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Jungfraujoch/receiver/JFJochReceiverTest.cpp
leonarski_f 51cbef4c84 1.0.0-rc.66
2025-07-18 11:42:39 +02:00

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// SPDX-FileCopyrightText: 2024 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include "JFJochReceiverTest.h"
#include "JFJochReceiverService.h"
#include "../image_pusher/ZMQStream2Pusher.h"
#include "../image_pusher/TestImagePusher.h"
#define STORAGE_CELL_FOR_TEST 11
static JFCalibration GeneratePedestalCalibration(const DiffractionExperiment &x) {
JFCalibration ret(x);
std::vector<float> pedestal_g0( RAW_MODULE_SIZE), pedestal_g1(RAW_MODULE_SIZE), pedestal_g2(RAW_MODULE_SIZE);
for (int s = 0; s < x.GetStorageCellNumber(); s++) {
for (int m = 0; m < x.GetModulesNum(); m++) {
for (int i = 0; i < RAW_MODULE_SIZE; i++) {
pedestal_g0[i] = 3000 + 100 * s + 10 * m + i % 50;
if (x.IsFixedGainG1())
pedestal_g1[i] = 2500 + 100 * s + 10 * m + i % 50;
else
pedestal_g1[i] = 15000 - 100 * s + 10 * m + i % 50;
pedestal_g2[i] = 14000 - 100 * s + 10 * m + i % 50;
}
ret.Pedestal(m, 0, s).LoadPedestal(pedestal_g0);
ret.Pedestal(m, 1, s).LoadPedestal(pedestal_g1);
ret.Pedestal(m, 2, s).LoadPedestal(pedestal_g2);
}
}
return ret;
}
bool JFJochReceiverTest(JFJochReceiverOutput &output, Logger &logger,
AcquisitionDeviceGroup &aq_devices,
const DiffractionExperiment &x,
const PixelMask &pixel_mask,
uint16_t nthreads,
const std::string &numa_policy,
size_t send_buf_size_MiB,
bool quick_integrate) {
std::vector<uint16_t> raw_expected_image(RAW_MODULE_SIZE * x.GetModulesNum());
for (int i = 0; i < raw_expected_image.size(); i++)
raw_expected_image[i] = i % 65536;
return JFJochReceiverTest(output, logger, aq_devices, x, pixel_mask, raw_expected_image, nthreads, numa_policy, send_buf_size_MiB,
quick_integrate);
}
bool JFJochReceiverTest(JFJochReceiverOutput &output, Logger &logger,
AcquisitionDeviceGroup &aq_devices,
const DiffractionExperiment &x,
const PixelMask &pixel_mask,
const std::vector<uint16_t> &raw_expected_image,
uint16_t nthreads,
const std::string &numa_policy,
size_t send_buf_size_MiB,
bool quick_integrate) {
std::vector<uint16_t> raw_expected_image_with_mask = raw_expected_image;
if (x.IsApplyPixelMask()) {
for (int i = 0; i < raw_expected_image_with_mask.size(); i++)
if (pixel_mask.GetMaskRaw((x)).at(i) != 0)
raw_expected_image_with_mask[i] = UINT16_MAX;
}
JFCalibration calib = GeneratePedestalCalibration(x);
int64_t image_number = x.GetImageNum() - 1;
if (x.GetStorageCellNumber() > 1)
image_number = STORAGE_CELL_FOR_TEST;
if (image_number < 0)
image_number = 0;
TestImagePusher pusher(image_number);
JFJochReceiverService service(aq_devices, logger, pusher, send_buf_size_MiB);
service.NumThreads(nthreads).NUMAPolicy(numa_policy);
service.LoadInternalGeneratorImage(x, raw_expected_image, 0);
service.Indexing(x.GetIndexingSettings());
SpotFindingSettings settings = DiffractionExperiment::DefaultDataProcessingSettings();
settings.signal_to_noise_threshold = 2.5;
settings.photon_count_threshold = 5;
settings.min_pix_per_spot = 1;
settings.max_pix_per_spot = 200;
settings.quick_integration = quick_integrate;
service.SetSpotFindingSettings(settings);
service.Start(x, pixel_mask, &calib);
output = service.Stop();
bool no_errors = true;
if (x.GetImageNum() > 0) {
no_errors = pusher.CheckImage(x, raw_expected_image_with_mask, calib, logger);
if (output.efficiency != 1.0) {
logger.Error("Not all frames were received");
no_errors = false;
}
if (!pusher.CheckSequence()) {
logger.Error("Wrong sequence of operations for pusher");
no_errors = false;
}
if (pusher.GetCounter() != x.GetImageNum()) {
logger.Error("Wrong frame number from pusher");
no_errors = false;
}
}
return no_errors;
}
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