C++ (Cpp) DicomImage::getInterData Exemples

Langage de programmation: C++ (Cpp)

Class/Type: DicomImage

Méthode/Fonction: getInterData

Exemples au hotexamples.com: 2

C++ (Cpp) DicomImage::getInterData - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de DicomImage::getInterData extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Méthodes fréquemment utilisées

Afficher Cacher

getHeight(7)

createWindowsDIB(2)

getInterData(2)

createClippedImage(1)

flipImage(1)

getCharTag(1)

getFirstFrame(1)

getFrameCount(1)

getNumericTag(1)

Méthodes fréquemment utilisées

getHeight (7)

createWindowsDIB (2)

getInterData (2)

createClippedImage (1)

flipImage (1)

getCharTag (1)

getFirstFrame (1)

getFrameCount (1)

getNumericTag (1)

Exemple #1

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Fichier : imageinstance.cpp Projet : lonelycoder/DROC

uint ImageInstance::getPixelValue(long x, long y, EP_Representation &r) const { DicomImage *image; if (rawType) image = rawImage; else image = dcmImage; if (image) { const DiPixel* pixel = image->getInterData(); if (pixel && (x < (long)image->getWidth()) && (x >= 0) && (y < (long)image->getHeight()) && (y >= 0)) { r = pixel->getRepresentation(); switch (r) { case EPR_Sint8: case EPR_Uint8: return *((char*)(pixel->getData()) + (y * image->getWidth() + x)); case EPR_Sint16: case EPR_Uint16: return *((short*)(pixel->getData()) + (y * image->getWidth() + x)); case EPR_Sint32: case EPR_Uint32: return *((int*)(pixel->getData()) + (y * image->getWidth() + x)); } } } r = (EP_Representation)-1; return 0; }

Exemple #2

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Fichier : Dose.cpp Projet : guptaabhishek1983/MPR

Dose::Dose( RTDcmtkDicomInterface* rtDoseDicom, Plan* rtPlan) { d = new DoseData(); d->m_dcmGeometry = vtkSmartPointer<DCMGeometry>::New(); d->m_resampledDoseCuboid = NULL; d->m_resampled_dcm_geometry = NULL; DcmItem *ditem = NULL; const char * refPlanUID = NULL; this->frameRefUID = string(rtDoseDicom->Get_FRAME_OF_REFER_UID()); this->sopUID = string(rtDoseDicom->Get_SOP_INSTANCE_UID()); this->studyUID = string(rtDoseDicom->Get_STUDY_INSTANCE_UID()); this->seriesUID = string(rtDoseDicom->Get_SERIES_INSTANCE_UID()); this->height = rtDoseDicom->Get_ROW(); this->width = rtDoseDicom->Get_COLOUMN(); double image_orientation[6] = { 0, 0, 0, 0, 0, 0 }; string imageOrientation = string(rtDoseDicom->Get_IMAGE_ORIENTATION()); vector<string> _imageOrientation; tokenize(imageOrientation, _imageOrientation, "\\", true); for (int i = 0; i<_imageOrientation.size(); i++) { image_orientation[i] = convert_to_double(_imageOrientation.at(i).c_str()); } double xorient[3] = { image_orientation[0], image_orientation[1], image_orientation [2]}; double yorient[3] = { image_orientation[3], image_orientation[4], image_orientation [5]}; double firstImagePosition[3] = { 0, 0, 0}; double lastImagePosition[3] = { 0, 0, 0}; string imagePosition = string(rtDoseDicom->Get_IMAGE_POSITION()); vector<string> _imagePosition; tokenize(imagePosition, _imagePosition, "\\", true); for (int i = 0; i<_imagePosition.size(); i++) { firstImagePosition[i] = convert_to_double(_imagePosition.at(i).c_str()); lastImagePosition[i] = convert_to_double(_imagePosition.at(i).c_str()); } rtDoseDicom->getMinMaxPixelValue(this->minDosePixelValue, this->maxDosePixelValue);// MinMax pixel value this->doseGridScaling = convert_to_double(rtDoseDicom->Get_DOSEGRID_SCALING()); OFString _gridFrameOffsetVector; vector<string> temp; if (rtDoseDicom->dataset->findAndGetOFStringArray(DCM_GridFrameOffsetVector, _gridFrameOffsetVector).bad()) { isMultiframe = false; // return; } else { isMultiframe = true; tokenize(_gridFrameOffsetVector.c_str(), temp, "\\", true); // Convert offset vector points from string to float and store permanently. for (int i = 0; i<temp.size(); i++) { this->doseGridOffsetVector.push_back(atof(temp.at(i).c_str())); } } if (isMultiframe) lastImagePosition[2] += doseGridOffsetVector.at(doseGridOffsetVector.size() - 1); else lastImagePosition[2] += 0; double spacing[3] = { 0, 0, 0 }; const char* _pixelSpacing = rtDoseDicom->Get_PIXEL_SPACING(); vector<string> temp1; tokenize(_pixelSpacing, temp1, "\\", true); spacing[0] = convert_to_double(temp1.at(0).c_str()); spacing[1] = convert_to_double(temp1.at(1).c_str()); if (isMultiframe) { spacing[2] = this->doseGridOffsetVector.at(1) - this->doseGridOffsetVector.at(0);// hardcoded. } else { //this->pixelSpacing[0] = 0; //this->pixelSpacing[1] = 0; spacing[2] = 0; } int numberOfFrames = convert_to_int(rtDoseDicom->Get_NO_OF_FRAMES()); int dim[3] = { this->width, this->height, numberOfFrames }; d->m_dcmGeometry->SetImageGeometry(firstImagePosition, spacing, dim, xorient, yorient); //Populate frame wise pixel data in map<int,void*> framePixelData; int noOfBytes = rtDoseDicom->Get_BITS_ALLOCATED() / 8; DJDecoderRegistration::registerCodecs(); DcmRLEDecoderRegistration::registerCodecs(); DicomImage * dicomImage = new DicomImage(&rtDoseDicom->file_format, rtDoseDicom->file_format.getDataset()->getOriginalXfer(), CIF_UsePartialAccessToPixelData, 0, 1 /* fcount */); DJDecoderRegistration::cleanup(); DcmRLEDecoderRegistration::cleanup(); do{ const DiPixel* diPixel = dicomImage->getInterData(); doseFrameData* dfData = new doseFrameData(); dfData->frameNumber = dicomImage->getFirstFrame(); dfData->cols = rtDoseDicom->Get_COLOUMN(); dfData->rows = rtDoseDicom->Get_ROW(); // create a vtkImage vtkImageData* image = vtkImageData::New(); image->SetDimensions(dfData->cols, dfData->rows, 1); image->SetSpacing(spacing[0], spacing[1], 1); image->Initialize(); vtkDataArray* scalars = 0; switch (diPixel->getRepresentation()) { case EPR_Uint8: /*dfData->ORG_pixelData = calloc(diPixel->getCount(),sizeof(U8DataType)); memcpy(dfData->ORG_pixelData,diPixel->getData(),diPixel->getCount()*sizeof(U8DataType)); dfData->ORG_DicomDataType = TYPE_U8Data;*/ scalars = vtkUnsignedCharArray::New(); ((vtkUnsignedCharArray*)(scalars))->SetArray((unsigned char*)diPixel->getData(), diPixel->getCount(), 1); break; case EPR_Sint8: /*dfData->ORG_pixelData = calloc(diPixel->getCount(),sizeof(S8DataType)); memcpy(dfData->ORG_pixelData,diPixel->getData(),diPixel->getCount()*sizeof(S8DataType)); dfData->ORG_DicomDataType = TYPE_S8Data;*/ scalars = vtkSignedCharArray::New(); ((vtkSignedCharArray*)(scalars))->SetArray((signed char*)diPixel->getData(), diPixel->getCount(), 1); break; case EPR_Uint16: /*dfData->ORG_pixelData = calloc(diPixel->getCount(),sizeof(U16DataType)); memcpy(dfData->ORG_pixelData,diPixel->getData(),diPixel->getCount()*sizeof(U16DataType)); dfData->ORG_DicomDataType = TYPE_U16Data;*/ scalars = vtkUnsignedShortArray::New(); ((vtkUnsignedShortArray*)(scalars))->SetArray((unsigned short*)diPixel->getData(), diPixel->getCount(), 1); break; case EPR_Sint16: /*dfData->ORG_pixelData = calloc(diPixel->getCount(),sizeof(S16DataType)); memcpy(dfData->ORG_pixelData,diPixel->getData(),diPixel->getCount()*sizeof(S16DataType)); dfData->ORG_DicomDataType = TYPE_S16Data;*/ scalars = vtkShortArray::New(); ((vtkShortArray*)(scalars))->SetArray((short*)diPixel->getData(), diPixel->getCount(), 1); break; case EPR_Uint32: /*dfData->ORG_pixelData = calloc(diPixel->getCount(),sizeof(U32DataType)); memcpy(dfData->ORG_pixelData,diPixel->getData(),diPixel->getCount()*sizeof(U32DataType)); dfData->ORG_DicomDataType = TYPE_U32Data;*/ scalars = vtkUnsignedIntArray::New(); ((vtkUnsignedIntArray*)(scalars))->SetArray((unsigned int*)diPixel->getData(), diPixel->getCount(), 1); break; case EPR_Sint32: /*dfData->ORG_pixelData = calloc(diPixel->getCount(),sizeof(S32DataType)); memcpy(dfData->ORG_pixelData,diPixel->getData(),diPixel->getCount()*sizeof(S32DataType)); dfData->ORG_DicomDataType = TYPE_S32Data;*/ scalars = vtkIntArray::New(); ((vtkIntArray*)(scalars))->SetArray((int*)diPixel->getData(), diPixel->getCount(), 1); break; default: RAD_LOG_CRITICAL("DCMTK EP_Representation type:" << diPixel->getRepresentation() << " not supported"); } scalars->SetNumberOfComponents(1); image->SetDimensions(dfData->cols, dfData->rows, 1); image->SetSpacing(spacing[0], spacing[1], 1.0); image->GetPointData()->SetScalars(scalars); image->GetPointData()->GetScalars()->SetName("DICOMImage"); //image->Update(); double bounds[6]; image->GetBounds(bounds); // type cast all images to unsigned int32 vtkImageCast* imageCast = vtkImageCast::New(); imageCast->SetInputData(image); imageCast->SetOutputScalarTypeToFloat(); imageCast->Update(); dfData->pixelData = calloc(diPixel->getCount(), sizeof(U32DataType)); dfData->dicomDataType = TYPE_U32Data; RAD_LOG_INFO("MEMCPY pixel data for frame:" << dicomImage->getFirstFrame()) memcpy(dfData->pixelData, imageCast->GetOutput()->GetPointData()->GetScalars()->GetVoidPointer(0), imageCast->GetOutput()->GetPointData()->GetScalars()->GetSize()*sizeof(float)); imageCast->Delete(); scalars->Delete(); image->Delete(); this->allFrameDoseData.push_back(dfData); } while (dicomImage->processNextFrames()); /// compute cuboid // get first dose frame data doseFrameData* dfData = allFrameDoseData.at(0); // create VTK Cuboid int dimension[3] = { dfData->cols, dfData->rows, allFrameDoseData.size() }; long dicomSliceSize = dimension[0] * dimension[1]; long dicomDataSize = dimension[0] * dimension[1] * dimension[2]; long dicomDataIdx = dicomSliceSize; void* dicomData = rad_get_memory(dicomDataSize * sizeof(float)); #ifdef ULTA for (int i = allFrameDoseData.size() - 1; i >= 0; i--) #else for (int i = 0;i< allFrameDoseData.size();i++) #endif { float* dicomData2 = static_cast<float*>(dicomData); dicomData2 += dicomDataSize; memcpy(dicomData2 - dicomDataIdx, allFrameDoseData.at(i)->pixelData, dicomSliceSize*sizeof(float)); dicomDataIdx += dicomSliceSize; } vtkDataArray* scalars = 0; scalars = vtkFloatArray::New(); ((vtkFloatArray*)(scalars))->SetArray((float*)dicomData, dicomDataSize, 1); scalars->SetNumberOfComponents(1); d->m_doseCuboid = vtkImageData::New(); d->m_doseCuboid->SetDimensions(dimension); d->m_doseCuboid->SetSpacing(spacing); //double lip[3] = { 0, 0, 0 }; //d->m_dcmGeometry->GetLastImagePosition(lip); //d->m_doseCuboid->SetOrigin(firstImagePosition); d->m_doseCuboid->GetPointData()->SetScalars(scalars); d->m_doseCuboid->GetPointData()->GetScalars()->SetName("Dose Cuboid"); d->m_doseCuboid->Modified(); rxDose = rtPlan->getTargetPrescribedDose(); int dosemax = int(this->maxDosePixelValue * this->doseGridScaling * 10000 / rxDose); // ISODOSE LEVEL(s) READY this->isodoses.push_back(new isodose(dosemax, 120, 0, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(102, 170, 0, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(100, 238, 69, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(98, 255, 65, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(95, 255, 255, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(90, 0, 255, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(80, 0, 139, 0, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(70, 0, 255, 255, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(50, 0, 0, 255, "", false, 0, 0, "Built-In")); this->isodoses.push_back(new isodose(30, 0, 0, 128, "", false, 0, 0, "Built-In")); // Calculate cGy Value and append to names. for (int i = 0; i<this->isodoses.size(); i++) { isodose* iso = this->isodoses.at(i); iso->cGyValue = (int)(iso->level * rxDose / 100); iso->name.append(convert_to_string(iso->level)); iso->name.append("% - "); iso->name.append(convert_to_string(iso->cGyValue)); iso->name.append(" cGy"); iso->pixelIntensity = iso->level * rxDose / (this->doseGridScaling * 10000); } // load DV data DcmItem *dvhItem = NULL; signed long dvhCount = 0; while (rtDoseDicom->dataset->findAndGetSequenceItem(DCM_DVHSequence, dvhItem, dvhCount++).good()) { DVH* dh = new DVH(); DcmItem *dvhRefROISequenceItem = NULL; // ROI Number const char * RoiNumber = NULL; if (dvhItem->findAndGetSequenceItem(DCM_DVHReferencedROISequence, dvhRefROISequenceItem, 0).good()) { OFCondition status = dvhItem->findAndGetString(DCM_ReferencedROINumber, RoiNumber, true); dh->setROINumber(convert_to_uint(RoiNumber)); } // DVH Data string fNm = "D:\\DVH_DICOM_"; fNm.append(convert_to_string(dvhCount)); fNm.append(".csv"); //ofstream Morison_File(fNm.c_str()); const char * dvhdata = NULL; dvhItem->findAndGetString(DCM_DVHData, dvhdata); vector<string> dvhdataListTemp; tokenize(dvhdata, dvhdataListTemp, "\\"); for (int i = 0; i < dvhdataListTemp.size(); i++) { i++; string volume = dvhdataListTemp.at(i); if (0 > int(atof(volume.c_str()))) volume = "0"; dh->dvhDataList.push_back(convert_to_double(volume.c_str())); // Morison_File << volume.c_str() << endl; } //Morison_File.close(); //convert volume information in dvhDataList from abosulte to percentage. dh->setMaxDVHValue(*std::max_element(dh->dvhDataList.begin(), dh->dvhDataList.end())); /*std::transform(dh->dvhDataList.begin(), dh->dvhDataList.end(), dh->dvhDataList.begin(), std::bind2nd(std::divides<double>(), dh->getMaxDVHValue())); std::transform(dh->dvhDataList.begin(), dh->dvhDataList.end(), dh->dvhDataList.begin(), std::bind2nd(std::multiplies<double>(), 100));*/ // DVH Mini Dose const char * dvhMinDose = NULL; if (dvhItem->findAndGetString(DCM_DVHMinimumDose, dvhMinDose).good()) dh->setDVHMiniDose(convert_to_double(dvhMinDose)); //DVH Max Dose const char * dvhMaxDose = NULL; if (dvhItem->findAndGetString(DCM_DVHMaximumDose, dvhMaxDose).good()) dh->setDVHMaxDose(convert_to_double(dvhMaxDose)); //DVH Mean Dose const char * dvhMeanDose = NULL; if (dvhItem->findAndGetString(DCM_DVHMeanDose, dvhMeanDose).good()) dh->setDVHMeanDose(convert_to_double(dvhMeanDose)); // Structureset ref SOPUID DcmItem *dvhRefStructureSet = NULL; const char * structSetRefSOPUID = NULL; if (rtDoseDicom->dataset->findAndGetSequenceItem(DCM_ReferencedStructureSetSequence, dvhRefStructureSet).good()) { if (dvhRefStructureSet->findAndGetString(DCM_ReferencedSOPInstanceUID, structSetRefSOPUID, true).good()) dh->setStrucSetRefSopUID(string(structSetRefSOPUID)); } this->dh.push_back(dh); } }