And::And()
{
+ in_x = x;
+ in_y = y+16;
+ out_x = x+32;
+ out_y = y+16;
imageN = Gdk::Pixbuf::create_from_file(PACKAGE_DATA_DIR"/plaqui-constructor/pixmaps/and_n.png");
imageS = Gdk::Pixbuf::create_from_file(PACKAGE_DATA_DIR"/plaqui-constructor/pixmaps/and_s.png");
imageE = Gdk::Pixbuf::create_from_file(PACKAGE_DATA_DIR"/plaqui-constructor/pixmaps/and_e.png");
bool And::on_button_press_event(GdkEventButton *event)
{
- if ((event->type == GDK_BUTTON_PRESS) && ( event->button == 1))
+ if ((event->type == GDK_BUTTON_PRESS) && ( event->button == 1)) {
+ if ( CItem::logic_connect ) {
+ CItem::gate_id = ID;
+ WorkPlace::pointed = ID;
+ }
combo_entry->set_text(name);
+
+ }
if ((event->type == GDK_BUTTON_PRESS) && ( event->button == 2)){
image = null;
switch (imgActual) {
case 1:
image = imageS;
+ in_x = x +16;
+ in_y = y;
+ out_x = x+16;
+ out_y = y+32;
break;
case 2:
image = imageO;
+ in_x = x+32;
+ in_y = y+16;
+ out_x = x;
+ out_y = y+16;
break;
case 3:
image = imageN;
+ in_x = x+16;
+ in_y = y+32;
+ out_x = x+16;
+ out_y = y;
break;
default:
imgActual = 0;
image = imageE;
+ in_x = x;
+ in_y = y+16;
+ out_x = x+32;
+ out_y = y+16;
}
set_size_request(image->get_width(),image->get_height());
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);
menu_popup.popup(event->button, event->time);
return true; //It has been handled.
}
+ workplace->queue_draw();
return true;
}
void And::on_menu_popup_rotar()
void And::save(FILE *archivo)
{
+ vec_connector.clear();
+ check_connection();
+ Glib::ustring dato;
+ char c_img[50], c_x[50], c_y[50], c_id[50];
+ sprintf(c_id,"%d",ID);
+ sprintf(c_img,"\t\t<orientacion>%d</orientacion>\n",imgActual);
+ sprintf(c_x,"\t\t<x>%d</x>\n",x);
+ sprintf(c_y,"\t\t<y>%d</y>\n",y);
+ dato = "\t<and nombre=\""+name+"\" id=\"";
+ dato += c_id;
+ dato += "\">\n";
+ dato += c_img;
+ dato += c_x;
+ dato += c_y;
+ for ( int i=0; i<=vec_connector.size()-1&&!vec_connector.empty(); i++) {
+ if ( vec_connector[i].type == IN ) {
+ dato += "\t\t<entrada>";
+ dato += vec_connector[i].name_dest + "</entrada>\n";
+ } else {
+ dato += "\t\t<salida>";
+ dato += vec_connector[i].name_dest + "</salida>\n";
+ }
+ }
+ dato += "\t</and>\n";
+ fprintf(archivo, dato.c_str() );
+}
+
+bool And::check_connection()
+{
+ int cant_in = 0, cant_out =0;
+ t_logic_connector temp;
+ std::list<t_line>::iterator i = workplace->lista_lineas_in.begin();
+ while ( i != workplace->lista_lineas_in.end() ) {
+ if ( workplace->get_logic_item((*i).logic_id)->get_id() == ID ) {
+ temp.type = OUT;
+ temp.name_dest = workplace->get_item((*i).store_id)->get_name();
+ vec_connector.push_back(temp);
+ cant_out++;
+ }
+ i++;
+ }
+ i = workplace->lista_lineas_out.begin();
+ while ( i != workplace->lista_lineas_out.end() ) {
+ if ( workplace->get_logic_item((*i).logic_id)->get_id() == ID ) {
+ temp.type = IN;
+ temp.name_dest = workplace->get_item((*i).store_id)->get_name();
+ vec_connector.push_back(temp);
+ cant_in++;
+ }
+ i++;
+ }
+ //FIXME la and tiene n entradas y una salida!!!!!!!!!!!!!!!
+ return true;// (cant_in == cant_out );
}
+ConnectorType And::detect_click_position(int _a, int _b)
+{
+ switch (imgActual) {
+ case 0:
+ if ( (_a<=32 )&&(_a>=22)&&(_b<=20)&&(_b>=10) )
+ return OUT;
+ if ( (_a<=10)&&(_a>=0)&&(_b<=20)&&(_b>=10) )
+ return IN;
+ break;
+ case 1:
+ if ( (_a<=20 )&&(_a>=10)&&(_b<=32)&&(_b>=22) )
+ return OUT;
+ if ( (_a<=20)&&(_a>=10)&&(_b<=10)&&(_b>=0) )
+ return IN;
+ break;
+ case 2:
+ if ( (_a<=10 )&&(_a>=0)&&(_b<=20)&&(_b>=10) )
+ return OUT;
+ if ( (_a<=32)&&(_a>=22)&&(_b<=20)&&(_b>=10) )
+ return IN;
+ break;
+ case 3:
+ if ( (_a<=20 )&&(_a>=10)&&(_b<=10)&&(_b>=0) )
+ return OUT;
+ if ( (_a<=20)&&(_a>=10)&&(_b<=32)&&(_b>=22) )
+ return IN;
+ }
+ return UNDEF;
+}
-// CAMBIAR TODO ESTO!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
-bool And::check_connection()
+void And::update_logic_position()
{
- /*switch (get_img_actual()) {
- case 0:
- if ( is_other_connection_area( get_position_x()-5, get_position_y()+16) &&
- is_other_connection_area( get_position_x()+get_image()->get_width()-16, +get_position_y()+get_image()->get_height() + 5) )
- return true;
- case 1:
- if ( is_other_connection_area( get_position_x()+get_image()->get_width() - 16, get_position_y() -5) &&
- is_other_connection_area( get_position_x()-5, get_position_y()+get_image()->get_height()-16) )
- return true;
- case 2:
- if ( is_other_connection_area( get_position_x() + 16, get_position_y() -5) &&
- is_other_connection_area( get_position_x()+get_image()->get_width()+5, get_position_y()+get_image()->get_height()-16) )
- return true;
- case 3:
- if ( is_other_connection_area( get_position_x()+get_image()->get_width()+5, get_position_y() +16) &&
- is_other_connection_area( get_position_x() + 16, get_position_y()+get_image()->get_height() + 5) )
- return true;
+ switch (imgActual) {
+ case 0:
+ in_x = x;
+ in_y = y+16;
+ out_x = x+32;
+ out_y = y+16;
+ break;
+ case 1:
+ in_x = x+16;
+ in_y = y;
+ out_x = x+16;
+ out_y = y+32;
+ break;
+ case 2:
+ in_x = x+32;
+ in_y = y+16;
+ out_x = x;
+ out_y = y+16;
+ break;
+ case 3:
+ in_x = x+16;
+ in_y = y+32;
+ out_x = x+16;
+ out_y = y;
}
- return false;*/
- return true;
+}
+
+void And::get_in_logic_connect_position(int& _a, int& _b)
+{
+ _a = in_x;
+ _b = in_y;
+}
+
+void And::get_out_logic_connect_position(int& _a, int& _b)
+{
+ _a =out_x;
+ _b =out_y;
}