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This is an UNSTABLE release. It includes many experimental features, as well as many AI generated fixes. We recommend using rc.152 for production use. * rugnux: Rebrand the offline data-processing subsystem as `rugnux` and consolidate all offline analysis into the single `rugnux` binary - `jfjoch_process` is now `rugnux`, the former `jfjoch_azint` is now `rugnux --azint-only`, and `jfjoch_scale` is now `rugnux --scale` (see the new docs/NAMING.md and docs/RUGNUX.md). Scaling and merging are on by default for rotation and stills (`--no-merge` disables them), replacing the previous opt-in `-M, --scale-merge`. * rugnux: CLI fixes - default `-N` to all hardware threads, parse numeric option arguments strictly (reject non-numeric or trailing input instead of silently yielding 0), require `--wavelength > 0`, and correct the reproduced command line and `--scale` reference-cell handling. * rugnux: De-novo space-group improvements - recover genuine high symmetry and centred Bravais lattices from intensities, add an automatic CC1/2 high-resolution cutoff, and report L-test twinning statistics. * rugnux: Index weakly-diffracting low-resolution rotation data that previously failed (e.g. F-cubic crystals that diffract only to ~4 A on a detector reaching ~1.5 A). The per-frame indexing gate now measures the indexed fraction only within the resolution range the lattice actually diffracts to, so the many sub-diffraction ice/noise spots no longer make the fraction floor unreachable; the two-pass first pass tries several image-sampling schemes (spread across the whole rotation vs a consecutive wedge whose native stride keeps a reflection's rocking curve continuous, letting the FFT resolve a long axis) and keeps the one that indexes the most frames; and the de-novo space-group search no longer discards all reflections (and crashes) when every resolution shell falls below <I/sigma> = 1. * rugnux: Lower the low-resolution R-meas for strongly-diffracting rotation data - drop edge-of-sweep truncated fulls whose rocking curve was captured below `--min-captured-fraction` (default 0.7 for rotation), and report R-meas only over the observations kept by outlier rejection (matching XDS). The 0.7 default also strips the partiality-extrapolated fulls that dominate the intensity second moment on weakly-diffracting crystals, so the de-novo space-group search is no longer starved by the error-model I/sigma floor and recovers the correct symmetry (e.g. the F-cubic Benas crystals: Benas_3 -> F432, Benas_7 -> P6122, instead of P4/P1); on the reference battery every other crystal keeps its space group. * rugnux: Write the refined geometry (beam, tilt, axis) to _process.h5 and place non-standard mmCIF items under a reserved `jfjoch` prefix. * jfjoch_broker: Ordinary acquisition failures (receiver/writer/analysis problems, missed packets, writer disconnect) now return to the Idle state with an Error-severity message, so a run can be retried without an expensive re-initialisation; only failures that leave the detector in an undefined state (new JFJochCriticalException, e.g. PCIe/FPGA faults) go to the Error state and force re-initialisation. * jfjoch_broker: A synchronous /start now reports its failure to the HTTP caller instead of returning HTTP 200, and an incomplete or truncated dataset (missing packets, writer disconnect) is reported as an error rather than a "reduce frame rate" warning. * jfjoch_broker: Drop uncollected placeholder rows (number = -1) from the scan_result REST endpoint. * jfjoch_broker: Fix the inverted per-image compression ratio reported by the Lite receiver (was compressed/uncompressed instead of uncompressed/compressed). * jfjoch_broker: Bragg integration adds a quantization-noise variance floor with a box-sum fallback, and treats the type-maximum marker as an invalid pixel for unsigned image types. * jfjoch_writer: Detect file-overwrite conflicts at start for back-channel transports, and reset the writer when end-of-collection finalisation fails. * jfjoch_viewer: Preview overlays follow the geometry (resolution/ROI arcs, true beam centre, predictions, coral secondary-lattice spots, legend), add save-as-JPEG, and fix an HTTP live-follow memory leak. * Frontend: Improved aesthetics and usability, and added in-browser pixel-mask and JUNGFRAU-pedestal visualisation. * CI: Name the Windows installer jfjoch-viewer-* instead of jfjoch-*.Reviewed-on: #67 Co-authored-by: Filip Leonarski <filip.leonarski@psi.ch>
115 lines
5.3 KiB
C++
115 lines
5.3 KiB
C++
// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
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// SPDX-License-Identifier: GPL-3.0-only
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#pragma once
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#include <vector>
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#include <mutex>
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#include <functional>
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#include "../common/DiffractionSpot.h"
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#include "../common/DiffractionExperiment.h"
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#include "../common/AzimuthalIntegrationMapping.h"
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#include "../common/AzimuthalIntegrationProfile.h"
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#include "../common/Reflection.h"
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#include "bragg_prediction/BraggPrediction.h"
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#include "indexing/IndexerThreadPool.h"
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#include "lattice_search/LatticeSearch.h"
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#include "rotation_indexer/RotationIndexer.h"
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#include "rotation_indexer/RotationIndexerCounter.h"
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#include "scale_merge/ScaleOnTheFly.h"
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#include "scale_merge/ScalingResult.h"
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#include "IntegrationOutcome.h"
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// Integrates the predicted reflections off whatever image the caller holds: the preprocessed GPU/CPU
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// buffer on the WithoutFPGA path (GPU when available), or the assembled detector image read straight,
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// on the CPU, on the forced-CPU FPGA path. Keeps IndexAndRefine independent of the image representation.
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using BraggIntegrateFn = std::function<std::vector<Reflection>(
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const std::vector<Reflection> &predicted, size_t npredicted, int64_t image_number)>;
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class IndexAndRefine {
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const bool index_ice_rings;
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// When false, the current image's result is still returned via the outgoing message, but the
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// whole-run integration_outcome vector is not retained (viewer live/interactive use, which never
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// scales the accumulated run). rugnux/receiver keep it true so ScaleAllImages/merge have the data.
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const bool retain_outcomes_;
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const DiffractionExperiment& experiment;
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const DiffractionGeometry geom_;
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std::optional<CrystalLattice> indexed_lattice;
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std::optional<GoniometerAxis> axis_;
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IndexerThreadPool *indexer_;
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std::unique_ptr<RotationIndexer> rotation_indexer;
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RotationIndexerCounter rotation_indexer_counter;
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struct IndexingOutcome {
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std::optional<CrystalLattice> lattice_candidate;
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std::vector<CrystalLattice> extra_lattice_candidates;
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std::vector<Coord> extra_lattice_rotations;
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DiffractionExperiment experiment;
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LatticeMessage symmetry{
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.centering = 'P',
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.niggli_class = 0,
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.crystal_system = gemmi::CrystalSystem::Triclinic
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};
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bool beam_center_updated = false;
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explicit IndexingOutcome(const DiffractionExperiment& experiment_ref)
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: experiment(experiment_ref) {}
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};
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mutable std::mutex reflections_mutex;
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std::vector<IntegrationOutcome> integration_outcome;
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std::vector<float> mosaicity;
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std::vector<float> scale_cc;
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std::vector<std::optional<UnitCell> > unit_cells;
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IndexingOutcome DetermineLatticeAndSymmetryRotation(DataMessage &msg);
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IndexingOutcome DetermineLatticeAndSymmetry(DataMessage &msg);
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// Shared indexing path: determine the lattice/symmetry, refine geometry, and run AnalyzeIndexing.
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// Returns the outcome (ready for integration) when the frame indexes, nullopt otherwise. Both the
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// real per-image ProcessImage and the first-pass scheme validation go through this, so they cannot
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// diverge.
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std::optional<IndexingOutcome> DetermineRefineAnalyze(DataMessage &msg,
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const SpotFindingSettings &spot_finding_settings);
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void RefineGeometryIfNeeded(DataMessage &msg, IndexingOutcome &outcome);
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void QuickPredictAndIntegrate(DataMessage &msg,
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const SpotFindingSettings &spot_finding_settings,
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BraggPrediction &prediction,
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const BraggIntegrateFn &integrate,
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const IndexingOutcome &outcome);
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std::unique_ptr<ScaleOnTheFly> scaling_engine;
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void ScaleImage(DataMessage &msg, IntegrationOutcome& outcome);
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std::optional<float> RotationAngle(int64_t image) const; // mid-exposure angle for the indexer
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public:
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IndexAndRefine(const DiffractionExperiment &x, IndexerThreadPool *indexer, bool retain_outcomes = true);
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void AddImageToRotationIndexer(DataMessage &msg);
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void ForceRotationIndexerLattice(const CrystalLattice& lattice);
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void ForceRotationIndexerResult(const RotationIndexerResult& result);
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void ProcessImage(DataMessage &msg, const SpotFindingSettings &settings,
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BraggPrediction &prediction, const BraggIntegrateFn &integrate);
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// Index a single frame (no integration) with the current forced rotation lattice; used to score
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// first-pass sampling schemes on the real per-image path. Returns whether the frame indexed.
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bool IndexFrameOnly(DataMessage &msg, const SpotFindingSettings &settings);
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IndexAndRefine& ReferenceIntensities(std::vector<MergedReflection> &reference);
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ScalingResult ScaleAllImages(const std::vector<MergedReflection> &reference, size_t nthreads = 0);
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std::optional<RotationIndexerResult> FinalizeRotationIndexing();
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std::optional<UnitCell> GetConsensusUnitCell() const;
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// Not thread safe, need to be run after processing is all done
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const std::vector<float> &GetImageCC() const;
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const std::vector<std::optional<UnitCell> > &GetUnitCells() const;
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std::vector<IntegrationOutcome> &GetIntegrationOutcome();
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const std::vector<IntegrationOutcome> &GetIntegrationOutcome() const;
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};
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