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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. * Analysis: The azimuthal-integration solid-angle correction now follows the incidence angle to the detector normal (`cos^3` of that angle) instead of `cos^3(2*theta)`, so it is correct for a tilted detector and matches PyFAI `solidAngleArray` and MAX IV azint (unchanged for an untilted detector). Crystal geometry refinement (`XtalOptimizer`) no longer silently ignores an imported PONI `rot3` (rotation about the beam): it is applied as a fixed rotation in the residual so refinement stays consistent with the rest of the pipeline. Polarization and azimuthal binning already honoured `rot3` through the full PONI rotation. * jfjoch_viewer: Open datasets on the WSL2/UNC filesystem (paths starting `\\`); write processing outputs next to the input file, with a Browse button and independent `_process.h5` / merged `.mtz`/`.cif` toggles; and show the determined space group in the merge-statistics window. * rugnux: Accept an absolute `-o` output prefix in offline processing. * Packaging: The self-contained Linux viewer `.tgz` now bundles cuFFT, so it runs without a system CUDA toolkit (`.deb`/`.rpm` are unchanged, distro-managed). * Docs: Bring the analysis references up to date with the code. `docs/CPU_DATA_ANALYSIS.md` now reflects the unified profile-fit Bragg integration engine, multi-lattice indexing, azimuthal phi binning, the radial parallax/bandwidth profile with sub-pixel centring, the rot3d capture-fraction handling and the automatic CC1/2 resolution cutoff, and drops the descriptions of features that were never implemented (French-Wilson amplitudes, the still excitation-error partiality model); `docs/RUGNUX.md` documents the new `--resolution-cutoff`/`--resolution-cc-target`/`--resolution-shells`, `--min-captured-fraction`, `--mosaicity`, `--reference-column`, the azimuthal correction toggles and the geometry-override options, and corrects the `-N` default. The outdated in-source design notes (ICE_RING_DETECTION, BRAGG_INTEGRATION_ENGINE, NEXTGEN_INTEGRATOR) are removed.Reviewed-on: #68 Co-authored-by: Filip Leonarski <filip.leonarski@psi.ch>
267 lines
7.5 KiB
C++
267 lines
7.5 KiB
C++
// SPDX-FileCopyrightText: 2026 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
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// SPDX-License-Identifier: GPL-3.0-only
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#include "ScalingSettings.h"
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ScalingSettings& ScalingSettings::RefineB(bool input) {
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refine_b = input;
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return *this;
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}
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ScalingSettings& ScalingSettings::MergeFriedel(bool input) {
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merge_friedel = input;
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return *this;
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}
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ScalingSettings& ScalingSettings::HighResolutionLimit_A(double limit) {
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if (limit <= 0.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterBelowMin, "High resolution limit must be positive");
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high_resolution_limit_A = limit;
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return *this;
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}
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ScalingSettings& ScalingSettings::HighResolutionLimit_A(std::optional<double> limit) {
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if (limit.has_value() && limit.value() <= 0.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterBelowMin, "High resolution limit must be positive");
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high_resolution_limit_A = limit;
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return *this;
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}
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bool ScalingSettings::GetRefineB() const {
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return refine_b;
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}
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bool ScalingSettings::GetMergeFriedel() const {
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return merge_friedel;
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}
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ScalingSettings &ScalingSettings::RefineRotationWedge(bool input) {
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refine_wedge = input;
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return *this;
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}
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bool ScalingSettings::GetRefineWedge() const {
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return refine_wedge;
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}
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std::optional<double> ScalingSettings::GetHighResolutionLimit_A() const {
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return high_resolution_limit_A;
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}
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double ScalingSettings::GetMinB() const {
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return min_b;
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}
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double ScalingSettings::GetMaxB() const {
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return max_b;
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}
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double ScalingSettings::GetMinMosaicity() const {
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return 0.001;
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}
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double ScalingSettings::GetMaxMosaicity() const {
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return 1.0;
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}
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double ScalingSettings::GetMinWedge() const {
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return 0.001;
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}
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double ScalingSettings::GetMaxWedge() const {
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return 10.0;
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}
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double ScalingSettings::GetDefaultMosaicity() const {
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return 0.1;
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}
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ScalingSettings &ScalingSettings::RotationWedgeForScaling(std::optional<double> input) {
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if (input) {
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// TODO: Use fmt
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if (input.value() < GetMinWedge() || input.value() > GetMaxWedge())
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Wedge for scaling must be between " + std::to_string(GetMinWedge()) +
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" and " + std::to_string(GetMaxWedge()));
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}
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wedge_for_scaling = input;
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return *this;
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}
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std::optional<double> ScalingSettings::GetRotationWedgeForScaling() const {
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return wedge_for_scaling;
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}
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ScalingSettings &ScalingSettings::MinPartiality(double input) {
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if (min_partiality < 0.0 || min_partiality > 1.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "Min partiality must be between 0 and 1");
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min_partiality = input;
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return *this;
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}
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double ScalingSettings::GetMinCCForImage() const {
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return min_cc_for_image;
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}
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ScalingSettings &ScalingSettings::MinCCForImage(double input) {
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if (input < 0.0 || input > 1.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "Min CC for image must be between 0 and 1");
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min_cc_for_image = input;
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return *this;
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}
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double ScalingSettings::GetOutlierRejectNsigma() const {
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return outlier_reject_nsigma;
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}
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ScalingSettings &ScalingSettings::OutlierRejectNsigma(double input) {
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outlier_reject_nsigma = input; // <= 0 disables; no upper bound (large = effectively off)
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return *this;
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}
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ScalingSettings &ScalingSettings::ScaleFulls(bool input) {
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scale_fulls = input;
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return *this;
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}
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bool ScalingSettings::GetScaleFulls() const {
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return scale_fulls;
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}
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ScalingSettings &ScalingSettings::AbsorptionIter(int input) {
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if (input < 0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "Absorption iterations must be non-negative");
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absorption_iter = input;
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return *this;
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}
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int ScalingSettings::GetAbsorptionIter() const {
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return absorption_iter;
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}
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ScalingSettings &ScalingSettings::CorrectionSurfaces(bool input) {
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correction_surfaces = input;
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return *this;
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}
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bool ScalingSettings::GetCorrectionSurfaces() const {
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return correction_surfaces;
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}
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ScalingSettings &ScalingSettings::SmoothGDegrees(double input) {
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if (input < 0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "Smooth-G range must be non-negative");
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smooth_g_deg = input;
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return *this;
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}
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double ScalingSettings::GetSmoothGDegrees() const {
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return smooth_g_deg;
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}
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double ScalingSettings::GetMinPartiality() const {
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return min_partiality;
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}
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ScalingSettings &ScalingSettings::ForcedMosaicity(std::optional<double> input) {
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if (input.has_value() && (input.value() < GetMinMosaicity() || input.value() > GetMaxMosaicity()))
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Forced mosaicity must be between " + std::to_string(GetMinMosaicity()) +
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" and " + std::to_string(GetMaxMosaicity()));
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forced_mosaicity = input;
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return *this;
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}
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std::optional<double> ScalingSettings::GetForcedMosaicity() const {
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return forced_mosaicity;
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}
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ScalingSettings &ScalingSettings::CaptureUncertaintyCoeff(double input) {
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if (input < 0.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Capture uncertainty coefficient must be non-negative");
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capture_uncertainty_coeff = input;
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return *this;
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}
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double ScalingSettings::GetCaptureUncertaintyCoeff() const {
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return capture_uncertainty_coeff;
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}
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ScalingSettings &ScalingSettings::MinCapturedFraction(double input) {
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if (input < 0.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Minimum captured fraction must be non-negative");
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min_captured_fraction = input;
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return *this;
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}
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double ScalingSettings::GetMinCapturedFraction() const {
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return min_captured_fraction;
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}
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ScalingSettings &ScalingSettings::FileFormat(IntensityFormat input) {
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intensity_format = input;
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return *this;
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}
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IntensityFormat ScalingSettings::GetFileFormat() const {
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return intensity_format;
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}
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ScalingSettings &ScalingSettings::RfreeFraction(double input) {
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if (input < 0.0 || input > 1.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "R-free fraction must be between 0 and 1");
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rfree_fraction = input;
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return *this;
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}
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double ScalingSettings::GetRfreeFraction() const {
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return rfree_fraction;
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}
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ScalingSettings &ScalingSettings::ScalingRegularize(bool input) {
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scaling_regularize = input;
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return *this;
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}
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bool ScalingSettings::GetScalingRegularize() const {
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return scaling_regularize;
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}
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ScalingSettings &ScalingSettings::ResolutionCutoff(ResolutionCutoffMethod input) {
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resolution_cutoff = input;
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return *this;
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}
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ResolutionCutoffMethod ScalingSettings::GetResolutionCutoff() const {
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return resolution_cutoff;
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}
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ScalingSettings &ScalingSettings::ResolutionCCTarget(double input) {
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if (input <= 0.0 || input >= 1.0)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Resolution CC target must be between 0 and 1");
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resolution_cc_target = input;
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return *this;
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}
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double ScalingSettings::GetResolutionCCTarget() const {
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return resolution_cc_target;
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}
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ScalingSettings &ScalingSettings::ReportShellCount(int input) {
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if (input < 1)
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throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
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"Number of report shells must be at least 1");
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report_shell_count = input;
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return *this;
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}
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int ScalingSettings::GetReportShellCount() const {
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return report_shell_count;
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}
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