177 lines
6.9 KiB
C++
177 lines
6.9 KiB
C++
// Copyright (2019-2022) Paul Scherrer Institute
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// SPDX-License-Identifier: GPL-3.0-or-later
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#include <cstring>
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#include <bitshuffle/bitshuffle.h>
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#include "FrameTransformation.h"
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#include "RawToConvertedGeometry.h"
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#include "JFJochException.h"
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FrameTransformation::FrameTransformation(const DiffractionExperiment &in_experiment) :
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experiment(in_experiment), summation(experiment.GetSummation()),
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pixel_depth(experiment.GetPixelDepth()), compressor(in_experiment.GetCompressionAlgorithmEnum()),
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binning_2x2(experiment.GetBinning2x2()) {
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if ((experiment.GetDetectorMode() == DetectorMode::Conversion) && (summation > 1)) {
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for (int i = 0; i < experiment.GetModulesNum(); i++)
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summation_buffer.emplace_back(RAW_MODULE_SIZE);
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}
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precompression_buffer.resize(experiment.GetPixelsNum() * pixel_depth);
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if (pixel_depth == 4)
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image16bit.resize(experiment.GetPixelsNum(), 0);
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if (binning_2x2)
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full_image_buffer.resize(experiment.GetPixelsNumFullImage() * pixel_depth);
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if (experiment.GetApplyPixelMaskInFPGA()) {
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// Mask gaps
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if (pixel_depth == 2) {
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auto ptr = (int16_t *) precompression_buffer.data();
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for (int i = 0; i < experiment.GetPixelsNum(); i++)
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ptr[i] = INT16_MIN;
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} else {
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auto ptr = (uint32_t *) precompression_buffer.data();
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for (int i = 0; i < experiment.GetPixelsNum(); i++)
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ptr[i] = INT32_MIN;
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}
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}
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}
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template <class Td> void AddToFramesSum(Td *destination, const int16_t *source) {
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for (int i = 0; i < RAW_MODULE_SIZE; i++) {
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if ((source[i] == INT16_MIN) || (destination[i] == INT32_MIN))
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destination[i] = INT32_MIN;
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else if ((source[i] == INT16_MAX) || (destination[i] == INT32_MAX))
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destination[i] = INT32_MAX;
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else destination[i] += source[i];
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}
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}
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void FrameTransformation::PackSummation() {
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for (int m = 0; m < experiment.GetModulesNum(); m++) {
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int32_t *output;
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if (binning_2x2)
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output = (int32_t *) full_image_buffer.data();
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else
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output = (int32_t *) precompression_buffer.data();
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TransferModuleAdjustMultipixels(output,
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(int32_t *) summation_buffer[m].data(),
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experiment.GetModuleSlowDirectionStep(m),
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static_cast<int32_t>(INT32_MIN),
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static_cast<int32_t>(INT32_MAX),
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experiment.GetModuleFastDirectionStep(m),
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experiment.GetPixel0OfModule(m));
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for (auto &i: summation_buffer[m])
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i = 0;
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}
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}
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void FrameTransformation::Generate16BitPreview() {
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// Generate 16-bit preview image
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auto arr = (int32_t *) precompression_buffer.data();
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for (int pxl = 0; pxl < experiment.GetPixelsNum(); pxl++) {
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if (arr[pxl] >= INT16_MAX)
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image16bit[pxl] = INT16_MAX;
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else if (arr[pxl] <= INT16_MIN)
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image16bit[pxl] = INT16_MIN;
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else
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image16bit[pxl] = static_cast<int16_t>(arr[pxl]);
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}
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}
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void FrameTransformation::Pack() {
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if (summation > 1) {
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PackSummation();
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if (binning_2x2)
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Bin2x2_sum<int32_t>((int32_t *) precompression_buffer.data(),
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(int32_t *) full_image_buffer.data(),
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experiment.GetXPixelsNumFullImage(),
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experiment.GetYPixelsNumFullImage(),
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static_cast<int32_t>(experiment.GetUnderflow()),
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static_cast<int32_t>(experiment.GetOverflow()));
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if (pixel_depth == 4)
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Generate16BitPreview();
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} else {
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if (binning_2x2)
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Bin2x2_sum<int16_t>((int16_t *) precompression_buffer.data(),
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(int16_t *) full_image_buffer.data(),
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experiment.GetXPixelsNumFullImage(),
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experiment.GetYPixelsNumFullImage(),
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INT16_MIN, INT16_MAX);
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}
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}
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size_t FrameTransformation::SaveCompressedImage(void *output) {
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return compressor.Compress((char *) output, precompression_buffer.data(),
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experiment.GetPixelsNum(), pixel_depth);
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}
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void FrameTransformation::ProcessModule(const int16_t *input, uint16_t module_number, int data_stream) {
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size_t module_number_abs = experiment.GetFirstModuleOfDataStream(data_stream) + module_number;
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if (summation == 1) {
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int16_t *output;
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if (binning_2x2)
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output = (int16_t *) full_image_buffer.data();
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else
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output = (int16_t *) precompression_buffer.data();
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if (experiment.GetDetectorMode() != DetectorMode::Conversion)
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memcpy(output + RAW_MODULE_SIZE * module_number_abs,
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input,
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RAW_MODULE_SIZE * experiment.GetPixelDepth());
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else
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TransferModuleAdjustMultipixels(output, (int16_t *) input,
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experiment.GetModuleSlowDirectionStep(module_number_abs),
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static_cast<int16_t>(INT16_MIN),
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static_cast<int16_t>(INT16_MAX),
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experiment.GetModuleFastDirectionStep(module_number_abs),
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experiment.GetPixel0OfModule(module_number_abs));
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} else {
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AddToFramesSum(summation_buffer[module_number_abs].data(), input);
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}
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}
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int16_t *FrameTransformation::GetPreview16BitImage() {
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if (pixel_depth == 2)
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return (int16_t *) precompression_buffer.data();
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else
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return image16bit.data();
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}
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void FrameTransformation::ProcessModule(JFConversion &conv, const int16_t *input, uint16_t module_number, int data_stream) {
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size_t module_number_abs = experiment.GetFirstModuleOfDataStream(data_stream) + module_number;
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if (summation == 1) {
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int16_t *output;
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if (binning_2x2)
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output = (int16_t *) full_image_buffer.data();
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else
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output = (int16_t *) precompression_buffer.data();
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if (experiment.GetDetectorMode() != DetectorMode::Conversion)
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memcpy(output + RAW_MODULE_SIZE * module_number_abs, input, RAW_MODULE_SIZE * experiment.GetPixelDepth());
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else
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conv.ConvertAdjustGeom((int16_t *) output, (uint16_t *) input,
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experiment.GetModuleSlowDirectionStep(module_number_abs),
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experiment.GetModuleFastDirectionStep(module_number_abs),
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experiment.GetPixel0OfModule(module_number_abs));
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} else {
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Summation with CPU conversion not supported at the moment");
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}
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}
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