很多时候需要验证自己算法是否正确,需要选一个标准模型,让后将其切为二维切片。
把一个模型(必须封闭),找到所在的最小矩形,让后沿着某一个角度一层一层切开。每一层中每一行从最小矩形边开始,初始颜色是背景色,遇到模型边界后线颜色翻转(改为前景色),因此必须是封闭模型。
重构效果:
保存的vti跟输入stl完美契合,保存的dcm通过snap重构后跟输入stl完美契合。
案例:
vtk的vtkImageStencilSource
http://118.25.63.144/VTKExamples/site/Cxx/PolyData/PolyDataToImageData.htmlMeshToLabelMap
https://github.com/NIRALUser/MeshToLabelMap
vtkImageStencilSource是官方提供的一种切片方法,输入是vtkpolydata(可以由stl、off等模型转换),输出是vtkimagedata(可以保存成mhd,dcm的话vtk的vtkDICOXXX类贼难用)。
MeshToLabelMap是 3D Slicer的插件。其实也是用vtkImageStencilSource这个类实现的,让后他封装了两层vtkPolyDataToImageStencilOBBTree和vtkAttributedPolyDataToImage把vtkImageStencilSource的输入输出类型变得更宽泛,增加了变换矩阵,支持根据输入的nii尺寸导出想要的nii数据。我简单改了下,改成输入stl输出dcm。
程序:
代码:
vtk的vtkImageStencilSource
#include <vtkSmartPointer.h>
#include <vtkPolyData.h>
#include <vtkImageData.h>
#include <vtkSphereSource.h>
#include <vtkMetaImageWriter.h>
#include <vtkPolyDataToImageStencil.h>
#include <vtkImageStencil.h>
#include <vtkPointData.h>
#include <vtkSTLReader.h>
#include <vtkDICOMWriter.h>
#include <vtkXMLImageDataWriter.h>
int main(int, char *[]) {
vtkNew<vtkPolyData> pd ;
vtkNew<vtkSTLReader> reader;
reader->SetFileName("tmp.stl");
reader->Update();
pd->DeepCopy(reader->GetOutput());
vtkNew<vtkImageData> whiteImage;
double bounds[6];
pd->GetBounds(bounds);
double spacing[3]; // 所需的体积间距
spacing[0] = 0.5;
spacing[1] = 0.5;
spacing[2] = 0.5;
whiteImage->SetSpacing(spacing);
// 计算尺寸
int dim[3];
for (int i = 0; i < 3; i++) {
dim[i] = static_cast<int>(ceil((bounds[i * 2 + 1] - bounds[i * 2]) / spacing[i]));
}
whiteImage->SetDimensions(dim);
whiteImage->SetExtent(0, dim[0] - 1, 0, dim[1] - 1, 0, dim[2] - 1);
double origin[3];
origin[0] = bounds[0] + spacing[0] / 2;
origin[1] = bounds[2] + spacing[1] / 2;
origin[2] = bounds[4] + spacing[2] / 2;
whiteImage->SetOrigin(origin);
whiteImage->AllocateScalars(VTK_UNSIGNED_CHAR, 1);
// 用前景体素填充图像:
unsigned char inval = 255;
unsigned char outval = 0;
vtkIdType count = whiteImage->GetNumberOfPoints();
for (vtkIdType i = 0; i < count; ++i) {
whiteImage->GetPointData()->GetScalars()->SetTuple1(i, inval);
}
// 多边形数据->图像模具:
vtkNew<vtkPolyDataToImageStencil> pol2stenc;
pol2stenc->SetInputData(pd);
pol2stenc->SetOutputOrigin(origin);
pol2stenc->SetOutputSpacing(spacing);
pol2stenc->SetOutputWholeExtent(whiteImage->GetExtent());
pol2stenc->Update();
// 剪切相应的白色图像并设置背景:
vtkNew<vtkImageStencil> imgstenc ;
imgstenc->SetInputData(whiteImage);
imgstenc->SetStencilConnection(pol2stenc->GetOutputPort());
imgstenc->ReverseStencilOff();
imgstenc->SetBackgroundValue(outval);
imgstenc->Update();
vtkNew<vtkXMLImageDataWriter> writer;
writer->SetInputData(imgstenc->GetOutput());
writer->SetFileName("/home/yx/Desktop/original.vti");
writer->Write();
return 1;
}MeshToLabelMap
vtkAttributedPolyDataToImage、vtkPolyDataToImageStencilOBBTree就是上边网址的git
#include <iostream>
#include <vector>
#include <string>
#include <itkImage.h>
#include <itkImageFileWriter.h>
#include <itkImageFileReader.h>
#include <itkMedianImageFilter.h>
#include <vtkSmartPointer.h>
#include <vtkTransform.h>
#include <vtkMatrix4x4.h>
#include <vtkPolyData.h>
#include <vtkPolyDataReader.h>
#include <vtkXMLPolyDataReader.h>
#include <vtkImageData.h>
#include <vtkCommand.h>
#include <vtkTransformPolyDataFilter.h>
#include "vtkAttributedPolyDataToImage.h"
#include <QDebug>
#include <QFile>
// vtk include
#include <vtkActor.h>
#include <vtkCellData.h>
#include <vtkRenderer.h>
#include <vtkProperty.h>
#include <vtkSTLReader.h>
#include <vtkSTLWriter.h>
#include <vtkImageViewer2.h>
#include <vtkRenderWindow.h>
#include <vtkMassProperties.h>
#include <vtkTriangleFilter.h>
#include <vtkPolyDataMapper.h>
#include <vtkPolyDataNormals.h>
#include <vtkXMLPolyDataReader.h>
#include <vtkXMLPolyDataWriter.h>
#include <vtkRenderWindowInteractor.h>
#include <vtkRenderWindowInteractor.h>
#include <vtkInteractorStyleTrackballCamera.h>
#include <vtkUnstructuredGrid.h>
#include <vtkXMLUnstructuredGridWriter.h>
#include <vtkXMLUnstructuredGridReader.h>
#include <vtkDataSetSurfaceFilter.h>
#include <vtkAppendFilter.h>
int WriteITKImage (
itk::Image < unsigned char, 3 >::Pointer image, std::string fileName ) {
try {
typedef itk::Image < unsigned char, 3 > ImageType ;
typedef itk::ImageFileWriter < ImageType > ImageWriterType ;
ImageWriterType::Pointer itkWriter = ImageWriterType::New() ;
itkWriter->SetFileName ( fileName ) ;
itkWriter->SetInput ( image ) ;
itkWriter->UseCompressionOn() ;
itkWriter->Write() ;
} catch( itk::ExceptionObject &err ) {
std::cerr << "ExceptionObject caught !" << std::endl ;
std::cerr << err << std::endl ;
return 1 ;
}
return 0 ;
}
itk::Image < unsigned char, 3 >::Pointer VTK2BinaryITK (
vtkSmartPointer<vtkImageData> vtkImage,
itk::Matrix< double, 3, 3 > direction,
unsigned char value ) {
typedef itk::Image < unsigned char, 3 > ImageType ;
typedef ImageType::Pointer ImagePointer ;
// 将vtk图像转换为itk图像
int extent[ 6 ] ;
vtkImage->GetExtent( extent ) ;
ImageType::SizeType size ;
size[0] = static_cast<quint32>(extent[ 1 ] - extent[0] + 1);
size[1] = static_cast<quint32>(extent[ 3 ] - extent[2] + 1);
size[2] = static_cast<quint32>(extent[ 5 ] - extent[4] + 1);
ImagePointer itkImage = ImageType::New () ;
ImageType::RegionType region ;
region.SetSize( size ) ;
ImageType::IndexType start ;
start[0] = start[1] = start[2] = 0 ;
region.SetIndex( start ) ;
itkImage->SetRegions( region ) ;
double origin[ 3 ] ;
vtkImage->GetOrigin( origin ) ;
itkImage->SetOrigin( origin ) ;
double spacing[ 3 ] ;
vtkImage->GetSpacing( spacing ) ;
itkImage->SetSpacing( spacing ) ;
itkImage->SetDirection( direction ) ;
itkImage->Allocate() ;
ImageType::IndexType index ;
ImageType::IndexType maxIndex ;
// 由于有符号和无符号的比较,从size到mavariables in the scope below
for( quint32 i = 0 ; i < 3 ; i++ ) {
maxIndex[ i ] = static_cast<quint32>(size[i]) ;
}
int pixel ;
for ( index[ 0 ] = 0 ; index[ 0 ] < maxIndex[ 0 ] ; index[ 0 ]++ ) {
for ( index[ 1 ] = 0 ; index[ 1 ] < maxIndex[ 1 ] ; index[ 1 ]++ ) {
for ( index[ 2 ] = 0 ; index[ 2 ] < maxIndex[ 2 ] ; index[ 2 ]++ ) {
pixel = static_cast<qint32>(
vtkImage->GetScalarComponentAsFloat(
static_cast<qint32>(index[0]),
static_cast<qint32>(index[1]),
static_cast<qint32>(index[2]), 0 )) ;
if ( pixel != 128 ) {
pixel = 0 ;
} else {
pixel = value ;
}
itkImage->SetPixel ( index, static_cast<unsigned char>(pixel)) ;
}
}
}
return itkImage ;
}
void ComputeBoundingBoxFromPolyData( vtkSmartPointer<vtkPolyData> mesh,
double spacing[ 3 ],
int size[ 3 ],
double origin [ 3 ]
) {
// 我们需要计算网格的边界框
double largestBoundaries[ 6 ] ;
int largestPossibleImage = 2000 ;
mesh->GetBounds ( largestBoundaries ) ;
qDebug() << "输入网格边界框: " << largestBoundaries[0]
<< largestBoundaries[1] << largestBoundaries[2]
<< largestBoundaries[3] << largestBoundaries[4] << largestBoundaries[5];
// 给定边界框,给定间距和边界扩展,计算图像大小和原点
int size_tmp[ 3 ];
int boundary_extension[3] = {1, 1, 1};
for ( quint32 i = 0 ; i < 3 ; i++ ) {
size_tmp[i] = static_cast<qint32>(
ceil((largestBoundaries[2 * i + 1] - origin[i]) / spacing[i] ));
}
for ( quint32 i = 0 ; i < 3 ; i++ ) {
origin[i] = largestBoundaries[ 2 * i ] - boundary_extension[i] * spacing[ i ] ;
size[i] = static_cast<qint32>(
ceil((largestBoundaries[2 * i + 1] - origin[i]) / spacing[i] ));
size[i] += boundary_extension[i];
if( size[ i ] > largestPossibleImage ) {
std::cout << "尺寸很大,可能崩溃" << std::endl ;
}
}
}
bool ReadSTL(vtkNew<vtkPolyData> &surface, QString filename) {
vtkNew<vtkSTLReader> reader;
reader->SetFileName(filename.toLocal8Bit().data());
reader->Update();
surface->DeepCopy(reader->GetOutput());
return 1;
}
int main ( int, char *[] ) {
//加载网格
vtkNew<vtkPolyData> polyData;
ReadSTL(polyData, "tmp.stl");
vtkSmartPointer<vtkMatrix4x4> RASMatrix = vtkSmartPointer<vtkMatrix4x4>::New() ;
RASMatrix->Identity() ;
RASMatrix->SetElement( 0, 0, -1 ) ;
RASMatrix->SetElement( 1, 1, -1 ) ;
vtkNew<vtkTransform> transform;
transform->SetMatrix( RASMatrix ) ;
vtkNew<vtkTransformPolyDataFilter> transformFilter;
transformFilter->SetInputData( polyData ) ;
transformFilter->SetTransform( transform ) ;
transformFilter->Update() ;
polyData->ShallowCopy( transformFilter->GetOutput() ) ;
double spacing[3] = {.5, .5, .5};
double origin[3];
int size[3];
itk::Matrix<double, 3, 3> direction ;
direction.SetIdentity();
ComputeBoundingBoxFromPolyData( polyData, spacing, size, origin) ;
qDebug() << "Origin: " << origin[0] << " " << origin[1] << " " << origin[2];
qDebug() << "Size: " << size[0] << " " << size[1] << " " << size[2];
qDebug() << "Spacing: " << spacing[0] << " " << spacing[1] << " " << spacing[2] ;
qDebug() << "Direction: ";
std::cout << direction;
// 扫描转换网格
vtkNew<vtkAttributedPolyDataToImage> scanConverter;
scanConverter->SetTolerance (0.0) ;
scanConverter->SetInput (polyData) ;
scanConverter->SetOutputOrigin (origin) ;
scanConverter->SetOutputSpacing (spacing) ;
scanConverter->SetOutputWholeExtent ( 0, size[0] - 1, 0, size[1] - 1, 0, size[2] - 1 ) ;
scanConverter->Update ();
vtkNew<vtkImageData> vtkBinaryVolume;
typedef itk::Image < unsigned char, 3 > ImageType ;
typedef ImageType::Pointer ImagePointer ;
ImagePointer binaryVolume;
binaryVolume = VTK2BinaryITK (vtkBinaryVolume, direction, static_cast<unsigned char>(255));
WriteITKImage( binaryVolume, "tmp.dcm");
return EXIT_SUCCESS ;
}
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