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-rw-r--r--cuda/2d/astra.h155
1 files changed, 21 insertions, 134 deletions
diff --git a/cuda/2d/astra.h b/cuda/2d/astra.h
index e4cefac..9355cb4 100644
--- a/cuda/2d/astra.h
+++ b/cuda/2d/astra.h
@@ -41,140 +41,12 @@ enum Cuda2DProjectionKernel {
};
class CParallelProjectionGeometry2D;
+class CParallelVecProjectionGeometry2D;
class CFanFlatProjectionGeometry2D;
class CFanFlatVecProjectionGeometry2D;
class CVolumeGeometry2D;
+class CProjectionGeometry2D;
-class AstraFBP_internal;
-
-class _AstraExport AstraFBP {
-public:
- // Constructor
- AstraFBP();
-
- // Destructor
- ~AstraFBP();
-
- // Set the size of the reconstruction rectangle.
- // Volume pixels are currently assumed to be 1x1 squares.
- bool setReconstructionGeometry(unsigned int iVolWidth,
- unsigned int iVolHeight,
- float fPixelSize = 1.0f);
-
- // Set the projection angles and number of detector pixels per angle.
- // pfAngles must be a float array of length iProjAngles.
- // fDetSize indicates the size of a detector pixel compared to a
- // volume pixel edge.
- //
- // pfAngles will only be read from during this call.
- bool setProjectionGeometry(unsigned int iProjAngles,
- unsigned int iProjDets,
- const float *pfAngles,
- float fDetSize = 1.0f);
- // Set the projection angles and number of detector pixels per angle.
- // pfAngles must be a float array of length iProjAngles.
- // fDetSize indicates the size of a detector pixel compared to a
- // volume pixel edge.
- //
- // pfAngles, fanProjs will only be read from during this call.
- bool setFanGeometry(unsigned int iProjAngles,
- unsigned int iProjDets,
- const astraCUDA::SFanProjection *fanProjs,
- const float *pfAngles,
- float fOriginSourceDistance,
- float fOriginDetectorDistance,
- float fDetSize = 1.0f,
- bool bShortScan = false);
-
- // Set linear supersampling factor for the BP.
- // (The number of rays is the square of this)
- //
- // This may optionally be called before init().
- bool setPixelSuperSampling(unsigned int iPixelSuperSampling);
-
- // Set per-detector shifts.
- //
- // pfTOffsets will only be read from during this call.
- bool setTOffsets(const float *pfTOffsets);
-
- // Returns the required size of a filter in the fourier domain
- // when multiplying it with the fft of the projection data.
- // Its value is equal to the smallest power of two larger than
- // or equal to twice the number of detectors in the spatial domain.
- //
- // _iDetectorCount is the number of detectors in the spatial domain.
- static int calcFourierFilterSize(int _iDetectorCount);
-
- // Sets the filter type. Some filter types require the user to supply an
- // array containing the filter.
- // The number of elements in a filter in the fourier domain should be equal
- // to the value returned by calcFourierFilterSize().
- // The following types require a filter:
- //
- // - FILTER_PROJECTION:
- // The filter size should be equal to the output of
- // calcFourierFilterSize(). The filtered sinogram is
- // multiplied with the supplied filter.
- //
- // - FILTER_SINOGRAM:
- // Same as FILTER_PROJECTION, but now the filter should contain a row for
- // every projection direction.
- //
- // - FILTER_RPROJECTION:
- // The filter should now contain one kernel (= ifft of filter), with the
- // peak in the center. The filter width
- // can be any value. If odd, the peak is assumed to be in the center, if
- // even, it is assumed to be at floor(filter-width/2).
- //
- // - FILTER_RSINOGRAM
- // Same as FILTER_RPROJECTION, but now the supplied filter should contain a
- // row for every projection direction.
- //
- // A large number of other filters (FILTER_RAMLAK, FILTER_SHEPPLOGAN,
- // FILTER_COSINE, FILTER_HAMMING, and FILTER_HANN)
- // have a D variable, which gives the cutoff point in the frequency domain.
- // Setting this value to 1.0 will include the whole filter
- bool setFilter(E_FBPFILTER _eFilter,
- const float * _pfHostFilter = NULL,
- int _iFilterWidth = 0, float _fD = 1.0f, float _fFilterParameter = -1.0f);
-
- // Initialize CUDA, allocate GPU buffers and
- // precompute geometry-specific data.
- //
- // CUDA is set up to use GPU number iGPUIndex.
- //
- // This must be called after calling setReconstructionGeometry() and
- // setProjectionGeometry().
- bool init(int iGPUIndex = 0);
-
- // Setup input sinogram for a slice.
- // pfSinogram must be a float array of size iProjAngles*iSinogramPitch.
- // NB: iSinogramPitch is measured in floats, not in bytes.
- //
- // This must be called after init(), and before iterate(). It may be
- // called again after iterate()/getReconstruction() to start a new slice.
- //
- // pfSinogram will only be read from during this call.
- bool setSinogram(const float* pfSinogram, unsigned int iSinogramPitch);
-
- // Runs an FBP reconstruction.
- // This must be called after setSinogram().
- //
- // run can be called before setFilter, but will then use the default Ram-Lak filter
- bool run();
-
- // Get the reconstructed slice.
- // pfReconstruction must be a float array of size
- // iVolHeight*iReconstructionPitch.
- // NB: iReconstructionPitch is measured in floats, not in bytes.
- //
- // This may be called after run().
- bool getReconstruction(float* pfReconstruction,
- unsigned int iReconstructionPitch) const;
-
-private:
- AstraFBP_internal* pData;
-};
class _AstraExport BPalgo : public astraCUDA::ReconAlgo {
public:
@@ -197,8 +69,8 @@ public:
_AstraExport bool astraCudaFP(const float* pfVolume, float* pfSinogram,
unsigned int iVolWidth, unsigned int iVolHeight,
unsigned int iProjAngles, unsigned int iProjDets,
- const float *pfAngles, const float *pfOffsets,
- float fDetSize = 1.0f, unsigned int iDetSuperSampling = 1,
+ const SParProjection *pAngles,
+ unsigned int iDetSuperSampling = 1,
float fOutputScale = 1.0f, int iGPUIndex = 0);
_AstraExport bool astraCudaFanFP(const float* pfVolume, float* pfSinogram,
@@ -211,8 +83,14 @@ _AstraExport bool astraCudaFanFP(const float* pfVolume, float* pfSinogram,
_AstraExport bool convertAstraGeometry(const CVolumeGeometry2D* pVolGeom,
const CParallelProjectionGeometry2D* pProjGeom,
- float*& pfDetectorOffsets, float*& pfProjectionAngles,
- float& fDetSize, float& fOutputScale);
+ astraCUDA::SParProjection*& pProjs,
+ float& fOutputScale);
+
+_AstraExport bool convertAstraGeometry(const CVolumeGeometry2D* pVolGeom,
+ const CParallelVecProjectionGeometry2D* pProjGeom,
+ astraCUDA::SParProjection*& pProjs,
+ float& fOutputScale);
+
_AstraExport bool convertAstraGeometry(const CVolumeGeometry2D* pVolGeom,
const CFanFlatProjectionGeometry2D* pProjGeom,
@@ -224,6 +102,15 @@ _AstraExport bool convertAstraGeometry(const CVolumeGeometry2D* pVolGeom,
astraCUDA::SFanProjection*& pProjs,
float& outputScale);
+_AstraExport bool convertAstraGeometry_dims(const CVolumeGeometry2D* pVolGeom,
+ const CProjectionGeometry2D* pProjGeom,
+ astraCUDA::SDimensions& dims);
+
+_AstraExport bool convertAstraGeometry(const CVolumeGeometry2D* pVolGeom,
+ const CProjectionGeometry2D* pProjGeom,
+ astraCUDA::SParProjection*& pParProjs,
+ astraCUDA::SFanProjection*& pFanProjs,
+ float& outputScale);
}
namespace astraCUDA {