}
}
-SGNewCloud *FGClouds::buildCloud(SGPropertyNode *cloud_def_root, string name) {
+SGNewCloud *FGClouds::buildCloud(SGPropertyNode *cloud_def_root, const string& name) {
SGPropertyNode *cld_def=NULL;
cld_def = cloud_def_root->getChild(name.c_str());
return cld;
}
-void FGClouds::buildLayer(SGCloudField *layer, string name, double alt, double coverage) {
+void FGClouds::buildLayer(SGCloudField *layer, const string& name, double alt, double coverage) {
struct {
string name;
double count;
fgSetDouble("/environment/metar/max-visibility-m",
m->getMaxVisibility().getVisibility_m() );
- SGMetarVisibility *dirvis = m->getDirVisibility();
+ const SGMetarVisibility *dirvis = m->getDirVisibility();
for (i = 0; i < 8; i++, dirvis++) {
const char *min = "/environment/metar/visibility[%d]/min-m";
const char *max = "/environment/metar/visibility[%d]/max-m";
m->getPressure_inHg() );
vector<SGMetarCloud> cv = m->getClouds();
- vector<SGMetarCloud>::iterator cloud;
+ vector<SGMetarCloud>::const_iterator cloud;
const char *cl = "/environment/clouds/layer[%i]";
for (i = 0, cloud = cv.begin(); cloud != cv.end(); cloud++, i++) {
}
-void FGClouds::setLayer( int iLayer, float alt_ft, string coverage, string layer_type ) {
+void FGClouds::setLayer( int iLayer, float alt_ft, const string& coverage, const string& layer_type ) {
double coverage_norm = 0.0;
if( coverage == "few" )
coverage_norm = 2.0/8.0; // <1-2
buildLayer(layer3D, layer_type, station_elevation_ft + alt_ft * SG_FEET_TO_METER, coverage_norm);
}
-void FGClouds::buildScenario( string scenario ) {
+void FGClouds::buildScenario( const string& scenario ) {
string fakeMetar="";
string station = fgGetString("/environment/metar/station-id", "XXXX");