void DIALOG_LAYERS_SETUP::OnOkButtonClick( wxCommandEvent& event ) { if( testLayerNames() ) { wxString name; m_EnabledLayers = getUILayerMask(); m_Pcb->SetEnabledLayers( m_EnabledLayers ); /* Ensure enabled layers are also visible * This is mainly to avoid mistakes if some enabled * layers are not visible when exiting this dialog */ m_Pcb->SetVisibleLayers( m_EnabledLayers ); for( LSEQ seq = LSET::AllCuMask().Seq(); seq; ++seq ) { LAYER_ID layer = *seq; if( m_EnabledLayers[layer] ) { name = getLayerName( layer ); m_Pcb->SetLayerName( layer, name ); LAYER_T t = (LAYER_T) getLayerTypeIndex( layer ); m_Pcb->SetLayerType( layer, t ); } } EndModal( wxID_OK ); } }
xmlNodePtr KmlRenderer::createPlacemarkNode(xmlNodePtr parentNode, char *styleUrl) { xmlNodePtr placemarkNode = xmlNewChild(parentNode, NULL, BAD_CAST "Placemark", NULL); /*always add a name. It will be replaced by a text value if available*/ char tmpid[100]; char *stmp=NULL, *layerName=NULL; if (CurrentShapeName && strlen(CurrentShapeName)>0) { xmlNewChild(placemarkNode, NULL, BAD_CAST "name", BAD_CAST CurrentShapeName); } else { sprintf(tmpid, ".%d", CurrentShapeIndex); layerName = getLayerName(currentLayer); stmp = msStringConcatenate(stmp, layerName); stmp = msStringConcatenate(stmp, tmpid); xmlNewChild(placemarkNode, NULL, BAD_CAST "name", BAD_CAST stmp); } msFree(layerName); msFree(stmp); if (styleUrl) xmlNewChild(placemarkNode, NULL, BAD_CAST "styleUrl", BAD_CAST styleUrl); return placemarkNode; }
void DXFWriterNodeVisitor::processGeometry(osg::Geometry* geo, osg::Matrix& m) { // We only want to create a new layer for geometry with something to draw if (geo->getVertexArray() && geo->getVertexArray()->getNumElements() ) { if ( _firstPass ) { // Must have unique layer names _layer._name = getLayerName( geo->getName().empty() ? geo->getParent(0)->getName() : geo->getName() ); OSG_DEBUG << "adding Layer " << _layer._name << std::endl; // if single colour include in header osg::Array::Binding colorBinding = osg::getBinding(geo->getColorArray()); if ( osg::Array::BIND_OVERALL == colorBinding ) { _layer._color = _acadColor.findColor(getNodeRGB(geo)); // per layer color } else if ( osg::Array::BIND_OFF== colorBinding ) { _layer._color = 0xff; // use white - or can we easily lookup in texture? } else { _layer._color = 0; // per point color } _layers.push_back(_layer); } else { _layer = _layers[_count++]; OSG_DEBUG << "writing Layer " << _layer._name << std::endl; processStateSet(_currentStateSet.get()); if ( geo->getNumPrimitiveSets() ) { for(unsigned int i = 0; i < geo->getNumPrimitiveSets(); ++i) { osg::PrimitiveSet* ps = geo->getPrimitiveSet(i); DxfPrimitiveIndexWriter pif(_fout, geo,_layer,_acadColor,m,_writeTriangleAs3DFace); ps->accept(pif); } } else { // Is array visitor necessary for only dealing with vertex arrays? //processArray(geo->getVertexArray(), _layer,m); if ( geo->getVertexArray() ) { osg::Vec3Array* data=static_cast<osg::Vec3Array*>(geo->getVertexArray()); for (unsigned int ii=0;ii<data->getNumElements();ii++) { osg::Vec3 point = data->at(ii) * m; _fout << "0 \nVERTEX\n 8\n"<<_layer._name<<"\n"; if ( _layer._color ) { _fout << "62\n"<<_layer._color<<"\n"; } else { _fout << "62\n"<<_acadColor.findColor(getNodeRGB(geo,ii))<<"\n"; } _fout<<" 10\n"<<point.x()<<"\n 20\n"<<point.y()<<"\n 30\n"<<point.z()<<"\n"; } } } } } }
PopupMenu CtrlrPanelCanvas::getLayerMenu() { PopupMenu m; for (int i=0; i<getNumLayers(); i++) { m.addItem (i+4096, getLayerName(i)); } return (m); }
void GLDisplay::setPrimaryDisplay(int displayID, QColor drawingColour) { primaryLayer->primary = false; primaryLayer->enabled = false; primaryLayer = &overlays[displayID]; primaryLayer->primary = true; primaryLayer->enabled = true; primaryLayer->colour = drawingColour; setWindowTitle(getLayerName(displayID) + " Image"); updateGL(); return; }
void TiledMapLoader::loadGidFactories(cocos2d::TMXTiledMap& map) { Value* info = nullptr; for (auto& child : map.getChildren()) { auto mapLayer = dynamic_cast<TMXLayer*>(child); if (!mapLayer) { continue; } for (int x = 0; x < map.getMapSize().width; ++x) { for (int y = 0; y < map.getMapSize().height; ++y) { auto currentGID = mapLayer->getTileGIDAt({static_cast<float>(x), static_cast<float>(y)}); if (!gidFactories.count(currentGID)) { continue; } map.getPropertiesForGID(currentGID, &info); ValueMap data; if (info) { data = info->asValueMap(); } if (!data.count("gid")) data["gid"] = Value(static_cast<int>(currentGID)); if (!data.count("x")) data["x"] = Value(static_cast<float>(x)); if (!data.count("y")) data["y"] = Value(static_cast<float>(y)); Configuration config{data, mapLayer->getLayerName(), map, box2dContainer}; for (auto& callback : gidFactories.at(currentGID)) { callback(config); } } } } }
string ConcatLayer::convet2CaffeFormat() { string layerStrStart = "layer\n{\n"; string layerStrEnd = "}"; string nameStrStart = "\tname: \""; string nameStrEnd = "\"\n"; string typeStrStart = "\ttype: \""; string typeStrEnd = "\"\n"; string topStrStart = "\ttop: \""; string topStrEnd = "\"\n"; string bottomStrStart = "\tbottom: \""; string bottomStrEnd = "\"\n"; string concatParamStrStart = "\tconcat_param\n\t{\n"; string concatParamStrEnd = "\t}\n"; string axisStrStart = "\t\taxis: "; string axisStrEnd = "\n"; string concatDimStrStart = "\t\tconcat_dim: "; string concatDimStrEnd = "\n"; string ignorelabelStrStart = "\t\tignore_label: "; string ignorelabelStrEnd = "\n"; string phaseStrStart = "\tinclude:\n\t{\n"; string phaseStrEnd = "\t}\n"; string phaseStateStrStart = "\t\tphase: "; string phaseStateStrEnd = "\n"; string outStr = layerStrStart + nameStrStart + getLayerName() + nameStrEnd + typeStrStart + getLayerType() + typeStrEnd; for(size_t i = 0; i < mTops->size(); i++) { outStr = outStr + topStrStart + (*mTops)[i] + topStrEnd; } for(size_t i = 0; i < mBottoms->size(); i++) { outStr = outStr + bottomStrStart + (*mBottoms)[i] + bottomStrEnd; } outStr = outStr + concatParamStrStart ; if(((ConcatParam*)mParam)->mAxis != 1) { outStr += axisStrStart + to_string(getAxis()) + axisStrEnd; } if(((ConcatParam*)mParam)->mConcatDim != -1) { outStr += concatDimStrStart + to_string(getConcatDim()) + concatDimStrEnd; } outStr += concatParamStrEnd; if (mPhase != Phase::BOTH) { outStr += phaseStrStart + phaseStateStrStart; if (mPhase == Phase::TRAIN) { outStr += "TRAIN"; } else if (mPhase == Phase::TEST) { outStr += "TEST"; } outStr += phaseStateStrEnd + phaseStrEnd; } outStr += layerStrEnd; return outStr; }
void LabelPosition::validateCost() { if ( cost >= 1 ) { std::cout << " Warning: lp->cost == " << cost << " (from feat: " << feature->getUID() << "/" << getLayerName() << ")" << std::endl; cost -= int ( cost ); // label cost up to 1 } }
bool DIALOG_LAYERS_SETUP::testLayerNames() { std::vector<wxString> names; wxTextCtrl* ctl; for( LSEQ seq = LSET::AllCuMask().Seq(); seq; ++seq ) { LAYER_ID layer = *seq; // we _can_ rely on m_EnabledLayers being current here: if( !m_EnabledLayers[layer] ) continue; wxString name = getLayerName( layer ); //D(printf("name[%d]=%s\n", layer, TO_UTF8(name) );) ctl = (wxTextCtrl*) getName( layer ); // check name for legality. // 1) cannot be blank. // 2) cannot have blanks. // 3) cannot have " chars // 4) cannot be 'signal' // 5) must be unique. // 6) cannot have illegal chars in filenames ( some filenames are built from layer names ) static const wxString badchars( wxT("%$\" /\\") ); if( !name ) { DisplayError( this, _("Layer name may not be empty" ) ); ctl->SetFocus(); // on the bad name return false; } if( hasOneOf( name, badchars ) ) { DisplayError( this, _("Layer name has an illegal character, one of: '") + badchars + wxT("'") ); ctl->SetFocus(); // on the bad name return false; } if( name == wxT("signal") ) { DisplayError( this, _("'signal' is a reserved layer name") ); ctl->SetFocus(); // on the bad name return false; } for( std::vector<wxString>::iterator it = names.begin(); it != names.end(); ++it ) { if( name == *it ) { DisplayError( this, _("Layer name is a duplicate of another") ); ctl->SetFocus(); // on the bad name return false; } } names.push_back( name ); } return true; }
xmlNodePtr KmlRenderer::createGroundOverlayNode(xmlNodePtr parentNode, char *imageHref, layerObj *layer) { /* <?xml version="1.0" encoding="UTF-8"?> <kml xmlns="http://www.opengis.net/kml/2.2"> <GroundOverlay> <name>GroundOverlay.kml</name> <color>7fffffff</color> <drawOrder>1</drawOrder> <Icon> <href>http://www.google.com/intl/en/images/logo.gif</href> <refreshMode>onInterval</refreshMode> <refreshInterval>86400</refreshInterval> <viewBoundScale>0.75</viewBoundScale> </Icon> <LatLonBox> <north>37.83234</north> <south>37.832122</south> <east>-122.373033</east> <west>-122.373724</west> <rotation>45</rotation> </LatLonBox> </GroundOverlay> </kml> */ char layerHexColor[32]; xmlNodePtr groundOverlayNode = xmlNewChild(parentNode, NULL, BAD_CAST "GroundOverlay", NULL); char *layerName = getLayerName(layer); xmlNewChild(groundOverlayNode, NULL, BAD_CAST "name", BAD_CAST layerName); if (layer->compositer && layer->compositer->opacity > 0 && layer->compositer->opacity < 100) { sprintf(layerHexColor, "%02xffffff", (unsigned int)MS_NINT(layer->compositer->opacity*2.55)); xmlNewChild(groundOverlayNode, NULL, BAD_CAST "color", BAD_CAST layerHexColor); } else xmlNewChild(groundOverlayNode, NULL, BAD_CAST "color", BAD_CAST "ffffffff"); char stmp[20]; sprintf(stmp, "%d",layer->index); xmlNewChild(groundOverlayNode, NULL, BAD_CAST "drawOrder", BAD_CAST stmp); if (imageHref) { xmlNodePtr iconNode = xmlNewChild(groundOverlayNode, NULL, BAD_CAST "Icon", NULL); xmlNewChild(iconNode, NULL, BAD_CAST "href", BAD_CAST imageHref); } char crdStr[64]; rectObj mapextent; if (map->gt.need_geotransform == MS_TRUE) mapextent = currentLayer->map->saved_extent; else mapextent = currentLayer->map->extent; xmlNodePtr latLonBoxNode = xmlNewChild(groundOverlayNode, NULL, BAD_CAST "LatLonBox", NULL); sprintf(crdStr, "%.8f", mapextent.maxy); xmlNewChild(latLonBoxNode, NULL, BAD_CAST "north", BAD_CAST crdStr); sprintf(crdStr, "%.8f", mapextent.miny); xmlNewChild(latLonBoxNode, NULL, BAD_CAST "south", BAD_CAST crdStr); sprintf(crdStr, "%.8f", mapextent.minx); xmlNewChild(latLonBoxNode, NULL, BAD_CAST "west", BAD_CAST crdStr); sprintf(crdStr, "%.8f", mapextent.maxx); xmlNewChild(latLonBoxNode, NULL, BAD_CAST "east", BAD_CAST crdStr); xmlNewChild(latLonBoxNode, NULL, BAD_CAST "rotation", BAD_CAST "0.0"); return groundOverlayNode; }
int KmlRenderer::startNewLayer(imageObj *img, layerObj *layer) { char *layerName=NULL; const char *value=NULL; LayerNode = xmlNewNode(NULL, BAD_CAST "Folder"); layerName = getLayerName(layer); xmlNewChild(LayerNode, NULL, BAD_CAST "name", BAD_CAST layerName); msFree(layerName); const char *layerVisibility = layer->status != MS_OFF ? "1" : "0"; xmlNewChild(LayerNode, NULL, BAD_CAST "visibility", BAD_CAST layerVisibility); const char *layerDsiplayFolder = msLookupHashTable(&(layer->metadata), "kml_folder_display"); if (layerDsiplayFolder == NULL) layerDsiplayFolder = msLookupHashTable(&(layer->map->web.metadata), "kml_folder_display"); if (!layerDsiplayFolder || strlen(layerDsiplayFolder)<=0) { xmlNewChild(LayerNode, NULL, BAD_CAST "styleUrl", BAD_CAST "#LayerFolder_check"); } else { if (strcasecmp(layerDsiplayFolder, "checkHideChildren") == 0) xmlNewChild(LayerNode, NULL, BAD_CAST "styleUrl", BAD_CAST "#LayerFolder_checkHideChildren"); else if (strcasecmp(layerDsiplayFolder, "checkOffOnly") == 0) xmlNewChild(LayerNode, NULL, BAD_CAST "styleUrl", BAD_CAST "#LayerFolder_checkOffOnly"); else if (strcasecmp(layerDsiplayFolder, "radioFolder") == 0) xmlNewChild(LayerNode, NULL, BAD_CAST "styleUrl", BAD_CAST "#LayerFolder_radioFolder"); else xmlNewChild(LayerNode, NULL, BAD_CAST "styleUrl", BAD_CAST "#LayerFolder_check"); } /*Init few things on the first layer*/ if (FirstLayer) { FirstLayer = MS_FALSE; map = layer->map; if (layer->map->mappath) snprintf(MapPath, sizeof(MapPath), "%s", layer->map->mappath); /*First rendered layer - check mapfile projection*/ checkProjection(layer->map); /*check for image path and image url*/ if (layer->map->debug && (layer->map->web.imageurl == NULL || layer->map->web.imagepath == NULL)) msDebug("KmlRenderer::startNewLayer: imagepath and imageurl should be set in the web object\n"); /*map rect for ground overlay*/ MapExtent = layer->map->extent; MapCellsize = layer->map->cellsize; BgColor = layer->map->imagecolor; xmlNewChild(DocNode, NULL, BAD_CAST "name", BAD_CAST layer->map->name); aggFormat = msSelectOutputFormat( layer->map, "png24"); aggFormat->transparent = MS_TRUE; } currentLayer = layer; if (!msLayerIsOpen(layer)) { if (msLayerOpen(layer) != MS_SUCCESS) { msSetError(MS_MISCERR, "msLayerOpen failed", "KmlRenderer::startNewLayer" ); return MS_FAILURE; } } /*pre process the layer to set things that make sense for kml output*/ if (img) processLayer(layer, img->format); else processLayer(layer, NULL); if (msLookupHashTable(&layer->metadata, "kml_description")) pszLayerDescMetadata = msLookupHashTable(&layer->metadata, "kml_description"); else if (msLookupHashTable(&layer->metadata, "ows_description")) pszLayerDescMetadata = msLookupHashTable(&layer->metadata, "ows_description"); value=msLookupHashTable(&layer->metadata, "kml_include_items"); if (!value) value=msLookupHashTable(&layer->metadata, "ows_include_items"); if (value) papszLayerIncludeItems = msStringSplit(value, ',', &nIncludeItems); value=msLookupHashTable(&layer->metadata, "kml_exclude_items"); if (!value) value=msLookupHashTable(&layer->metadata, "ows_exclude_items"); if (value) papszLayerExcludeItems = msStringSplit(value, ',', &nExcludeItems); if (msLookupHashTable(&layer->metadata, "kml_name_item")) pszLayerNameAttributeMetadata = msLookupHashTable(&layer->metadata, "kml_name_item"); /*get all attributes*/ if(msLayerWhichItems(layer, MS_TRUE, NULL) != MS_SUCCESS) { return MS_FAILURE; } NumItems = layer->numitems; if (NumItems) { Items = (char **)msSmallCalloc(NumItems, sizeof(char *)); for (int i=0; i<NumItems; i++) Items[i] = msStrdup(layer->items[i]); } const char* elevationAttribute = msLookupHashTable(&layer->metadata, "kml_elevation_attribute"); if( elevationAttribute ) { mElevationFromAttribute = true; for( int i = 0; i < layer->numitems; ++i ) { if( strcasecmp( layer->items[i], elevationAttribute ) == 0 ) { mElevationAttributeIndex = i; } } } setupRenderingParams(&layer->metadata); return MS_SUCCESS; }
string DataLayer::convet2CaffeFormat() { string layerStrStart = "layer\n{\n"; string layerStrEnd = "}"; string nameStrStart = "\tname: \""; string nameStrEnd = "\"\n"; string typeStrStart = "\ttype: \""; string typeStrEnd = "\"\n"; string topStrStart = "\ttop: \""; string topStrEnd = "\"\n"; string bottomStrStart = "\tbottom: \""; string bottomStrEnd = "\"\n"; string transformParamStrStart = "\ttransform_param\n\t{\n"; string transformParamStrEnd ="\t}\n"; string dataParamStrStart = "\tdata_param\n\t{\n"; string dataParamStrEnd ="\t}\n"; string SourceStrStart = "\t\tsource: "; string SourceStrEnd = "\n"; string batchSizeStrStart = "\t\tbatch_size: "; string batchSizeStrEnd = "\n"; string randSkipStrStart = "\t\trand_skip: "; string randSkipStrEnd = "\n"; string backendStrStart = "\t\tbackend: "; string backendStrEnd = "\n"; string ScaleStrStart = "\t\tscale: "; string ScaleStrEnd = "\n"; string MeanFileStrStart = "\t\tmean_file: "; string MeanFileStrEnd = "\n"; string CropSizeStrStart = "\t\tcrop_size: "; string CropSizeStrEnd = "\n"; string MirrorStrStart = "\t\tmirror: "; string MirrorStrEnd = "\n"; string ForceEncodeColorStrStart = "\t\tforce_encoded_color: "; string ForceEncodeColorStrEnd = "\n"; string PrefetchStrStart = "\t\tprefetch: "; string PrefetchStrEnd = "\n"; string phaseStrStart = "\tinclude:\n\t{\n"; string phaseStrEnd = "\t}\n"; string phaseStateStrStart = "\t\tphase: "; string phaseStateStrEnd = "\n"; string outStr = layerStrStart + nameStrStart + getLayerName() + nameStrEnd + typeStrStart + getLayerType() + typeStrEnd; for(size_t i = 0; i < mTops->size(); i++) { outStr = outStr + topStrStart + (*mTops)[i] + topStrEnd; } for(size_t i = 0; i < mBottoms->size(); i++) { outStr = outStr + bottomStrStart + (*mBottoms)[i] +bottomStrEnd; } outStr += transformParamStrStart; if(((DataParam*)mParam)->mScale != 1) { outStr += ScaleStrStart + to_string(getScale()) + ScaleStrEnd; } if (getMeanfile() != "") { outStr += MeanFileStrStart + "\"" + getMeanfile() + "\"" + MeanFileStrEnd; } if(((DataParam*)mParam)->mCropsize != 0) { outStr += CropSizeStrStart + to_string(getCropsize()) + CropSizeStrEnd; } if(((DataParam*)mParam)->mMirror != false) { outStr += MirrorStrStart + "true" + MirrorStrEnd; } outStr += transformParamStrEnd; outStr += dataParamStrStart; if (getSource() != "") { outStr += SourceStrStart + "\"" + getSource() + "\"" + SourceStrEnd; } outStr +=batchSizeStrStart + to_string(getBatchSize()) + batchSizeStrEnd; if(((DataParam*)mParam)->mRandSkip != 0) { outStr += randSkipStrStart + to_string(getRandSkip()) + randSkipStrEnd; } if(((DataParam*)mParam)->mBackend != DB::LEVELDB) { switch (((DataParam*)mParam)->mBackend) { case DB::LEVELDB: outStr += backendStrStart + "LEVELDB" + backendStrEnd; break; case DB::LMDB: outStr += backendStrStart + "LMDB" + backendStrEnd; break; } } if(((DataParam*)mParam)->mForceEncodedcolor != false) { outStr += ForceEncodeColorStrStart + "true" + ForceEncodeColorStrEnd; } if(((DataParam*)mParam)->mPrefetch != 4) { outStr += PrefetchStrStart + to_string(getPrefetch()) + PrefetchStrEnd; } outStr += dataParamStrEnd; if (mPhase != Phase::BOTH) { outStr += phaseStrStart + phaseStateStrStart; if (mPhase == Phase::TRAIN) { outStr += "TRAIN"; } else if (mPhase == Phase::TEST) { outStr += "TEST"; } outStr += phaseStateStrEnd + phaseStrEnd; } outStr += layerStrEnd; return outStr; }