/* ----------------------------------------------------------------------- Copyright: 2010-2018, imec Vision Lab, University of Antwerp 2014-2018, 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 . ----------------------------------------------------------------------- */ #include "astra/cuda/2d/algo.h" #include "astra/cuda/2d/par_fp.h" #include "astra/cuda/2d/fan_fp.h" #include "astra/cuda/2d/par_bp.h" #include "astra/cuda/2d/fan_bp.h" #include "astra/cuda/2d/util.h" #include "astra/cuda/2d/arith.h" #include "astra/cuda/2d/astra.h" #include namespace astraCUDA { ReconAlgo::ReconAlgo() { parProjs = 0; fanProjs = 0; useVolumeMask = false; useSinogramMask = false; D_maskData = 0; D_smaskData = 0; D_sinoData = 0; D_volumeData = 0; useMinConstraint = false; useMaxConstraint = false; freeGPUMemory = false; } ReconAlgo::~ReconAlgo() { reset(); } void ReconAlgo::reset() { delete[] parProjs; delete[] fanProjs; if (freeGPUMemory) { cudaFree(D_maskData); cudaFree(D_smaskData); cudaFree(D_sinoData); cudaFree(D_volumeData); } parProjs = 0; fanProjs = 0; useVolumeMask = false; useSinogramMask = false; D_maskData = 0; D_smaskData = 0; D_sinoData = 0; D_volumeData = 0; useMinConstraint = false; useMaxConstraint = false; freeGPUMemory = false; } bool ReconAlgo::setGPUIndex(int iGPUIndex) { if (iGPUIndex != -1) { cudaSetDevice(iGPUIndex); cudaError_t err = cudaGetLastError(); // Ignore errors caused by calling cudaSetDevice multiple times if (err != cudaSuccess && err != cudaErrorSetOnActiveProcess) return false; } return true; } bool ReconAlgo::enableVolumeMask() { useVolumeMask = true; return true; } bool ReconAlgo::enableSinogramMask() { useSinogramMask = true; return true; } bool ReconAlgo::setGeometry(const astra::CVolumeGeometry2D* pVolGeom, const astra::CProjectionGeometry2D* pProjGeom) { bool ok; ok = convertAstraGeometry_dims(pVolGeom, pProjGeom, dims); if (!ok) return false; delete[] parProjs; parProjs = 0; delete[] fanProjs; fanProjs = 0; fOutputScale = 1.0f; ok = convertAstraGeometry(pVolGeom, pProjGeom, parProjs, fanProjs, fOutputScale); if (!ok) return false; return true; } bool ReconAlgo::setSuperSampling(int raysPerDet, int raysPerPixelDim) { if (raysPerDet <= 0 || raysPerPixelDim <= 0) return false; dims.iRaysPerDet = raysPerDet; dims.iRaysPerPixelDim = raysPerPixelDim; return true; } bool ReconAlgo::setReconstructionScale(float fScale) { fOutputScale *= fScale; return true; } bool ReconAlgo::setVolumeMask(float* _D_maskData, unsigned int _maskPitch) { assert(useVolumeMask); D_maskData = _D_maskData; maskPitch = _maskPitch; return true; } bool ReconAlgo::setSinogramMask(float* _D_smaskData, unsigned int _smaskPitch) { assert(useSinogramMask); D_smaskData = _D_smaskData; smaskPitch = _smaskPitch; return true; } bool ReconAlgo::setBuffers(float* _D_volumeData, unsigned int _volumePitch, float* _D_projData, unsigned int _projPitch) { D_volumeData = _D_volumeData; volumePitch = _volumePitch; D_sinoData = _D_projData; sinoPitch = _projPitch; return true; } bool ReconAlgo::setMinConstraint(float fMin) { fMinConstraint = fMin; useMinConstraint = true; return true; } bool ReconAlgo::setMaxConstraint(float fMax) { fMaxConstraint = fMax; useMaxConstraint = true; return true; } bool ReconAlgo::allocateBuffers() { bool ok; ok = allocateVolumeData(D_volumeData, volumePitch, dims); if (!ok) return false; ok = allocateProjectionData(D_sinoData, sinoPitch, dims); if (!ok) { cudaFree(D_volumeData); D_volumeData = 0; return false; } if (useVolumeMask) { ok = allocateVolumeData(D_maskData, maskPitch, dims); if (!ok) { cudaFree(D_volumeData); cudaFree(D_sinoData); D_volumeData = 0; D_sinoData = 0; return false; } } if (useSinogramMask) { ok = allocateProjectionData(D_smaskData, smaskPitch, dims); if (!ok) { cudaFree(D_volumeData); cudaFree(D_sinoData); cudaFree(D_maskData); D_volumeData = 0; D_sinoData = 0; D_maskData = 0; return false; } } freeGPUMemory = true; return true; } bool ReconAlgo::copyDataToGPU(const float* pfSinogram, unsigned int iSinogramPitch, const float* pfReconstruction, unsigned int iReconstructionPitch, const float* pfVolMask, unsigned int iVolMaskPitch, const float* pfSinoMask, unsigned int iSinoMaskPitch) { if (!pfSinogram) return false; if (!pfReconstruction) return false; bool ok = copySinogramToDevice(pfSinogram, iSinogramPitch, dims, D_sinoData, sinoPitch); if (!ok) return false; ok = copyVolumeToDevice(pfReconstruction, iReconstructionPitch, dims, D_volumeData, volumePitch); if (!ok) return false; if (useVolumeMask) { if (!pfVolMask) return false; ok = copyVolumeToDevice(pfVolMask, iVolMaskPitch, dims, D_maskData, maskPitch); if (!ok) return false; } if (useSinogramMask) { if (!pfSinoMask) return false; ok = copySinogramToDevice(pfSinoMask, iSinoMaskPitch, dims, D_smaskData, smaskPitch); if (!ok) return false; } return true; } bool ReconAlgo::getReconstruction(float* pfReconstruction, unsigned int iReconstructionPitch) const { bool ok = copyVolumeFromDevice(pfReconstruction, iReconstructionPitch, dims, D_volumeData, volumePitch); if (!ok) return false; return true; } bool ReconAlgo::callFP(float* D_volumeData, unsigned int volumePitch, float* D_projData, unsigned int projPitch, float outputScale) { if (parProjs) { assert(!fanProjs); return FP(D_volumeData, volumePitch, D_projData, projPitch, dims, parProjs, fOutputScale * outputScale); } else { assert(fanProjs); return FanFP(D_volumeData, volumePitch, D_projData, projPitch, dims, fanProjs, fOutputScale * outputScale); } } bool ReconAlgo::callBP(float* D_volumeData, unsigned int volumePitch, float* D_projData, unsigned int projPitch, float outputScale) { if (parProjs) { assert(!fanProjs); return BP(D_volumeData, volumePitch, D_projData, projPitch, dims, parProjs, fOutputScale * outputScale); } else { assert(fanProjs); return FanBP(D_volumeData, volumePitch, D_projData, projPitch, dims, fanProjs, fOutputScale * outputScale); } } }