Files
Jungfraujoch/process/JFJochProcessCommandLine.cpp
T
leonarski_fandClaude Opus 4.8 b4d3d40cd8 Replace the dead PartialityModel with a force_still_processing flag
With ScaleOnTheFly now fixed-only and rotation routed through RotationScaleMerge, the
PartialityModel enum carried no information (it was always Rotation for rotation processing,
Fixed otherwise, and mirrored combine_3d). Drop it:

- ScalingSettings: `partiality_mode` (PartialityModel) -> `force_still_processing` (bool);
  SetPartialityModel/GetPartialityModel -> ForceStillProcessing/GetForceStillProcessing.
  Remove the enum.
- DiffractionExperiment: drop GetPartialityModel(); the rotation-vs-stills decision is now
  just GetCombine3D() (set by the tool = rotation && !force_still). The wedge getters no longer
  key off the model (dead since wedge refinement was removed).
- jfjoch_process: `-P/--partiality fixed|rot3d` -> `--force-still-processing` (a rotation
  dataset scaled as independent stills). Auto-detect sets combine_3d for rotation data unless
  the flag is given.
- jfjoch_scale: `-P fixed|rot3d` now toggles combine_3d directly (no PartialityModel).
- jfjoch_viewer: the "process as stills" toggle sets ForceStillProcessing(!rotation_mode) -
  UI unchanged, just wired to the new field.

PartialityModel was never in the OpenAPI, so no generated clients change. Rotation path
behaviour is unchanged (lyso 16.4/99.6%/87.3%); --force-still-processing correctly routes to
ScaleOnTheFly. CUDA + non-CUDA + viewer all build.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-07-03 11:58:34 +02:00

138 lines
5.1 KiB
C++

// SPDX-FileCopyrightText: 2026 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include "JFJochProcessCommandLine.h"
#include "../common/DiffractionExperiment.h"
#include <sstream>
#include <vector>
namespace {
std::string quote_if_needed(const std::string &s) {
if (s.find_first_of(" \t\"'") == std::string::npos)
return s;
std::string out = "\"";
for (char c: s) {
if (c == '"' || c == '\\')
out += '\\';
out += c;
}
out += '"';
return out;
}
const char *indexing_alg_flag(IndexingAlgorithmEnum a) {
switch (a) {
case IndexingAlgorithmEnum::FFBIDX: return "ffbidx";
case IndexingAlgorithmEnum::FFT: return "fft";
case IndexingAlgorithmEnum::FFTW: return "fftw";
case IndexingAlgorithmEnum::None: return "none";
case IndexingAlgorithmEnum::Auto:
default: return "auto";
}
}
const char *refine_flag(GeomRefinementAlgorithmEnum r) {
switch (r) {
case GeomRefinementAlgorithmEnum::None: return "none";
case GeomRefinementAlgorithmEnum::OrientationOnly: return "orientation";
case GeomRefinementAlgorithmEnum::BeamCenter:
default: return "beam_and_lattice";
}
}
std::string num(double v) {
std::ostringstream o;
o << v;
return o.str();
}
}
std::string JFJochProcessCommandLine(const ProcessConfig &config,
const DiffractionExperiment &experiment,
const std::string &input_file) {
std::vector<std::string> args;
const bool azint = (config.mode == ProcessMode::AzimuthalIntegration);
args.emplace_back(azint ? "jfjoch_azint" : "jfjoch_process");
auto add = [&](const std::string &flag, const std::string &val) {
args.push_back(flag);
args.push_back(val);
};
if (!config.output_prefix.empty())
add("-o", config.output_prefix);
add("-N", std::to_string(config.nthreads));
if (config.start_image != 0)
add("-s", std::to_string(config.start_image));
if (config.end_image >= 0)
add("-e", std::to_string(config.end_image));
if (config.stride != 1)
add("-t", std::to_string(config.stride));
if (azint) {
const auto a = experiment.GetAzimuthalIntegrationSettings();
add("--min-q", num(a.GetLowQ_recipA()));
add("--max-q", num(a.GetHighQ_recipA()));
add("--q-spacing", num(a.GetQSpacing_recipA()));
add("--azimuthal-bins", std::to_string(a.GetAzimuthalBinCount()));
add("--polarization-correction", a.IsPolarizationCorrection() ? "on" : "off");
add("--solid-angle-correction", a.IsSolidAngleCorrection() ? "on" : "off");
} else {
const auto &sf = config.spot_finding;
add("--spot-sigma", num(sf.signal_to_noise_threshold));
add("--spot-threshold", std::to_string(sf.photon_count_threshold));
add("--spot-high-resolution", num(sf.high_resolution_limit));
add("--max-spots", std::to_string(experiment.GetMaxSpotCount()));
const auto idx = experiment.GetIndexingSettings();
add("-X", indexing_alg_flag(idx.GetAlgorithm()));
add("-r", refine_flag(idx.GetGeomRefinementAlgorithm()));
if (const auto sg = experiment.GetSpaceGroupNumber())
add("-S", std::to_string(*sg));
if (const auto uc = experiment.GetUnitCell()) {
std::ostringstream o;
o << uc->a << "," << uc->b << "," << uc->c << "," << uc->alpha << "," << uc->beta << "," << uc->gamma;
add("-C", o.str());
}
if (const auto bw = experiment.GetBandwidthFWHM())
add("--bandwidth", num(*bw));
const auto bragg = experiment.GetBraggIntegrationSettings();
std::ostringstream radii;
radii << bragg.GetR1() << "," << bragg.GetR2() << "," << bragg.GetR3();
add("--integration-radius", radii.str());
if (config.rotation_indexing) {
if (config.two_pass_rotation)
add("-R", std::to_string(config.rotation_indexing_image_count));
else
args.emplace_back("--single-pass-rotation");
if (!config.reuse_rotation_spots)
args.emplace_back("--redo-rotation-spots");
}
if (config.run_scaling) {
args.emplace_back("-M");
const auto sc = experiment.GetScalingSettings();
if (sc.GetForceStillProcessing())
args.emplace_back("--force-still-processing");
if (!sc.GetMergeFriedel())
args.emplace_back("-A");
if (sc.GetRefineB())
args.emplace_back("-B");
}
}
args.push_back(input_file);
std::ostringstream cmd;
for (size_t i = 0; i < args.size(); i++) {
if (i)
cmd << ' ';
cmd << quote_if_needed(args[i]);
}
return cmd.str();
}