pixmaps/canio_s.png");
8         null = Gdk::Pixbuf::create_from_file(PACKAGE_DATA_DIR"/plaqui-constructor/pixmaps/null.png");
9         imgActual = orientacion;
10         switch (imgActual) {
11                 case 1:
12                         image = imageS;
13                         break;
14                 default: 
15                         imgActual = 0;
16                         image = imageN;                 
17         }
18         set_size_request(image->get_width(), image->get_height());
19         property_wnd->set_title("Propiedades del Tubo");
20         name="tubo";
21         Connector temp;
22         temp.id_dest = -1;
23         temp.type = UNDEF;
24         connect_vec.push_back(temp);
25         connect_vec.push_back(temp);
26 }
27
28 Conduct::~Conduct()
29 {
30 }
31
32 bool Conduct::on_button_press_event(GdkEventButton *event)
33 {
34         if ((event->type == GDK_BUTTON_PRESS) && ( event->button == 1)) {
35                 list_pointed->push_back(name);
36                 combo_entry->set_popdown_strings(*list_pointed);
37                 WorkPlace::pointed = ID;
38                 combo_entry->get_entry()->set_text (name);
39                 workplace->queue_draw();
40                 char f[10];
41                 Glib::ustring text;
42                 sprintf(f,"%.1f",caudal_max);
43                 text = name+"  Caudal Maximo: ";
44                 text += f;
45                 status_bar->push ( text, 0);
46         }
47         
48         if ((event->type == GDK_BUTTON_PRESS) && ( event->button ==2)){
49                 image = null; 
50                 image->render_to_drawable(get_window(),get_style()->get_black_gc(),0,0,0,0,image->get_width(),image->get_height(),Gdk::RGB_DITHER_NONE,0,0);
51                 imgActual++;
52                 switch (imgActual) {
53                         case 1:
54                                 image = imageS;
55                                 break;
56                         default: 
57                                 imgActual = 0;
58                                 image = imageN;                 
59                 }
60                 set_size_request(image->get_width(), image->get_height());              
61                 image->render_to_drawable(get_window(),get_style()->get_black_gc(),0,0,0,0,image->get_width(),image->get_height(),Gdk::RGB_DITHER_NONE,0,0);
62         }
63         if ((event->type == GDK_BUTTON_PRESS) && ( event->button == 3)){
64                 menu_popup.popup(event->button, event->time);
65                  return true; //It has been handled.
66         }
67         
68         if ((event->type == GDK_2BUTTON_PRESS) && (event->button ==1)){
69                 property_wnd->spin_caudal->set_value( caudal_max );
70                 property_wnd->txt_item_name->set_text (name);
71                 property_wnd->show();
72         }
73         return true;
74 }
75
76 void Conduct::on_menu_popup_rotar()
77 {
78         GdkEventButton event; 
79                 event.type = GDK_BUTTON_PRESS;
80                 event.button = 2;
81         Conduct::on_button_press_event(&event);
82 }
83
84 void Conduct::on_menu_popup_propiedades()
85 {
86         GdkEventButton event;
87         event.type = GDK_2BUTTON_PRESS;
88         event.button = 1;
89         Conduct::on_button_press_event(&event);
90 }
91
92 void Conduct::save(FILE *archivo)
93 {
94         char c_id[50], c_caudal[50], c_x[50], c_y[50], c_img[50];
95         Glib::ustring  con0, con1;
96         if (connect_vec[0].type == IN)
97                 con0 = "\t\t\t<entrada>"+get_other_name(connect_vec[0].id_dest)+"</entrada>\n";
98         else
99                 con0 = "\t\t\t<salida>"+get_other_name(connect_vec[0].id_dest)+"</salida>\n";
100         if (connect_vec[1].type == IN) 
101                 con1 = "\t\t\t<entrada>"+get_other_name(connect_vec[1].id_dest)+"</entrada>\n";
102         else
103                 con1 = "\t\t\t<salida>"+get_other_name(connect_vec[1].id_dest)+"</salida>\n";
104         sprintf(c_x,"\t\t<x>%d</x>\n",x);
105         sprintf(c_y,"\t\t<y>%d</y>\n",y);
106         sprintf(c_id,"%d",ID);
107         sprintf(c_caudal,"\t\t<caudal>%.2f</caudal>\n", caudal_max);
108         sprintf(c_img,"\t\t<orientacion>%d</orientacion>\n",imgActual);
109         Glib::ustring dato;
110         dato = "\t<tubo nombre=\""+name+"\" id=\"";
111         dato += c_id;
112         dato += "\">\n";
113         dato += c_caudal;
114         dato += "\t\t<conector>\n"+con0 + con1+"\t\t</conector>\n";     
115         dato += c_img;
116         dato += c_x; 
117         dato += c_y;
118         dato += "\t</tubo>\n";
119         fprintf(archivo,dato.c_str());  
120 }
121
122 bool Conduct::check_connection()
123 {
124         ConnectorType aux, aux1, aux2;
125         CItem *_item0, *_item1;
126         switch (get_img_actual()) {
127                 case 0:
128                         aux1 = is_other_connection_area( get_position_x()+16, get_position_y()-5, &_item0);
129                         aux2 = is_other_connection_area( get_position_x()+16, get_position_y()+get_image()->get_height() +5,& _item1);
130                 break;          
131                 case 1:
132                         aux1 = is_other_connection_area( get_position_x()-5, get_position_y()+16, &_item0);
133                         aux2 = is_other_connection_area( get_position_x()+get_image()->get_width()+5, get_position_y()+16, &_item1);
134         }
135         if ( (aux1 != UNDEF) && (aux2 != UNDEF) ) {
136                 if (!is_connected) {
137                         connect_vec[0].type = aux2;
138                         connect_vec[1].type = aux1;
139                 }
140                 connect_vec[0].id_dest = _item0->get_id();
141                 connect_vec[1].id_dest = _item1->get_id();
142                 return ( is_connected = (connect_vec[0].type != connect_vec[1].type) );
143         }
144         return is_connected = false;
145 }
146
147 /*si no estoy conectado pregunto por el del otro lado, y ahi puedo setear los dos
148  *si ya estoy devuelvo.
149 */
150 ConnectorType Conduct::get_connector_type(int _a, int _b)
151
152         CItem *_item;
153         switch (imgActual) {
154                 case 0:
155                         if ( (_a <= x+image->get_width()-10 )&&(_a >= x + 10) && (_b <= y+10) &&(_b > 0 ) ){  //arriba
156                                 if ( is_connected ) return connect_vec[0].type;                 
157                                 connect_vec[1].type = is_other_connection_area(get_position_x()+16, get_position_y()+get_image()->get_height() +5, &_item); //pregunto que hay abajo
158                                 switch ( connect_vec[1].type ) {
159                                         case IN: 
160                                         connect_vec[1].type = OUT;
161                                         connect_vec[0].type = IN;               
162                                         break;
163                                         case OUT:
164                                         connect_vec[1].type = IN;
165                                         connect_vec[0].type = OUT;              
166                                         break;
167                                         case UNDEF:
168                                         return UNDEF;
169                                 }
170                                 is_connected = true;
171                                 return connect_vec[0].type;
172                         }
173                         
174                         if ((_a <= x+22 )&&(_a >= x + 10) && (_b <= y+image->get_height()-1) &&(_b >= y+image->get_height()-10 )) {//abajo
175                                 if ( is_connected ) return connect_vec[1].type;                 
176                                 connect_vec[0].type = is_other_connection_area( get_position_x()+16, get_position_y()-5,& _item);//pregunto que hay arriba.
177                                 switch ( connect_vec[0].type ) {
178                                         case IN: 
179                                         connect_vec[0].type = OUT;
180                                         connect_vec[1].type = IN;               
181                                         break;
182                                         case OUT:
183                                         connect_vec[0].type = IN;
184                                         connect_vec[1].type = OUT;              
185                                         break;
186                                         case UNDEF:
187                                         return UNDEF;
188                                 }
189                                 is_connected = true;
190                                 return connect_vec[1].type;
191                         }
192                 break;
193                 case 1: 
194                         if ((_a <= x+10 )&&(_a > 0) && (_b <= y+image->get_height()-10) &&(_b >= y+10 )){ //izquierda
195                                 if ( is_connected ) return connect_vec[0].type;                 
196                                 connect_vec[1].type = is_other_connection_area(get_position_x()+get_image()->get_width()+5, get_position_y()+16, &_item);//pregunto por la derecha
197                                 switch ( connect_vec[1].type ) {
198                                         case IN: 
199                                         connect_vec[1].type = OUT;
200                                         connect_vec[0].type = IN;               
201                                         break;
202                                         case OUT:
203                                         connect_vec[1].type = IN;
204                                         connect_vec[0].type = OUT;              
205                                         break;
206                                         case UNDEF:
207                                         return UNDEF;
208                                 }
209                                 is_connected = true;
210                                 return connect_vec[0].type;
211                         }
212                   if ((_a <= x+image->get_width()-1)&&(_a >= x+image->get_width()-10) && (_b <= y+image->get_height()-10) &&(_b >= y +10 )) {//derecha
213                                 if ( is_connected ) return connect_vec[1].type;                 
214                                 connect_vec[0].type =   is_other_connection_area(get_position_x()-5, get_position_y()+16, &_item); //pregunto por la izquierda. 
215                                 switch ( connect_vec[0].type ) {
216                                         case IN: 
217                                         connect_vec[0].type = OUT;
218                                         connect_vec[1].type = IN;               
219                                         break;
220                                         case OUT:
221                                         connect_vec[0].type = IN;
222                                         connect_vec[1].type = OUT;              
223                                         break;
224                                         case UNDEF:
225                                         return UNDEF;
226                                 }
227                                 is_connected = true;
228                                 return connect_vec[1].type;
229                         }
230                 }
231         return UNDEF;
232 }
233
234
235 void Conduct::set_default_connector()
236 {
237         connect_vec[0].type = UNDEF;
238         connect_vec[1].type = UNDEF;
239 }