void ossimLasReader::setProperty(ossimRefPtr<ossimProperty> property)
{
if ( property.valid() )
{
if ( property->getName() == SCALE_KW )
{
ossimString s;
property->valueToString(s);
ossim_float64 d = s.toFloat64();
if ( ossim::isnan(d) == false )
{
setScale( d );
}
}
else if ( property->getName() == SCAN_KW )
{
ossimString s;
property->valueToString(s);
m_scan = s.toBool();
}
else
{
ossimImageHandler::setProperty(property);
}
}
}
void ossimNitfFileHeaderV2_0::setProperty(ossimRefPtr<ossimProperty> property)
{
const ossimString& name = property->getName();
if(name == CLEVEL_KW)
{
setComplianceLevel(property->valueToString());
}
else if(name == FSDWNG_KW)
{
setSecurityDowngrade(property->valueToString());
}
else if(name == FSDEVT_KW)
{
setDowngradingEvent(property->valueToString());
}
else if(name == ONAME_KW)
{
setOriginatorsName(property->valueToString());
}
else if(name == OPHONE_KW)
{
setOriginatorsPhone(property->valueToString());
}
else
{
ossimNitfFileHeaderV2_X::setProperty(property);
}
}
void ossimImageToPlaneNormalFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
ossimString name = property->getName();
if(name == "smoothnessFactor")
{
theSmoothnessFactor = property->valueToString().toDouble();
initialize();
}
else if(name == "xscale")
{
theXScale = property->valueToString().toDouble();
initialize();
}
else if(name == "yscale")
{
theYScale = property->valueToString().toDouble();
initialize();
}
else if(name == "autoTrackScaleFlag")
{
theTrackScaleFlag = property->valueToString().toDouble();
initialize();
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
void ossimBandSelector::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property) return;
if(property->getName() == "bandSelection")
{
ossimString str = property->valueToString();
std::vector<ossimString> str_vec;
std::vector<ossim_uint32> int_vec;
str.split( str_vec, " " );
for ( ossim_uint32 i = 0; i < str_vec.size(); ++i )
{
if(!str_vec[i].empty())
{
int_vec.push_back( str_vec[i].toUInt32() );
}
}
setOutputBandList( int_vec );
}
else if(property->getName() == "bands")
{
std::vector<ossim_uint32> selection;
if(ossim::toSimpleVector(selection, property->valueToString()))
{
theOutputBandList = selection;
}
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
void ossimBumpShadeTileSource::setProperty(ossimRefPtr<ossimProperty> property)
{
ossimString name = property->getName();
if(name == "lightSourceElevationAngle")
{
m_lightSourceElevationAngle = property->valueToString().toDouble();
}
else if(name == "lightSourceAzimuthAngle")
{
m_lightSourceAzimuthAngle = property->valueToString().toDouble();
}
else
{
ossimImageCombiner::setProperty(property);
}
}
void ossimIndexToRgbLutFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if(property.valid())
{
ossimString value = property->valueToString();
value = value.trim();
if(property->getName() == "LUT file")
{
setLut(ossimFilename(property->valueToString()));
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
}
bool ossimOpjCompressor::setProperty(ossimRefPtr<ossimProperty> property)
{
bool consumed = false;
if ( property.valid() )
{
ossimString key = property->getName();
if ( traceDebug() )
{
ossimNotify(ossimNotifyLevel_DEBUG)
<< "ossimOpjCompressor::setProperty DEBUG:"
<< "\nkey: " << key
<< " values: " << property->valueToString() << std::endl;
}
if (key == ossimKeywordNames::COMPRESSION_QUALITY_KW)
{
setQualityTypeString(property->valueToString());
consumed = true;
}
else if ( (key == LEVELS_KW) || (key == "Clevels") )
{
m_levels = property->valueToString().toInt32();
consumed = true;
}
else if( (key == REVERSIBLE_KW) || (key == "Creversible") )
{
setReversibleFlag(property->valueToString().toBool());
consumed = true;
}
else if (key == ADD_ALPHA_CHANNEL_KW)
{
m_alpha = property->valueToString().toBool();
consumed = true;
}
else if ( key == THREADS_KW)
{
m_threads = property->valueToString().toInt32();
consumed = true;
}
else if ( (key == "Clayers") ||
(key == "Cprecincts") )
{
// Generic options passed through kdu_params::parse_string.
// Make in the form of "key=value" for kdu_params::parse_string.
ossimString option = key;
option += "=";
option += property->valueToString();
// Add to list.
m_options.push_back(option);
consumed = true;
}
}
return consumed;
}
void ossimEdgeFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property) return;
if(property->getName() == PROP_EDGE_FILTER)
{
theFilterType = property->valueToString();
}
}
void ossimNBandToIndexFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if(property->getName() == ossimKeywordNames::FILENAME_KW)
{
ossimKeywordlist kwl;
if(kwl.addFile(ossimFilename(property->valueToString())))
{
theLut = new ossimNBandLutDataObject;
theLut->loadState(kwl);
}
}
else if(property->getName() == KEEP_QUANTIZED_VALUE_FLAG_KW)
{
theKeepQuantizedValueFlag = property->valueToString().toBool();
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
void
ossimOutlierRejection::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property.valid()) return;
ossimString name = property->getName();
if(name == "inlier_output_filename")
{
theInlierOutputFilename = ossimFilename(property->valueToString());
}
else if(name =="inlier_ratio")
{
setInlierRatio(property->valueToString().toDouble());
}
else if(name == "inlier_image_accuracy")
{
setInlierImageAccuracy(property->valueToString().toDouble());
}
else {
ossimModelOptimizer::setProperty(property);
}
}
void ossimMaskFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if( property.valid() )
{
if(property->getName() == MASK_FILTER_MASK_TYPE_KW)
{
setMaskType(property->valueToString());
}
else
{
ossimImageCombiner::setProperty(property);
}
}
}
void ossimPngReader::setProperty(ossimRefPtr<ossimProperty> property)
{
if ( property.valid() )
{
if ( property->getName().string() == USE_ALPHA_KW )
{
ossimString s;
property->valueToString(s);
m_useAlphaChannelFlag = s.toBool();
}
else
{
ossimImageHandler::setProperty(property);
}
}
}
void ossimFftFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property) return;
if(property->getName() == "FFT Direction")
{
if(theTile.valid())
{
theTile = NULL;
}
setDirectionType(property->valueToString());
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
void ossimCFARFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property) return;
ossimString name = property->getName();
if(name == "threshold")
{
theThreshold = property->valueToString().toDouble();
}
else if(name == "Kernel")
{
ossimMatrixProperty* matrixProperty = PTR_CAST(ossimMatrixProperty,
property.get());
if(matrixProperty)
{
for(ossim_int32 r = 0; r < 5; r++)
{
for(ossim_int32 c = 0; c < 5; c++)
{
theKernel[r][c] = (*matrixProperty)(r,c);
}
}
/*
theKernel[0][0] = (*matrixProperty)(0,0);
theKernel[1][0] = (*matrixProperty)(1,0);
theKernel[2][0] = (*matrixProperty)(2,0);
theKernel[0][1] = (*matrixProperty)(0,1);
theKernel[1][1] = (*matrixProperty)(1,1);
theKernel[2][1] = (*matrixProperty)(2,1);
theKernel[0][2] = (*matrixProperty)(0,2);
theKernel[1][2] = (*matrixProperty)(1,2);
theKernel[2][2] = (*matrixProperty)(2,2);
*/
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
void ossimRangeDomeTileSource::setProperty(ossimRefPtr<ossimProperty> property)
{
if (!property.valid())
return;
ossimString s;
property->valueToString(s);
if (s.empty())
return;
// The user should select either explicit GSD or relative GSD factor, never both:
if ( property->getName() == ossimKeywordNames::METERS_PER_PIXEL_KW )
{
ossim_float64 gsd = s.toFloat64();
if (!ossim::isnan(gsd))
setGSD(gsd);
}
else
{
ossimImageHandler::setProperty(property);
}
}
void ossimH5Reader::setProperty(ossimRefPtr<ossimProperty> property)
{
if ( property.valid() )
{
if ( property->getName().string() == LAYER_KW )
{
ossimString s;
property->valueToString(s);
ossim_uint32 SIZE = (ossim_uint32)m_entries.size();
for ( ossim_uint32 i = 0; i < SIZE; ++i )
{
if ( m_entries[i].getName() == s.string() )
{
setCurrentEntry( i );
}
}
}
else
{
ossimImageHandler::setProperty(property);
}
}
}
void ossimWatermarkFilter::setProperty(ossimRefPtr<ossimProperty> property)
{
if (!property) return;
ossimString os = property->valueToString();
ossimString name = property->getName();
if (name == ossimKeywordNames::FILENAME_KW)
{
setFilename(os);
}
else if (name == WATERMARK_MODE_KW)
{
setMode(os);
}
else if (name == WEIGHT_KW)
{
setWeight(os.toDouble());
}
else
{
ossimImageSourceFilter::setProperty(property);
}
}
void ossimNitfFileHeaderV2_1::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property.valid()) return;
ossimString name = property->getName();
if(name == FSCLASY_KW)
{
setSecurityClassificationSys(property->valueToString());
}
else if(name == FSDCTP_KW)
{
setDeclassificationType(property->valueToString());
}
else if(name == FSDCDT_KW)
{
setDeclassificationDate(property->valueToString());
}
else if(name == FSDCXM_KW)
{
setDeclassificationExemption(property->valueToString());
}
else if(name == FSDG_KW)
{
setDowngrade(property->valueToString());
}
else if(name == FSDGDT_KW)
{
setDowngradingDate(property->valueToString());
}
else if(name == FSCLTX_KW)
{
setClassificationText(property->valueToString());
}
else if(name == FSCATP_KW)
{
setClassificationAuthorityType(property->valueToString());
}
else if(name == FSCRSN_KW)
{
setClassificationReason(property->valueToString());
}
else if(name == FSSRDT_KW)
{
setSecuritySourceDate(property->valueToString());
}
else if(name == FBKGC_KW)
{
ossimString value = property->valueToString();
std::vector<ossimString> splitString;
value = value.trim();
value.split(splitString, " ");
if(splitString.size() == 3)
{
setFileBackgroundColor((ossim_uint8)splitString[0].toUInt32(),
(ossim_uint8)splitString[1].toUInt32(),
(ossim_uint8)splitString[2].toUInt32());
}
}
else
{
ossimNitfFileHeaderV2_X::setProperty(property);
}
}
void ossimImageFileWriter::setProperty(ossimRefPtr<ossimProperty> property)
{
if(!property) return;
if(property->getName() == ossimKeywordNames::FILENAME_KW)
{
theFilename = property->valueToString();
}
else if (property->getName() == "create_envi_hdr")
{
theWriteEnviHeaderFlag = property->valueToString().toBool();
}
else if (property->getName() == "create_ers_hdr")
{
theWriteErsHeaderFlag = property->valueToString().toBool();
}
else if (property->getName() ==
ossimKeywordNames::CREATE_EXTERNAL_GEOMETRY_KW)
{
theWriteExternalGeometryFlag = property->valueToString().toBool();
}
else if (property->getName() == "create_fgdc")
{
theWriteFgdcFlag = property->valueToString().toBool();
}
else if (property->getName() == "create_jpeg_world_file")
{
theWriteJpegWorldFileFlag = property->valueToString().toBool();
}
else if (property->getName() == "create_readme")
{
theWriteReadmeFlag = property->valueToString().toBool();
}
else if (property->getName() == "create_tiff_world_file")
{
theWriteTiffWorldFileFlag = property->valueToString().toBool();
}
else if (property->getName() == "create_world_file")
{
theWriteWorldFileFlag = property->valueToString().toBool();
}
else if (property->getName() == ossimKeywordNames::CREATE_IMAGE_KW)
{
theWriteImageFlag = property->valueToString().toBool();
}
else if (property->getName() == ossimKeywordNames::CREATE_OVERVIEW_KW)
{
theWriteOverviewFlag = property->valueToString().toBool();
}
else if (property->getName() == ossimKeywordNames::CREATE_HISTOGRAM_KW)
{
theWriteHistogramFlag = property->valueToString().toBool();
}
else if (property->getName() == SCALE_TO_EIGHT_BIT_KW)
{
theScaleToEightBitFlag = property->valueToString().toBool();
}
else if(property->getName() == AUTO_CREATE_DIRECTORY_KW)
{
theAutoCreateDirectoryFlag = property->valueToString().toBool();
}
else if (property->getName() == "linear_units")
{
theLinearUnits = (ossimUnitType)
(ossimUnitTypeLut::instance()->
getEntryNumber(property->valueToString()));
}
else if(property->getName() == ossimKeywordNames::IMAGE_TYPE_KW)
{
setOutputImageType(property->valueToString());
}
else if(property->getName() == ossimKeywordNames::PIXEL_TYPE_KW)
{
ossimStringProperty* stringProperty = PTR_CAST(ossimStringProperty,
property.get());
if (stringProperty)
{
ossimString s;
stringProperty->valueToString(s);
setPixelType(s);
}
}
else
{
ossimImageWriter::setProperty(property);
}
}
void ossimNitfImageHeaderV2_1::setProperty(ossimRefPtr<ossimProperty> property)
{
ossimString name = property->getName();
std::ostringstream out;
if(!property) return;
if(name.contains(ISCLSY_KW))
{
setSecurityClassificationSystem(property->valueToString());
}
else if(name.contains(ISCODE_KW))
{
setCodewords(property->valueToString());
}
else if(name.contains(ISCTLH_KW))
{
setControlAndHandling(property->valueToString());
}
else if(name.contains(ISREL_KW))
{
setReleasingInstructions(property->valueToString());
}
else if(name.contains(ISDCTP_KW))
{
setDeclassificationType(property->valueToString());
}
else if(name.contains(ISDCDT_KW))
{
setDeclassificationDate(property->valueToString());
}
else if(name.contains(ISDCXM_KW))
{
setDeclassificationExempt(property->valueToString());
}
else if(name.contains(ISDG_KW))
{
setDowngrade(property->valueToString());
}
else if(name.contains(ISDGDT_KW))
{
setDowngradeDate(property->valueToString());
}
else if(name.contains(ISCLTX_KW))
{
setClassificationText(property->valueToString());
}
else if(name.contains(ISCATP_KW))
{
setClassificationAuthorityType(property->valueToString());
}
else if(name.contains(ISCAUT_KW))
{
setClassificationAuthority(property->valueToString());
}
else if(name.contains(ISCRSN_KW))
{
setClassificationReason(property->valueToString());
}
else if(name.contains(ISSRDT_KW))
{
setSecuritySourceDate(property->valueToString());
}
else if(name.contains(ISCTLN_KW))
{
setSecurityControlNumber(property->valueToString());
}
else
{
ossimNitfImageHeaderV2_X::setProperty(property);
}
}