/* ----------------------------------------------------------------------- Copyright: 2010-2016, iMinds-Vision Lab, University of Antwerp 2014-2016, CWI, Amsterdam Contact: astra@astra-toolbox.com Website: http://www.astra-toolbox.com/ This file is part of the ASTRA Toolbox. The ASTRA Toolbox is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. The ASTRA Toolbox is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with the ASTRA Toolbox. If not, see . ----------------------------------------------------------------------- */ #ifndef _INC_ASTRA_COMPOSITEGEOMETRYMANAGER #define _INC_ASTRA_COMPOSITEGEOMETRYMANAGER #include "Globals.h" #ifdef ASTRA_CUDA #include #include #include #include namespace astra { class CCompositeVolume; class CCompositeProjections; class CFloat32Data3D; class CFloat32ProjectionData3D; class CFloat32VolumeData3D; class CVolumeGeometry3D; class CProjectionGeometry3D; class CProjector3D; struct SGPUParams { std::vector GPUIndices; size_t memory; }; struct SFDKSettings { bool bShortScan; const float *pfFilter; }; class _AstraExport CCompositeGeometryManager { public: CCompositeGeometryManager(); class CPart; typedef std::list > TPartList; class CPart { public: CPart() { } CPart(const CPart& other); virtual ~CPart() { } enum { PART_VOL, PART_PROJ } eType; CFloat32Data3D* pData; unsigned int subX; unsigned int subY; unsigned int subZ; bool uploadToGPU(); bool downloadFromGPU(/*mode?*/); virtual void splitX(TPartList& out, size_t maxSize, size_t maxDim, int div) = 0; virtual void splitY(TPartList& out, size_t maxSize, size_t maxDim, int div) = 0; virtual void splitZ(TPartList& out, size_t maxSize, size_t maxDim, int div) = 0; virtual CPart* reduce(const CPart *other) = 0; virtual void getDims(size_t &x, size_t &y, size_t &z) const = 0; size_t getSize() const; bool canSplitAndReduce() const; bool isFull() const; }; class CVolumePart : public CPart { public: CVolumePart() { eType = PART_VOL; } CVolumePart(const CVolumePart& other); virtual ~CVolumePart(); CVolumeGeometry3D* pGeom; virtual void splitX(TPartList& out, size_t maxSize, size_t maxDim, int div); virtual void splitY(TPartList& out, size_t maxSize, size_t maxDim, int div); virtual void splitZ(TPartList& out, size_t maxSize, size_t maxDim, int div); virtual CPart* reduce(const CPart *other); virtual void getDims(size_t &x, size_t &y, size_t &z) const; CVolumePart* clone() const; }; class CProjectionPart : public CPart { public: CProjectionPart() { eType = PART_PROJ; } CProjectionPart(const CProjectionPart& other); virtual ~CProjectionPart(); CProjectionGeometry3D* pGeom; virtual void splitX(TPartList& out, size_t maxSize, size_t maxDim, int div); virtual void splitY(TPartList& out, size_t maxSize, size_t maxDim, int div); virtual void splitZ(TPartList& out, size_t maxSize, size_t maxDim, int div); virtual CPart* reduce(const CPart *other); virtual void getDims(size_t &x, size_t &y, size_t &z) const; CProjectionPart* clone() const; }; struct SJob { public: boost::shared_ptr pInput; boost::shared_ptr pOutput; CProjector3D *pProjector; // For a `global' geometry. It will not match // the geometries of the input and output. SFDKSettings FDKSettings; enum { JOB_FP, JOB_BP, JOB_FDK, JOB_NOP } eType; enum EMode { MODE_ADD, MODE_SET } eMode; }; typedef std::list TJobList; // output part -> list of jobs for that output typedef std::map TJobSet; bool doJobs(TJobList &jobs); SJob createJobFP(CProjector3D *pProjector, CFloat32VolumeData3D *pVolData, CFloat32ProjectionData3D *pProjData, SJob::EMode eMode); SJob createJobBP(CProjector3D *pProjector, CFloat32VolumeData3D *pVolData, CFloat32ProjectionData3D *pProjData, SJob::EMode eMode); // Convenience functions for creating and running a single FP or BP job bool doFP(CProjector3D *pProjector, CFloat32VolumeData3D *pVolData, CFloat32ProjectionData3D *pProjData, SJob::EMode eMode = SJob::MODE_SET); bool doBP(CProjector3D *pProjector, CFloat32VolumeData3D *pVolData, CFloat32ProjectionData3D *pProjData, SJob::EMode eMode = SJob::MODE_SET); bool doFDK(CProjector3D *pProjector, CFloat32VolumeData3D *pVolData, CFloat32ProjectionData3D *pProjData, bool bShortScan, const float *pfFilter = 0, SJob::EMode eMode = SJob::MODE_SET); bool doFP(CProjector3D *pProjector, const std::vector& volData, const std::vector& projData, SJob::EMode eMode = SJob::MODE_SET); bool doBP(CProjector3D *pProjector, const std::vector& volData, const std::vector& projData, SJob::EMode eMode = SJob::MODE_SET); void setGPUIndices(const std::vector& GPUIndices); static void setGlobalGPUParams(const SGPUParams& params); protected: bool splitJobs(TJobSet &jobs, size_t maxSize, int div, TJobSet &split); std::vector m_GPUIndices; size_t m_iMaxSize; static SGPUParams* s_params; }; } #endif #endif