diff --git a/Modules/Python/CMakeLists.txt b/Modules/Python/CMakeLists.txt index afc64441af..b72f6b4d95 100644 --- a/Modules/Python/CMakeLists.txt +++ b/Modules/Python/CMakeLists.txt @@ -1,21 +1,23 @@ if( MITK_USE_Python ) if(NOT MITK_USE_SYSTEM_PYTHON) add_definitions( -DUSE_MITK_BUILTIN_PYTHON ) set(NUMPY_INCLUDE_DIR "${Numpy_DIR}/core/include") endif() + MESSAGE("numpy: " ${Numpy_DIR}) + set(OpenCV_DEP ) if(MITK_USE_OpenCV) set(OpenCV_DEP OpenCV) endif() MITK_CREATE_MODULE( DEPENDS MitkCore EXPORT_DEFINE MITK_PYTHON_EXPORT PACKAGE_DEPENDS Qt4|QtGui CTK|CTKScriptingPythonCore+CTKScriptingPythonWidgets PythonLibs VTK|vtkPython+vtkWrappingPythonCore SimpleITK ${OpenCV_DEP} INCLUDE_DIRS ${NUMPY_INCLUDE_DIR} ) configure_file(PythonPath.h.in "${CMAKE_CURRENT_BINARY_DIR}/PythonPath.h" @ONLY) add_subdirectory(Testing) endif() diff --git a/Modules/Python/PythonPath.h.in b/Modules/Python/PythonPath.h.in index 87a61cfe35..974ea507bb 100644 --- a/Modules/Python/PythonPath.h.in +++ b/Modules/Python/PythonPath.h.in @@ -1,22 +1,22 @@ #ifdef _DEBUG #define PYTHON_PATH_BUILD_TYPE "/Debug" #else #define PYTHON_PATH_BUILD_TYPE "/Release" #endif #define PYTHONPATH_COMMAND "import sys\n"\ -"sys.path.append('@Numpy_DIR@')\n"\ +"sys.path.append('@MITK_PYTHON_SITE_DIR@')\n"\ "sys.path.append('@SimpleITK_DIR@/bin')\n"\ "sys.path.append('@SimpleITK_DIR@/lib')\n"\ "sys.path.append('@SimpleITK_DIR@/Wrapping')\n"\ "sys.path.append('@VTK_DIR@/Wrapping/Python')\n"\ "sys.path.append('@VTK_DIR@/lib')\n"\ "sys.path.append('@VTK_DIR@/bin" PYTHON_PATH_BUILD_TYPE "')\n"\ "sys.path.append('@OpenCV_DIR@/lib" PYTHON_PATH_BUILD_TYPE "')\n"\ "sys.path.append('@OpenCV_DIR@/lib')\n"\ "sys.path.append('@OpenCV_DIR@/bin')\n"\ "sys.path.append('@OpenCV_DIR@/bin" PYTHON_PATH_BUILD_TYPE "')" #define PYTHONHOME "@Python_DIR@" #define PYTHON_LIBRARY_NAME "@PYTHON_LIBRARY_NAME@" diff --git a/Modules/Python/QmitkPythonVariableStackTableModel.cpp b/Modules/Python/QmitkPythonVariableStackTableModel.cpp index a7e1d4fe15..d345dd0962 100755 --- a/Modules/Python/QmitkPythonVariableStackTableModel.cpp +++ b/Modules/Python/QmitkPythonVariableStackTableModel.cpp @@ -1,230 +1,230 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "QmitkPythonVariableStackTableModel.h" #include #include #include #include #include #include const QString QmitkPythonVariableStackTableModel::MITK_IMAGE_VAR_NAME = "mitkImage"; const QString QmitkPythonVariableStackTableModel::MITK_SURFACE_VAR_NAME = "mitkSurface"; QmitkPythonVariableStackTableModel::QmitkPythonVariableStackTableModel(QObject *parent) :QAbstractTableModel(parent) { us::ModuleContext* context = us::GetModuleContext(); m_PythonServiceRef = context->GetServiceReference(); m_PythonService = context->GetService(m_PythonServiceRef); m_PythonService->AddPythonCommandObserver( this ); } QmitkPythonVariableStackTableModel::~QmitkPythonVariableStackTableModel() { us::ModuleContext* context = us::GetModuleContext(); context->UngetService( m_PythonServiceRef ); m_PythonService->RemovePythonCommandObserver( this ); } bool QmitkPythonVariableStackTableModel::dropMimeData ( const QMimeData * data, Qt::DropAction action, int row, int column, const QModelIndex & parent ) { // Early exit, returning true, but not actually doing anything (ignoring data). if (action == Qt::IgnoreAction) return true; // Note, we are returning true if we handled it, and false otherwise bool returnValue = false; if(data->hasFormat("application/x-mitk-datanodes")) { MITK_DEBUG("QmitkPythonVariableStackTableModel") << "dropped MITK DataNode"; returnValue = true; QString arg = QString(data->data("application/x-mitk-datanodes").data()); QStringList listOfDataNodeAddressPointers = arg.split(","); QStringList::iterator slIter; int i = 0; for (slIter = listOfDataNodeAddressPointers.begin(); slIter != listOfDataNodeAddressPointers.end(); slIter++) { long val = (*slIter).toLong(); mitk::DataNode* node = static_cast((void*)val); mitk::Image* mitkImage = dynamic_cast(node->GetData()); MITK_DEBUG("QmitkPythonVariableStackTableModel") << "mitkImage is not null " << (mitkImage != 0? "true": "false"); QRegExp rx("^\\d"); QString varName(node->GetName().c_str()); // regex replace every character that is not allowed in a python variable varName = varName.replace(QRegExp("[.\\+\\-*\\s\\/\\n\\t\\r]"),QString("_")); if( mitkImage ) { if ( varName.isEmpty() ) varName = MITK_IMAGE_VAR_NAME; if ( rx.indexIn(varName) == 0) varName.prepend("_").prepend(MITK_IMAGE_VAR_NAME); if( i > 0 ) varName = QString("%1%2").arg(varName).arg(i); MITK_DEBUG("QmitkPythonVariableStackTableModel") << "varName" << varName.toStdString(); bool exportAsCvImage = mitkImage->GetDimension() == 2 && m_PythonService->IsOpenCvPythonWrappingAvailable(); if( exportAsCvImage ) { int ret = QMessageBox::question(NULL, "Export option", "2D image detected. Export as OpenCV image to Python instead of an SimpleITK image?", QMessageBox::Yes | QMessageBox::No, QMessageBox::No); exportAsCvImage = ret == QMessageBox::Yes; if(exportAsCvImage) { varName = MITK_IMAGE_VAR_NAME; m_PythonService->CopyToPythonAsCvImage( mitkImage, varName.toStdString() ); ++i; } } if( !exportAsCvImage ) { if( m_PythonService->IsSimpleItkPythonWrappingAvailable() ) { m_PythonService->CopyToPythonAsSimpleItkImage( mitkImage, varName.toStdString() ); ++i; } else { - MITK_ERROR << "ITK Python wrapping not available. Skipping export for image " << node->GetName(); + MITK_ERROR << "SimpleITK Python wrapping not available. Skipping export for image " << node->GetName(); } } } else { mitk::Surface* surface = dynamic_cast(node->GetData()); MITK_DEBUG("QmitkPythonVariableStackTableModel") << "found surface"; if( surface ) { if (varName.isEmpty() ) varName = MITK_SURFACE_VAR_NAME; if ( rx.indexIn(varName) == 0) varName.prepend("_").prepend(MITK_SURFACE_VAR_NAME); MITK_DEBUG("QmitkPythonVariableStackTableModel") << "varName" << varName; if( m_PythonService->IsVtkPythonWrappingAvailable() ) { m_PythonService->CopyToPythonAsVtkPolyData( surface, varName.toStdString() ); } else { MITK_ERROR << "VTK Python wrapping not available. Skipping export for surface " << node->GetName(); } } } } } return returnValue; } QVariant QmitkPythonVariableStackTableModel::headerData(int section, Qt::Orientation orientation, int role) const { QVariant headerData; // show only horizontal header if ( role == Qt::DisplayRole ) { if( orientation == Qt::Horizontal ) { // first column: "Attribute" if(section == 0) headerData = "Attribute"; else if(section == 1) headerData = "Type"; else if(section == 2) headerData = "Value"; } } return headerData; } Qt::ItemFlags QmitkPythonVariableStackTableModel::flags(const QModelIndex &index) const { Qt::ItemFlags flags = QAbstractItemModel::flags(index); if(index.isValid()) return Qt::ItemIsDragEnabled | Qt::ItemIsDropEnabled | flags; else return Qt::ItemIsDropEnabled | flags; } int QmitkPythonVariableStackTableModel::rowCount(const QModelIndex &) const { return m_VariableStack.size(); } int QmitkPythonVariableStackTableModel::columnCount(const QModelIndex &) const { return 3; } QVariant QmitkPythonVariableStackTableModel::data(const QModelIndex &index, int role) const { if (index.isValid() && !m_VariableStack.empty()) { if(role == Qt::DisplayRole) { mitk::PythonVariable item = m_VariableStack.at(index.row()); if(index.column() == 0) return QString::fromStdString(item.m_Name); if(index.column() == 1) return QString::fromStdString(item.m_Type); if(index.column() == 2) return QString::fromStdString(item.m_Value); } } return QVariant(); } QStringList QmitkPythonVariableStackTableModel::mimeTypes() const { return QAbstractTableModel::mimeTypes(); QStringList types; types << "application/x-mitk-datanodes"; types << "application/x-qabstractitemmodeldatalist"; return types; } Qt::DropActions QmitkPythonVariableStackTableModel::supportedDropActions() const { return Qt::CopyAction | Qt::MoveAction; } void QmitkPythonVariableStackTableModel::CommandExecuted(const std::string& pythonCommand) { MITK_DEBUG("QmitkPythonVariableStackTableModel") << "command was executed " << pythonCommand; m_VariableStack = m_PythonService->GetVariableStack(); QAbstractTableModel::reset(); } std::vector QmitkPythonVariableStackTableModel::GetVariableStack() const { return m_VariableStack; } diff --git a/Modules/Python/mitkPythonService.cpp b/Modules/Python/mitkPythonService.cpp index f040e45c0f..0df94de1c5 100644 --- a/Modules/Python/mitkPythonService.cpp +++ b/Modules/Python/mitkPythonService.cpp @@ -1,640 +1,637 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "mitkPythonService.h" #include #include #include #include #include #include "PythonPath.h" #include #include #include #include #include #ifndef WIN32 #include #endif const QString mitk::PythonService::m_TmpDataFileName("temp_mitk_data_file"); #ifdef USE_MITK_BUILTIN_PYTHON static char* pHome = NULL; #endif mitk::PythonService::PythonService() : m_ItkWrappingAvailable( true ), m_OpenCVWrappingAvailable( true ), m_VtkWrappingAvailable( true ), m_ErrorOccured( false ) { { MITK_DEBUG << "will init python if necessary"; } bool pythonInitialized = static_cast( Py_IsInitialized() ); //m_PythonManager.isPythonInitialized() ); { MITK_DEBUG << "pythonInitialized " << pythonInitialized; MITK_DEBUG << "m_PythonManager.isPythonInitialized() " << m_PythonManager.isPythonInitialized(); } // due to strange static var behaviour on windows Py_IsInitialized() returns correct value while // m_PythonManager.isPythonInitialized() does not because it has been constructed and destructed again if( !m_PythonManager.isPythonInitialized() ) { try { //TODO a better way to do this #ifndef WIN32 dlopen(PYTHON_LIBRARY_NAME, RTLD_NOW | RTLD_NOLOAD | RTLD_GLOBAL); #endif std::string programPath = mitk::IOUtil::GetProgramPath(); QDir programmDir( QString( programPath.c_str() ).append("/Python") ); QString pythonCommand; // Set the pythonpath variable depending if // we have an installer or development environment if ( programmDir.exists() ) { // runtime directory used in installers pythonCommand.append( QString("import sys\n") ); pythonCommand.append( QString("sys.path.append('')\n") ); pythonCommand.append( QString("sys.path.append('%1')\n").arg(programPath.c_str()) ); pythonCommand.append( QString("sys.path.append('%1/Python')\n").arg(programPath.c_str()) ); pythonCommand.append( QString("sys.path.append('%1/Python/SimpleITK')").arg(programPath.c_str()) ); // set python home if own runtime is deployed } else { pythonCommand.append(PYTHONPATH_COMMAND); } if( pythonInitialized ) m_PythonManager.setInitializationFlags(PythonQt::RedirectStdOut|PythonQt::PythonAlreadyInitialized); else m_PythonManager.setInitializationFlags(PythonQt::RedirectStdOut); // set python home if own runtime is used #ifdef USE_MITK_BUILTIN_PYTHON QString pythonHome; if ( programmDir.exists() ) pythonHome.append(QString("%1/Python").arg(programPath.c_str())); else pythonHome.append(PYTHONHOME); if(pHome) delete[] pHome; pHome = new char[pythonHome.toStdString().length() + 1]; strcpy(pHome,pythonHome.toStdString().c_str()); Py_SetPythonHome(pHome); MITK_DEBUG("PythonService") << "PythonHome: " << pHome; #endif MITK_DEBUG("PythonService") << "initalizing python"; m_PythonManager.initialize(); #ifdef USE_MITK_BUILTIN_PYTHON PyObject* dict = PyDict_New(); // Import builtin modules if (PyDict_GetItemString(dict, "__builtins__") == NULL) { PyObject* builtinMod = PyImport_ImportModule("__builtin__"); if (builtinMod == NULL || PyDict_SetItemString(dict, "__builtins__", builtinMod) != 0) { Py_DECREF(dict); Py_XDECREF(dict); return; } Py_DECREF(builtinMod); } #endif MITK_DEBUG("PythonService")<< "Python Search paths: " << Py_GetPath(); MITK_DEBUG("PythonService") << "python initalized"; MITK_DEBUG("PythonService") << "registering python paths" << PYTHONPATH_COMMAND; m_PythonManager.executeString( pythonCommand, ctkAbstractPythonManager::FileInput ); } catch (...) { MITK_DEBUG("PythonService") << "exception initalizing python"; } } } mitk::PythonService::~PythonService() { MITK_DEBUG("mitk::PythonService") << "destructing PythonService"; #ifdef USE_MITK_BUILTIN_PYTHON if(pHome) delete[] pHome; #endif } std::string mitk::PythonService::Execute(const std::string &stdpythonCommand, int commandType) { QString pythonCommand = QString::fromStdString(stdpythonCommand); { MITK_DEBUG("mitk::PythonService") << "pythonCommand = " << pythonCommand.toStdString(); MITK_DEBUG("mitk::PythonService") << "commandType = " << commandType; } QVariant result; bool commandIssued = true; if(commandType == IPythonService::SINGLE_LINE_COMMAND ) result = m_PythonManager.executeString(pythonCommand, ctkAbstractPythonManager::SingleInput ); else if(commandType == IPythonService::MULTI_LINE_COMMAND ) result = m_PythonManager.executeString(pythonCommand, ctkAbstractPythonManager::FileInput ); else if(commandType == IPythonService::EVAL_COMMAND ) result = m_PythonManager.executeString(pythonCommand, ctkAbstractPythonManager::EvalInput ); else commandIssued = false; if(commandIssued) { this->NotifyObserver(pythonCommand.toStdString()); m_ErrorOccured = PythonQt::self()->hadError(); } return result.toString().toStdString(); } void mitk::PythonService::ExecuteScript( const std::string& pythonScript ) { m_PythonManager.executeFile(QString::fromStdString(pythonScript)); } std::vector mitk::PythonService::GetVariableStack() const { std::vector list; PyObject* dict = PyImport_GetModuleDict(); PyObject* object = PyDict_GetItemString(dict, "__main__"); PyObject* dirMain = PyObject_Dir(object); PyObject* tempObject = 0; PyObject* strTempObject = 0; if(dirMain) { std::string name, attrValue, attrType; for(int i = 0; iob_type->tp_name; strTempObject = PyObject_Repr(tempObject); if(strTempObject && ( PyUnicode_Check(strTempObject) || PyString_Check(strTempObject) ) ) attrValue = PyString_AsString(strTempObject); else attrValue = ""; mitk::PythonVariable var; var.m_Name = name; var.m_Value = attrValue; var.m_Type = attrType; list.push_back(var); } } return list; } bool mitk::PythonService::DoesVariableExist(const std::string& name) const { bool varExists = false; std::vector allVars = this->GetVariableStack(); for(unsigned int i = 0; i< allVars.size(); i++) { if( allVars.at(i).m_Name == name ) { varExists = true; break; } } return varExists; } void mitk::PythonService::AddPythonCommandObserver(mitk::PythonCommandObserver *observer) { if(!m_Observer.contains(observer)) m_Observer.append(observer); } void mitk::PythonService::RemovePythonCommandObserver(mitk::PythonCommandObserver *observer) { m_Observer.removeOne(observer); } void mitk::PythonService::NotifyObserver(const std::string &command) { MITK_DEBUG("mitk::PythonService") << "number of observer " << m_Observer.size(); for( int i=0; i< m_Observer.size(); ++i ) { m_Observer.at(i)->CommandExecuted(command); } } QString mitk::PythonService::GetTempDataFileName(const std::string& ext) const { QString tmpFolder = QDir::tempPath(); QString fileName = tmpFolder + QDir::separator() + m_TmpDataFileName + QString::fromStdString(ext); return fileName; } bool mitk::PythonService::CopyToPythonAsSimpleItkImage(mitk::Image *image, const std::string &stdvarName) { QString varName = QString::fromStdString( stdvarName ); QString command; unsigned int* imgDim = image->GetDimensions(); int npy_nd = 1; npy_intp* npy_dims = new npy_intp[1]; npy_dims[0] = imgDim[0] * imgDim[1] * imgDim[2]; // access python module PyObject *pyMod = PyImport_AddModule((char*)"__main__"); // global dictionarry PyObject *pyDict = PyModule_GetDict(pyMod); const mitk::Vector3D spacing = image->GetGeometry()->GetSpacing(); const mitk::Point3D origin = image->GetGeometry()->GetOrigin(); mitk::PixelType pixelType = image->GetPixelType(); itk::ImageIOBase::IOPixelType ioPixelType = image->GetPixelType().GetPixelType(); PyObject* npyArray = NULL; mitk::ImageReadAccessor racc(image); void* array = (void*) racc.GetData(); // default pixeltype: unsigned short NPY_TYPES npy_type = NPY_USHORT; std::string sitk_type = "sitkUInt8"; if( ioPixelType == itk::ImageIOBase::SCALAR ) { if( pixelType.GetComponentType() == itk::ImageIOBase::DOUBLE ) { npy_type = NPY_DOUBLE; sitk_type = "sitkFloat64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::FLOAT ) { npy_type = NPY_FLOAT; sitk_type = "sitkFloat32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::SHORT) { npy_type = NPY_SHORT; sitk_type = "sitkInt16"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::CHAR ) { npy_type = NPY_BYTE; sitk_type = "sitkInt8"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::INT ) { npy_type = NPY_INT; sitk_type = "sitkInt32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::LONG ) { npy_type = NPY_LONG; sitk_type = "sitkInt64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UCHAR ) { npy_type = NPY_UBYTE; sitk_type = "sitkUInt8"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::UINT ) { npy_type = NPY_UINT; sitk_type = "sitkUInt32"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::ULONG ) { npy_type = NPY_LONG; sitk_type = "sitkUInt64"; } else if( pixelType.GetComponentType() == itk::ImageIOBase::USHORT ) { npy_type = NPY_USHORT; sitk_type = "sitkUInt16"; } } else { MITK_WARN << "not a scalar pixeltype"; return false; } // creating numpy array import_array1 (true); npyArray = PyArray_SimpleNewFromData(npy_nd,npy_dims,npy_type,array); // add temp array it to the python dictionary to access it in python code const int status = PyDict_SetItemString( pyDict,QString("%1_numpy_array") .arg(varName).toStdString().c_str(), npyArray ); // sanity check if ( status != 0 ) return false; command.append( QString("%1 = sitk.Image(%2,%3,%4,sitk.%5)\n").arg(varName) .arg(QString::number(imgDim[0])) .arg(QString::number(imgDim[1])) .arg(QString::number(imgDim[2])) .arg(QString(sitk_type.c_str())) ); command.append( QString("%1.SetSpacing([%2,%3,%4])\n").arg(varName) .arg(QString::number(spacing[0])) .arg(QString::number(spacing[1])) .arg(QString::number(spacing[2])) ); command.append( QString("%1.SetOrigin([%2,%3,%4])\n").arg(varName) .arg(QString::number(origin[0])) .arg(QString::number(origin[1])) .arg(QString::number(origin[2])) ); // directly access the cpp api from the lib command.append( QString("_SimpleITK._SetImageFromArray(%1_numpy_array,%1)\n").arg(varName) ); command.append( QString("del %1_numpy_array").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute( command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return true; } mitk::Image::Pointer mitk::PythonService::CopySimpleItkImageFromPython(const std::string &stdvarName) { double*ds = NULL; // access python module PyObject *pyMod = PyImport_AddModule((char*)"__main__"); // global dictionarry PyObject *pyDict = PyModule_GetDict(pyMod); mitk::Image::Pointer mitkImage = mitk::Image::New(); mitk::Vector3D spacing; mitk::Point3D origin; QString command; QString varName = QString::fromStdString( stdvarName ); command.append( QString("%1_numpy_array = sitk.GetArrayFromImage(%1)\n").arg(varName) ); command.append( QString("%1_spacing = numpy.asarray(%1.GetSpacing())\n").arg(varName) ); command.append( QString("%1_origin = numpy.asarray(%1.GetOrigin())\n").arg(varName) ); command.append( QString("%1_dtype = %1_numpy_array.dtype.name").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); PyObject* py_dtype = PyDict_GetItemString(pyDict,QString("%1_dtype").arg(varName).toStdString().c_str() ); std::string dtype = PyString_AsString(py_dtype); PyArrayObject* py_data = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_numpy_array").arg(varName).toStdString().c_str() ); PyArrayObject* py_spacing = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_spacing").arg(varName).toStdString().c_str() ); PyArrayObject* py_origin = (PyArrayObject*) PyDict_GetItemString(pyDict,QString("%1_origin").arg(varName).toStdString().c_str() ); size_t sz = sizeof(short); mitk::PixelType pixelType = MakeScalarPixelType(); if( dtype.compare("float64") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(double); } else if( dtype.compare("float32") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(float); } else if( dtype.compare("int16") == 0) { pixelType = MakeScalarPixelType(); sz = sizeof(short); } else if( dtype.compare("int8") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(char); } else if( dtype.compare("int32") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(int); } else if( dtype.compare("int64") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(long); } else if( dtype.compare("uint8") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(unsigned char); } else if( dtype.compare("uint32") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(unsigned int); } else if( dtype.compare("uint64") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(unsigned long); } else if( dtype.compare("uint16") == 0 ) { pixelType = MakeScalarPixelType(); sz = sizeof(unsigned short); } unsigned int* dimensions = new unsigned int[py_data->nd]; // fill backwards , nd data saves dimensions in opposite direction for( int i = 0; i < py_data->nd; ++i ) { dimensions[i] = py_data->dimensions[py_data->nd - 1 - i]; sz *= dimensions[i]; } mitkImage->Initialize(pixelType, py_data->nd, dimensions); - - // copy data - mitk::ImageWriteAccessor iwa(mitkImage); - memcpy( iwa.GetData(), py_data->data, sz); + mitkImage->SetChannel(py_data->data); ds = (double*)py_spacing->data; spacing[0] = ds[0]; spacing[1] = ds[1]; spacing[2] = ds[2]; mitkImage->GetGeometry()->SetSpacing(spacing); ds = (double*)py_origin->data; origin[0] = ds[0]; origin[1] = ds[1]; origin[2] = ds[2]; mitkImage->GetGeometry()->SetOrigin(origin); // cleanup command.clear(); command.append( QString("del %1_numpy_array\n").arg(varName) ); command.append( QString("del %1_dtype\n").arg(varName) ); command.append( QString("del %1_spacing\n").arg(varName) ); command.append( QString("del %1_origin").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); delete[] dimensions; return mitkImage; } bool mitk::PythonService::CopyToPythonAsCvImage( mitk::Image* image, const std::string& stdvarName ) { QString varName = QString::fromStdString( stdvarName ); bool convert = false; if(image->GetDimension() != 2) { MITK_ERROR << "Only 2D images allowed for OpenCV images"; return convert; } // try to save mitk image QString fileName = this->GetTempDataFileName( ".bmp" ); fileName = QDir::fromNativeSeparators( fileName ); MITK_DEBUG("PythonService") << "Saving temporary file " << fileName.toStdString(); if( !mitk::IOUtil::SaveImage(image, fileName.toStdString()) ) { MITK_ERROR << "Temporary file " << fileName.toStdString() << " could not be created."; return convert; } QString command; command.append( QString("%1 = cv2.imread(\"%2\")\n") .arg( varName ).arg( fileName ) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); MITK_DEBUG("PythonService") << "Removing file " << fileName.toStdString(); QFile file(fileName); file.remove(); convert = true; return convert; } mitk::Image::Pointer mitk::PythonService::CopyCvImageFromPython( const std::string& stdvarName ) { QString varName = QString::fromStdString( stdvarName ); mitk::Image::Pointer mitkImage; QString command; QString fileName = GetTempDataFileName( ".bmp" ); fileName = QDir::fromNativeSeparators( fileName ); MITK_DEBUG("PythonService") << "run python command to save image with opencv to " << fileName.toStdString(); command.append( QString( "cv2.imwrite(\"%1\", %2)\n").arg( fileName ).arg( varName ) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); try { MITK_DEBUG("PythonService") << "Loading temporary file " << fileName.toStdString() << " as MITK image"; mitkImage = mitk::IOUtil::LoadImage( fileName.toStdString() ); } catch(std::exception& e) { MITK_ERROR << e.what(); } QFile file(fileName); if( file.exists() ) { MITK_DEBUG("PythonService") << "Removing temporary file " << fileName.toStdString(); file.remove(); } return mitkImage; } ctkAbstractPythonManager *mitk::PythonService::GetPythonManager() { return &m_PythonManager; } mitk::Surface::Pointer mitk::PythonService::CopyVtkPolyDataFromPython( const std::string& stdvarName ) { // access python module PyObject *pyMod = PyImport_AddModule((char*)"__main__"); // global dictionarry PyObject *pyDict = PyModule_GetDict(pyMod); // python memory address PyObject *pyAddr = NULL; // cpp address size_t addr = 0; mitk::Surface::Pointer surface = mitk::Surface::New(); QString command; QString varName = QString::fromStdString( stdvarName ); command.append( QString("%1_addr_str = %1.GetAddressAsString(\"vtkPolyData\")\n").arg(varName) ); // remove 0x from the address command.append( QString("%1_addr = int(%1_addr_str[5:],16)").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); // get address of the object pyAddr = PyDict_GetItemString(pyDict,QString("%1_addr").arg(varName).toStdString().c_str()); // convert to long addr = PyInt_AsLong(pyAddr); MITK_DEBUG << "Python object address: " << addr; // get the object vtkPolyData* poly = (vtkPolyData*)((void*)addr); surface->SetVtkPolyData(poly); // delete helper variables from python stack command = ""; command.append( QString("del %1_addr_str\n").arg(varName) ); command.append( QString("del %1_addr").arg(varName) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return surface; } bool mitk::PythonService::CopyToPythonAsVtkPolyData( mitk::Surface* surface, const std::string& stdvarName ) { QString varName = QString::fromStdString( stdvarName ); std::ostringstream oss; std::string addr = ""; QString command; QString address; oss << (void*) ( surface->GetVtkPolyData() ); // get the address addr = oss.str(); // remove "0x" address = QString::fromStdString(addr.substr(2)); command.append( QString("%1 = vtk.vtkPolyData(\"%2\")\n").arg(varName).arg(address) ); MITK_DEBUG("PythonService") << "Issuing python command " << command.toStdString(); this->Execute(command.toStdString(), IPythonService::MULTI_LINE_COMMAND ); return true; } bool mitk::PythonService::IsSimpleItkPythonWrappingAvailable() { this->Execute( "import SimpleITK as sitk\n", IPythonService::SINGLE_LINE_COMMAND ); // directly access cpp lib this->Execute( "import _SimpleITK\n", IPythonService::SINGLE_LINE_COMMAND ); m_ItkWrappingAvailable = !this->PythonErrorOccured(); // check for numpy this->Execute( "import numpy\n", IPythonService::SINGLE_LINE_COMMAND ); if ( this->PythonErrorOccured() ) MITK_ERROR << "Numpy not found."; m_ItkWrappingAvailable = !this->PythonErrorOccured(); return m_ItkWrappingAvailable; } bool mitk::PythonService::IsOpenCvPythonWrappingAvailable() { this->Execute( "import cv2\n", IPythonService::SINGLE_LINE_COMMAND ); m_OpenCVWrappingAvailable = !this->PythonErrorOccured(); return m_OpenCVWrappingAvailable; } bool mitk::PythonService::IsVtkPythonWrappingAvailable() { this->Execute( "import vtk", IPythonService::SINGLE_LINE_COMMAND ); //this->Execute( "print \"Using VTK version \" + vtk.vtkVersion.GetVTKVersion()\n", IPythonService::SINGLE_LINE_COMMAND ); m_VtkWrappingAvailable = !this->PythonErrorOccured(); return m_VtkWrappingAvailable; } bool mitk::PythonService::PythonErrorOccured() const { return m_ErrorOccured; } diff --git a/SuperBuild.cmake b/SuperBuild.cmake index 9d7f47a9a5..97e8d1b7fc 100644 --- a/SuperBuild.cmake +++ b/SuperBuild.cmake @@ -1,490 +1,491 @@ #----------------------------------------------------------------------------- # Convenient macro allowing to download a file #----------------------------------------------------------------------------- macro(downloadFile url dest) file(DOWNLOAD ${url} ${dest} STATUS status) list(GET status 0 error_code) list(GET status 1 error_msg) if(error_code) message(FATAL_ERROR "error: Failed to download ${url} - ${error_msg}") endif() endmacro() #----------------------------------------------------------------------------- # MITK Prerequisites #----------------------------------------------------------------------------- if(UNIX AND NOT APPLE) include(mitkFunctionCheckPackageHeader) # Check for libxt-dev mitkFunctionCheckPackageHeader(StringDefs.h libxt-dev /usr/include/X11/) # Check for libtiff4-dev mitkFunctionCheckPackageHeader(tiff.h libtiff4-dev) # Check for libwrap0-dev mitkFunctionCheckPackageHeader(tcpd.h libwrap0-dev) endif() #----------------------------------------------------------------------------- # Qt options for external projects and MITK #----------------------------------------------------------------------------- if(MITK_USE_QT) set(qt_project_args -DDESIRED_QT_VERSION:STRING=${DESIRED_QT_VERSION}) else() set(qt_project_args ) endif() if(MITK_USE_Qt4) list(APPEND qt_project_args -DQT_QMAKE_EXECUTABLE:FILEPATH=${QT_QMAKE_EXECUTABLE} ) endif() if(MITK_USE_Qt5) find_program(QT_QMAKE_EXECUTABLE qmake) if(NOT QT_QMAKE_EXECUTABLE) message(FATAL_ERROR "Qt qmake executable not found.") endif() execute_process(COMMAND ${QT_QMAKE_EXECUTABLE} -query QT_VERSION OUTPUT_VARIABLE _qt_version OUTPUT_STRIP_TRAILING_WHITESPACE) set(_qt_version_minimum "5.0.0") if(_qt_version VERSION_LESS _qt_version_minimum) message(SEND_ERROR "Qt version ${_qt_version} too old. At least Qt ${_qt_version_minimum} is required") endif() execute_process(COMMAND ${QT_QMAKE_EXECUTABLE} -query QT_INSTALL_PREFIX OUTPUT_VARIABLE _qt_install_prefix OUTPUT_STRIP_TRAILING_WHITESPACE) file(TO_CMAKE_PATH "${_qt_install_prefix}" _qt_install_prefix) list(APPEND qt_project_args -DCMAKE_PREFIX_PATH:PATH=${_qt_install_prefix}) endif() #----------------------------------------------------------------------------- # ExternalProjects #----------------------------------------------------------------------------- set(external_projects Python Numpy tinyxml GLUT ANN CppUnit GLEW VTK ACVD GDCM OpenCV Poco ITK Boost DCMTK CTK SOFA MITKData Qwt PCRE Swig SimpleITK ) # Qxt supports Qt5. We need to also support it in QxtCMakeLists.txt if(MITK_USE_Qt4) list(APPEND external_projects Qxt) endif() # These are "hard" dependencies and always set to ON set(MITK_USE_tinyxml 1) set(MITK_USE_ANN 1) set(MITK_USE_GLEW 1) set(MITK_USE_GDCM 1) set(MITK_USE_ITK 1) set(MITK_USE_VTK 1) # Semi-hard dependencies, enabled by user-controlled variables if(MITK_USE_QT) if(MITK_USE_Qt4) set(MITK_USE_Qwt 1) set(MITK_USE_Qxt 1) #TODO: Check how Qxt builds with Qt 5 endif() endif() if(MITK_USE_SOFA) set(MITK_USE_GLUT 1) endif() # A list of "nice" external projects, playing well together with CMake set(nice_external_projects ${external_projects}) list(REMOVE_ITEM nice_external_projects Boost) foreach(proj ${nice_external_projects}) if(MITK_USE_${proj}) set(EXTERNAL_${proj}_DIR "${${proj}_DIR}" CACHE PATH "Path to ${proj} build directory") mark_as_advanced(EXTERNAL_${proj}_DIR) if(EXTERNAL_${proj}_DIR) set(${proj}_DIR ${EXTERNAL_${proj}_DIR}) endif() endif() endforeach() if(MITK_USE_Boost) set(EXTERNAL_BOOST_ROOT "${BOOST_ROOT}" CACHE PATH "Path to Boost directory") mark_as_advanced(EXTERNAL_BOOST_ROOT) if(EXTERNAL_BOOST_ROOT) set(BOOST_ROOT ${EXTERNAL_BOOST_ROOT}) endif() endif() # Setup file for setting custom ctest vars configure_file( CMake/SuperbuildCTestCustom.cmake.in ${MITK_BINARY_DIR}/CTestCustom.cmake @ONLY ) if(BUILD_TESTING) set(EXTERNAL_MITK_DATA_DIR "${MITK_DATA_DIR}" CACHE PATH "Path to the MITK data directory") mark_as_advanced(EXTERNAL_MITK_DATA_DIR) if(EXTERNAL_MITK_DATA_DIR) set(MITK_DATA_DIR ${EXTERNAL_MITK_DATA_DIR}) endif() endif() # Look for git early on, if needed if((BUILD_TESTING AND NOT EXTERNAL_MITK_DATA_DIR) OR (MITK_USE_CTK AND NOT EXTERNAL_CTK_DIR)) find_package(Git REQUIRED) endif() #----------------------------------------------------------------------------- # External project settings #----------------------------------------------------------------------------- include(ExternalProject) set(ep_base "${CMAKE_BINARY_DIR}/CMakeExternals") set_property(DIRECTORY PROPERTY EP_BASE ${ep_base}) set(ep_install_dir ${ep_base}/Install) #set(ep_build_dir ${ep_base}/Build) set(ep_source_dir ${ep_base}/Source) #set(ep_parallelism_level) set(ep_build_shared_libs ON) set(ep_build_testing OFF) if(NOT MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL) set(MITK_THIRDPARTY_DOWNLOAD_PREFIX_URL http://mitk.org/download/thirdparty) endif() # Compute -G arg for configuring external projects with the same CMake generator: if(CMAKE_EXTRA_GENERATOR) set(gen "${CMAKE_EXTRA_GENERATOR} - ${CMAKE_GENERATOR}") else() set(gen "${CMAKE_GENERATOR}") endif() # Use this value where semi-colons are needed in ep_add args: set(sep "^^") ## if(MSVC_VERSION) set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} /bigobj /MP") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /bigobj /MP") endif() set(ep_common_args -DBUILD_TESTING:BOOL=${ep_build_testing} -DCMAKE_INSTALL_PREFIX:PATH=${ep_install_dir} -DBUILD_SHARED_LIBS:BOOL=ON -DCMAKE_BUILD_TYPE:STRING=${CMAKE_BUILD_TYPE} -DCMAKE_C_COMPILER:FILEPATH=${CMAKE_C_COMPILER} -DCMAKE_CXX_COMPILER:FILEPATH=${CMAKE_CXX_COMPILER} -DCMAKE_C_FLAGS:STRING=${CMAKE_C_FLAGS} -DCMAKE_CXX_FLAGS:STRING=${CMAKE_CXX_FLAGS} #debug flags -DCMAKE_CXX_FLAGS_DEBUG:STRING=${CMAKE_CXX_FLAGS_DEBUG} -DCMAKE_C_FLAGS_DEBUG:STRING=${CMAKE_C_FLAGS_DEBUG} #release flags -DCMAKE_CXX_FLAGS_RELEASE:STRING=${CMAKE_CXX_FLAGS_RELEASE} -DCMAKE_C_FLAGS_RELEASE:STRING=${CMAKE_C_FLAGS_RELEASE} #relwithdebinfo -DCMAKE_CXX_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_CXX_FLAGS_RELWITHDEBINFO} -DCMAKE_C_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_C_FLAGS_RELWITHDEBINFO} #link flags -DCMAKE_EXE_LINKER_FLAGS:STRING=${CMAKE_EXE_LINKER_FLAGS} -DCMAKE_SHARED_LINKER_FLAGS:STRING=${CMAKE_SHARED_LINKER_FLAGS} -DCMAKE_MODULE_LINKER_FLAGS:STRING=${CMAKE_MODULE_LINKER_FLAGS} ) # Pass the CMAKE_OSX variables to external projects if(APPLE) set(MAC_OSX_ARCHITECTURE_ARGS -DCMAKE_OSX_ARCHITECTURES:PATH=${CMAKE_OSX_ARCHITECTURES} -DCMAKE_OSX_DEPLOYMENT_TARGET:PATH=${CMAKE_OSX_DEPLOYMENT_TARGET} -DCMAKE_OSX_SYSROOT:PATH=${CMAKE_OSX_SYSROOT} ) set(ep_common_args ${MAC_OSX_ARCHITECTURE_ARGS} ${ep_common_args} ) endif() # Include external projects foreach(p ${external_projects}) include(CMakeExternals/${p}.cmake) endforeach() #----------------------------------------------------------------------------- # Set superbuild boolean args #----------------------------------------------------------------------------- set(mitk_cmake_boolean_args BUILD_SHARED_LIBS WITH_COVERAGE BUILD_TESTING MITK_USE_QT MITK_BUILD_ALL_PLUGINS MITK_BUILD_ALL_APPS MITK_BUILD_TUTORIAL # Deprecated. Use MITK_BUILD_EXAMPLES instead MITK_BUILD_EXAMPLES MITK_USE_ACVD MITK_USE_CppUnit MITK_USE_GLEW MITK_USE_Boost MITK_USE_SYSTEM_Boost MITK_USE_BLUEBERRY MITK_USE_CTK MITK_USE_DCMTK MITK_USE_OpenCV MITK_USE_Poco MITK_USE_SOFA MITK_USE_Python MITK_USE_OpenCL MITK_ENABLE_PIC_READER ) #----------------------------------------------------------------------------- # Create the final variable containing superbuild boolean args #----------------------------------------------------------------------------- set(mitk_superbuild_boolean_args) foreach(mitk_cmake_arg ${mitk_cmake_boolean_args}) list(APPEND mitk_superbuild_boolean_args -D${mitk_cmake_arg}:BOOL=${${mitk_cmake_arg}}) endforeach() if(MITK_BUILD_ALL_PLUGINS) list(APPEND mitk_superbuild_boolean_args -DBLUEBERRY_BUILD_ALL_PLUGINS:BOOL=ON) endif() #----------------------------------------------------------------------------- # MITK Utilities #----------------------------------------------------------------------------- set(proj MITK-Utilities) ExternalProject_Add(${proj} DOWNLOAD_COMMAND "" CONFIGURE_COMMAND "" BUILD_COMMAND "" INSTALL_COMMAND "" DEPENDS # Mandatory dependencies ${tinyxml_DEPENDS} ${ANN_DEPENDS} ${VTK_DEPENDS} ${ITK_DEPENDS} # Optionnal dependencies ${ACVD_DEPENDS} ${CppUnit_DEPENDS} ${GLUT_DEPENDS} ${GLEW_DEPENDS} ${Boost_DEPENDS} ${CTK_DEPENDS} ${DCMTK_DEPENDS} ${OpenCV_DEPENDS} ${Poco_DEPENDS} ${SOFA_DEPENDS} ${MITK-Data_DEPENDS} ${Qwt_DEPENDS} ${Qxt_DEPENDS} ${SimpleITK_DEPENDS} ${Numpy_DEPENDS} ) #----------------------------------------------------------------------------- # Additional MITK CXX/C Flags #----------------------------------------------------------------------------- set(MITK_ADDITIONAL_C_FLAGS "" CACHE STRING "Additional C Flags for MITK") set(MITK_ADDITIONAL_C_FLAGS_RELEASE "" CACHE STRING "Additional Release C Flags for MITK") set(MITK_ADDITIONAL_C_FLAGS_DEBUG "" CACHE STRING "Additional Debug C Flags for MITK") mark_as_advanced(MITK_ADDITIONAL_C_FLAGS MITK_ADDITIONAL_C_FLAGS_DEBUG MITK_ADDITIONAL_C_FLAGS_RELEASE) set(MITK_ADDITIONAL_CXX_FLAGS "" CACHE STRING "Additional CXX Flags for MITK") set(MITK_ADDITIONAL_CXX_FLAGS_RELEASE "" CACHE STRING "Additional Release CXX Flags for MITK") set(MITK_ADDITIONAL_CXX_FLAGS_DEBUG "" CACHE STRING "Additional Debug CXX Flags for MITK") mark_as_advanced(MITK_ADDITIONAL_CXX_FLAGS MITK_ADDITIONAL_CXX_FLAGS_DEBUG MITK_ADDITIONAL_CXX_FLAGS_RELEASE) set(MITK_ADDITIONAL_EXE_LINKER_FLAGS "" CACHE STRING "Additional exe linker flags for MITK") set(MITK_ADDITIONAL_SHARED_LINKER_FLAGS "" CACHE STRING "Additional shared linker flags for MITK") set(MITK_ADDITIONAL_MODULE_LINKER_FLAGS "" CACHE STRING "Additional module linker flags for MITK") mark_as_advanced(MITK_ADDITIONAL_EXE_LINKER_FLAGS MITK_ADDITIONAL_SHARED_LINKER_FLAGS MITK_ADDITIONAL_MODULE_LINKER_FLAGS) #----------------------------------------------------------------------------- # MITK Configure #----------------------------------------------------------------------------- if(MITK_INITIAL_CACHE_FILE) set(mitk_initial_cache_arg -C "${MITK_INITIAL_CACHE_FILE}") endif() set(mitk_optional_cache_args ) foreach(type RUNTIME ARCHIVE LIBRARY) if(DEFINED CTK_PLUGIN_${type}_OUTPUT_DIRECTORY) list(APPEND mitk_optional_cache_args -DCTK_PLUGIN_${type}_OUTPUT_DIRECTORY:PATH=${CTK_PLUGIN_${type}_OUTPUT_DIRECTORY}) endif() endforeach() # Optional python variables if(MITK_USE_Python) list(APPEND mitk_optional_cache_args -DPYTHON_EXECUTABLE:FILEPATH=${PYTHON_EXECUTABLE} -DPYTHON_INCLUDE_DIR:PATH=${PYTHON_INCLUDE_DIR} -DPYTHON_LIBRARY:FILEPATH=${PYTHON_LIBRARY} -DPYTHON_INCLUDE_DIR2:PATH=${PYTHON_INCLUDE_DIR2} -DMITK_USE_SYSTEM_PYTHON:BOOL=${MITK_USE_SYSTEM_PYTHON} -DMITK_BUILD_org.mitk.gui.qt.python:BOOL=ON ) if( NOT MITK_USE_SYSTEM_PYTHON ) list(APPEND mitk_optional_cache_args # Folders are needed to create an installer -DPython_DIR:PATH=${Python_DIR} -DNumpy_DIR:PATH=${Numpy_DIR} -DPYTHON_LIBRARY_NAME:STRING=${PYTHON_LIBRARY_NAME} + -DMITK_PYTHON_SITE_DIR:PATH=${MITK_PYTHON_SITE_DIR} ) endif() endif() set(proj MITK-Configure) ExternalProject_Add(${proj} LIST_SEPARATOR ^^ DOWNLOAD_COMMAND "" CMAKE_GENERATOR ${gen} CMAKE_CACHE_ARGS # --------------- Build options ---------------- -DBUILD_TESTING:BOOL=${ep_build_testing} -DCMAKE_INSTALL_PREFIX:PATH=${CMAKE_BINARY_DIR}/MITK-build/install -DBUILD_SHARED_LIBS:BOOL=ON -DCMAKE_BUILD_TYPE:STRING=${CMAKE_BUILD_TYPE} # --------------- Compile options ---------------- -DCMAKE_C_COMPILER:FILEPATH=${CMAKE_C_COMPILER} -DCMAKE_CXX_COMPILER:FILEPATH=${CMAKE_CXX_COMPILER} "-DCMAKE_C_FLAGS:STRING=${CMAKE_C_FLAGS} ${MITK_ADDITIONAL_C_FLAGS}" "-DCMAKE_CXX_FLAGS:STRING=${CMAKE_CXX_FLAGS} ${MITK_ADDITIONAL_CXX_FLAGS}" # debug flags "-DCMAKE_CXX_FLAGS_DEBUG:STRING=${CMAKE_CXX_FLAGS_DEBUG} ${MITK_ADDITIONAL_CXX_FLAGS_DEBUG}" "-DCMAKE_C_FLAGS_DEBUG:STRING=${CMAKE_C_FLAGS_DEBUG} ${MITK_ADDITIONAL_C_FLAGS_DEBUG}" # release flags "-DCMAKE_CXX_FLAGS_RELEASE:STRING=${CMAKE_CXX_FLAGS_RELEASE} ${MITK_ADDITIONAL_CXX_FLAGS_RELEASE}" "-DCMAKE_C_FLAGS_RELEASE:STRING=${CMAKE_C_FLAGS_RELEASE} ${MITK_ADDITIONAL_C_FLAGS_RELEASE}" # relwithdebinfo -DCMAKE_CXX_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_CXX_FLAGS_RELWITHDEBINFO} -DCMAKE_C_FLAGS_RELWITHDEBINFO:STRING=${CMAKE_C_FLAGS_RELWITHDEBINFO} # link flags "-DCMAKE_EXE_LINKER_FLAGS:STRING=${CMAKE_EXE_LINKER_FLAGS} ${MITK_ADDITIONAL_EXE_LINKER_FLAGS}" "-DCMAKE_SHARED_LINKER_FLAGS:STRING=${CMAKE_SHARED_LINKER_FLAGS} ${MITK_ADDITIONAL_SHARED_LINKER_FLAGS}" "-DCMAKE_MODULE_LINKER_FLAGS:STRING=${CMAKE_MODULE_LINKER_FLAGS} ${MITK_ADDITIONAL_MODULE_LINKER_FLAGS}" # Output directories -DMITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY:PATH=${MITK_CMAKE_LIBRARY_OUTPUT_DIRECTORY} -DMITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY:PATH=${MITK_CMAKE_RUNTIME_OUTPUT_DIRECTORY} -DMITK_CMAKE_ARCHIVE_OUTPUT_DIRECTORY:PATH=${MITK_CMAKE_ARCHIVE_OUTPUT_DIRECTORY} # ------------- Boolean build options -------------- ${mitk_superbuild_boolean_args} ${mitk_optional_cache_args} -DMITK_USE_SUPERBUILD:BOOL=OFF -DMITK_BUILD_CONFIGURATION:STRING=${MITK_BUILD_CONFIGURATION} -DCTEST_USE_LAUNCHERS:BOOL=${CTEST_USE_LAUNCHERS} # ----------------- Miscellaneous --------------- -DMITK_CTEST_SCRIPT_MODE:STRING=${MITK_CTEST_SCRIPT_MODE} -DMITK_SUPERBUILD_BINARY_DIR:PATH=${MITK_BINARY_DIR} -DMITK_MODULES_TO_BUILD:INTERNAL=${MITK_MODULES_TO_BUILD} ${qt_project_args} -DMITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_INTEGRAL_PIXEL_TYPES} -DMITK_ACCESSBYITK_FLOATING_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_FLOATING_PIXEL_TYPES} -DMITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES:STRING=${MITK_ACCESSBYITK_COMPOSITE_PIXEL_TYPES} -DMITK_ACCESSBYITK_DIMENSIONS:STRING=${MITK_ACCESSBYITK_DIMENSIONS} # --------------- External project dirs --------------- -DMITK_KWSTYLE_EXECUTABLE:FILEPATH=${MITK_KWSTYLE_EXECUTABLE} -DCTK_DIR:PATH=${CTK_DIR} -DDCMTK_DIR:PATH=${DCMTK_DIR} -Dtinyxml_DIR:PATH=${tinyxml_DIR} -DGLUT_DIR:PATH=${GLUT_DIR} -DGLEW_DIR:PATH=${GLEW_DIR} -DANN_DIR:PATH=${ANN_DIR} -DCppUnit_DIR:PATH=${CppUnit_DIR} -DVTK_DIR:PATH=${VTK_DIR} # FindVTK expects VTK_DIR -DITK_DIR:PATH=${ITK_DIR} # FindITK expects ITK_DIR -DACVD_DIR:PATH=${ACVD_DIR} -DOpenCV_DIR:PATH=${OpenCV_DIR} -DPoco_DIR:PATH=${Poco_DIR} -DSOFA_DIR:PATH=${SOFA_DIR} -DGDCM_DIR:PATH=${GDCM_DIR} -DBOOST_ROOT:PATH=${BOOST_ROOT} -DMITK_USE_Boost_LIBRARIES:STRING=${MITK_USE_Boost_LIBRARIES} -DMITK_DATA_DIR:PATH=${MITK_DATA_DIR} -DQwt_DIR:PATH=${Qwt_DIR} -DQxt_DIR:PATH=${Qxt_DIR} -DSimpleITK_DIR:PATH=${SimpleITK_DIR} -DNumpy_DIR:PATH=${Numpy_DIR} CMAKE_ARGS ${mitk_initial_cache_arg} ${MAC_OSX_ARCHITECTURE_ARGS} SOURCE_DIR ${CMAKE_CURRENT_SOURCE_DIR} BINARY_DIR ${CMAKE_BINARY_DIR}/MITK-build BUILD_COMMAND "" INSTALL_COMMAND "" DEPENDS MITK-Utilities ) #----------------------------------------------------------------------------- # MITK #----------------------------------------------------------------------------- if(CMAKE_GENERATOR MATCHES ".*Makefiles.*") set(mitk_build_cmd "$(MAKE)") else() set(mitk_build_cmd ${CMAKE_COMMAND} --build ${CMAKE_CURRENT_BINARY_DIR}/MITK-build --config ${CMAKE_CFG_INTDIR}) endif() if(NOT DEFINED SUPERBUILD_EXCLUDE_MITKBUILD_TARGET OR NOT SUPERBUILD_EXCLUDE_MITKBUILD_TARGET) set(MITKBUILD_TARGET_ALL_OPTION "ALL") else() set(MITKBUILD_TARGET_ALL_OPTION "") endif() add_custom_target(MITK-build ${MITKBUILD_TARGET_ALL_OPTION} COMMAND ${mitk_build_cmd} WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/MITK-build DEPENDS MITK-Configure ) #----------------------------------------------------------------------------- # Custom target allowing to drive the build of the MITK project itself #----------------------------------------------------------------------------- add_custom_target(MITK COMMAND ${mitk_build_cmd} WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/MITK-build )