Files
Jungfraujoch/image_analysis/spot_finding/SpotUtils.h
T
leonarski_f cc3eb8352c
Build Packages / Unit tests (push) Skipped
Build Packages / build:rpm (rocky8_nocuda) (push) Successful in 9m28s
Build Packages / build:rpm (rocky9_nocuda) (push) Successful in 10m9s
Build Packages / build:rpm (ubuntu2404_nocuda) (push) Successful in 9m47s
Build Packages / build:rpm (ubuntu2204_nocuda) (push) Successful in 10m58s
Build Packages / build:rpm (rocky8_sls9) (push) Successful in 11m39s
Build Packages / build:rpm (rocky8) (push) Successful in 11m43s
Build Packages / build:rpm (rocky9_sls9) (push) Successful in 12m59s
Build Packages / Generate python client (push) Successful in 35s
Build Packages / Build documentation (push) Successful in 59s
Build Packages / Create release (push) Skipped
Build Packages / build:rpm (ubuntu2204) (push) Successful in 11m48s
Build Packages / build:rpm (rocky9) (push) Successful in 12m32s
Build Packages / build:rpm (ubuntu2404) (push) Successful in 10m24s
Build Packages / XDS test (durin plugin) (push) Successful in 7m35s
Build Packages / XDS test (neggia plugin) (push) Successful in 6m50s
Build Packages / XDS test (JFJoch plugin) (push) Successful in 7m40s
Build Packages / DIALS test (push) Successful in 11m19s
v1.0.0-rc.148 (#58)
This is an UNSTABLE release. The release has significant modifications for data processing - in case of troubles go back to 1.0.0-rc.144.

* jfjoch_broker: Improve azimuthal integration (add <I^2> calculation)
* jfjoch_broker: Fixes around indexing, aiming to handle multi-lattice crystals (work in progress, it is not fully integrated)
* jfjoch_writer: Save mean(I), stddev(I), and count(I) for each azimuthal bin

Reviewed-on: #58
2026-06-08 08:30:35 +02:00

36 lines
1.4 KiB
C++

// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#pragma once
#include "../../common/DiffractionSpot.h"
void GenerateSpotPlot(DataMessage &msg, float d_min_A);
void CountSpots(DataMessage &msg,
const DiffractionExperiment& experiment,
const std::vector<DiffractionSpot> &spots,
float d_min_A);
void CountSpots(DataMessage &msg,
const std::vector<SpotToSave> &spots,
float d_min_A);
void MarkIceRings(std::vector<SpotToSave> &spots, float tolerance_q_recipA);
void FilterSpotsByCount(std::vector<SpotToSave> &input, int64_t count);
void FilterSpuriousHighResolutionSpots(std::vector<SpotToSave> &spots, float threshold);
// Ignore high res. spots if there is a gap in (1/d) between two spots of dist_threshold (default: 0.25 A^-1)
// For less than 4 spots - don't provide resolution estimation
// For less than 20 spots - take the third best high resolution
// For 20 spots or more - take the 95% percentile best high resolution spot
std::optional<float> GetResolution(const std::vector<SpotToSave> &spots);
void SpotAnalyze(const DiffractionExperiment &experiment,
const SpotFindingSettings &settings,
const std::vector<DiffractionSpot> &spots,
DataMessage &message);