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FakeObjects.h
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FakeObjects.h
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// Mantid Repository : https://github.com/mantidproject/mantid
//
// Copyright © 2018 ISIS Rutherford Appleton Laboratory UKRI,
// NScD Oak Ridge National Laboratory, European Spallation Source,
// Institut Laue - Langevin & CSNS, Institute of High Energy Physics, CAS
// SPDX - License - Identifier: GPL - 3.0 +
/*********************************************************************************
* PLEASE READ THIS!!!!!!!
*
* This header MAY NOT be included in any test from a package below API
* (e.g. Kernel, Geometry).
* Conversely, this file MAY NOT be modified to use anything from a package
*higher
* than API (e.g. any algorithm or concrete workspace), even if via the
*factory.
*********************************************************************************/
#pragma once
/*
* FakeObjects.h: Fake Tester objects for APITest
*
* Created on: Jul 5, 2011
* Author: Janik Zikovsky
*/
#include <algorithm>
#include <fstream>
#include <map>
#include <string>
#include "MantidAPI/IMDHistoWorkspace.h"
#include "MantidAPI/ISpectrum.h"
#include "MantidAPI/ITableWorkspace.h"
#include "MantidAPI/MatrixWorkspace.h"
#include "MantidAPI/RefAxis.h"
#include "MantidAPI/SpectraAxis.h"
#include "MantidGeometry/Instrument.h"
#include "MantidGeometry/Instrument/DetectorGroup.h"
#include "MantidGeometry/MDGeometry/MDHistoDimension.h"
#include "MantidGeometry/MDGeometry/MDImplicitFunction.h"
#include "MantidKernel/SpecialCoordinateSystem.h"
#include "MantidKernel/cow_ptr.h"
using namespace Mantid::API;
using namespace Mantid::Geometry;
using Mantid::coord_t;
using Mantid::detid_t;
using Mantid::MantidVec;
using Mantid::signal_t;
using Mantid::specnum_t;
using Mantid::Kernel::SpecialCoordinateSystem;
//===================================================================================================================
/** Helper class that implements ISpectrum */
class SpectrumTester : public ISpectrum {
public:
SpectrumTester(Mantid::HistogramData::Histogram::XMode xmode, Mantid::HistogramData::Histogram::YMode ymode)
: ISpectrum(), m_histogram(xmode, ymode) {
m_histogram.setCounts(0);
m_histogram.setCountStandardDeviations(0);
}
SpectrumTester(const specnum_t specNo, Mantid::HistogramData::Histogram::XMode xmode,
Mantid::HistogramData::Histogram::YMode ymode)
: ISpectrum(specNo), m_histogram(xmode, ymode) {
m_histogram.setCounts(0);
m_histogram.setCountStandardDeviations(0);
}
void copyDataFrom(const ISpectrum &other) override { other.copyDataInto(*this); }
void setX(const Mantid::Kernel::cow_ptr<Mantid::HistogramData::HistogramX> &X) override { m_histogram.setX(X); }
MantidVec &dataX() override { return m_histogram.dataX(); }
const MantidVec &dataX() const override { return m_histogram.dataX(); }
const MantidVec &readX() const override { return m_histogram.readX(); }
Mantid::Kernel::cow_ptr<Mantid::HistogramData::HistogramX> ptrX() const override { return m_histogram.ptrX(); }
MantidVec &dataDx() override { return m_histogram.dataDx(); }
const MantidVec &dataDx() const override { return m_histogram.dataDx(); }
const MantidVec &readDx() const override { return m_histogram.readDx(); }
MantidVec &dataY() override { return m_histogram.dataY(); }
MantidVec &dataE() override { return m_histogram.dataE(); }
const MantidVec &dataY() const override { return m_histogram.dataY(); }
const MantidVec &dataE() const override { return m_histogram.dataE(); }
size_t getMemorySize() const override { return readY().size() * sizeof(double) * 2; }
/// Mask the spectrum to this value
void clearData() override {
// Assign the value to the data and error arrays
MantidVec &yValues = this->dataY();
std::fill(yValues.begin(), yValues.end(), 0.0);
MantidVec &eValues = this->dataE();
std::fill(eValues.begin(), eValues.end(), 0.0);
}
protected:
Mantid::HistogramData::Histogram m_histogram;
private:
using ISpectrum::copyDataInto;
void copyDataInto(SpectrumTester &other) const override { other.m_histogram = m_histogram; }
const Mantid::HistogramData::Histogram &histogramRef() const override { return m_histogram; }
Mantid::HistogramData::Histogram &mutableHistogramRef() override { return m_histogram; }
};
//===================================================================================================================
class AxeslessWorkspaceTester : public MatrixWorkspace {
public:
AxeslessWorkspaceTester(const Mantid::Parallel::StorageMode storageMode = Mantid::Parallel::StorageMode::Cloned)
: MatrixWorkspace(storageMode), m_spec(0) {}
bool isRaggedWorkspace() const override {
if (m_vec.empty()) {
throw std::runtime_error("Vector data is empty, cannot check for ragged workspace.");
} else {
const auto numberOfBins = m_vec[0].dataY().size();
return std::any_of(m_vec.cbegin(), m_vec.cend(),
[&numberOfBins](const auto &spectrum) { return numberOfBins != spectrum.dataY().size(); });
}
}
// Empty overrides of virtual methods
size_t getNumberHistograms() const override { return m_spec; }
const std::string id() const override { return "AxeslessWorkspaceTester"; }
size_t size() const override {
return std::accumulate(m_vec.cbegin(), m_vec.cend(), static_cast<size_t>(0),
[](size_t total, const SpectrumTester &i) { return total + i.dataY().size(); });
}
size_t blocksize() const override {
if (m_vec.empty()) {
return 0;
} else {
size_t numY = m_vec[0].dataY().size();
if (std::any_of(m_vec.cbegin(), m_vec.cend(), [numY](auto it) { return it.dataY().size() != numY; })) {
throw std::logic_error("non-constant number of bins");
}
return numY;
}
return m_vec.empty() ? 0 : m_vec[0].dataY().size();
}
std::size_t getNumberBins(const std::size_t &index) const override {
if (index > m_vec.size())
return 0;
return m_vec[index].dataY().size();
}
std::size_t getMaxNumberBins() const override {
if (m_vec.empty()) {
return 0;
} else {
const auto iter =
std::max_element(m_vec.cbegin(), m_vec.cend(), [](const SpectrumTester &s1, const SpectrumTester &s2) {
return s1.dataY().size() < s2.dataY().size();
});
return iter->dataY().size();
}
}
ISpectrum &getSpectrum(const size_t index) override {
invalidateCommonBinsFlag();
m_vec[index].setMatrixWorkspace(this, index);
return m_vec[index];
}
const ISpectrum &getSpectrum(const size_t index) const override { return m_vec[index]; }
void generateHistogram(const std::size_t, const MantidVec &, MantidVec &, MantidVec &, bool) const override {}
Mantid::Kernel::SpecialCoordinateSystem getSpecialCoordinateSystem() const override { return Mantid::Kernel::None; }
protected:
void init(const size_t &numspec, const size_t &j, const size_t &k) override {
m_spec = numspec;
m_vec.resize(m_spec, SpectrumTester(Mantid::HistogramData::getHistogramXMode(j, k),
Mantid::HistogramData::Histogram::YMode::Counts));
for (size_t i = 0; i < m_spec; i++) {
m_vec[i].setMatrixWorkspace(this, i);
m_vec[i].dataX().resize(j, 1.0);
m_vec[i].dataY().resize(k, 1.0);
m_vec[i].dataE().resize(k, 1.0);
m_vec[i].addDetectorID(detid_t(i));
m_vec[i].setSpectrumNo(specnum_t(i + 1));
}
}
void init(const Mantid::HistogramData::Histogram &histogram) override {
m_spec = numberOfDetectorGroups();
m_vec.resize(m_spec, SpectrumTester(histogram.xMode(), histogram.yMode()));
for (size_t i = 0; i < m_spec; i++) {
m_vec[i].setHistogram(histogram);
m_vec[i].addDetectorID(detid_t(i));
m_vec[i].setSpectrumNo(specnum_t(i + 1));
}
}
AxeslessWorkspaceTester *doClone() const override { return new AxeslessWorkspaceTester(*this); }
AxeslessWorkspaceTester *doCloneEmpty() const override {
throw std::runtime_error("Cloning of AxeslessWorkspaceTester is not implemented.");
}
private:
std::vector<SpectrumTester> m_vec;
size_t m_spec;
ISpectrum &getSpectrumWithoutInvalidation(const size_t index) override {
m_vec[index].setMatrixWorkspace(this, index);
return m_vec[index];
}
};
class WorkspaceTester : public AxeslessWorkspaceTester {
public:
WorkspaceTester(const Mantid::Parallel::StorageMode storageMode = Mantid::Parallel::StorageMode::Cloned)
: AxeslessWorkspaceTester(storageMode) {}
const std::string id() const override { return "WorkspaceTester"; }
/// Returns a clone of the workspace
std::unique_ptr<WorkspaceTester> clone() const { return std::unique_ptr<WorkspaceTester>(doClone()); }
/// Returns a default-initialized clone of the workspace
std::unique_ptr<WorkspaceTester> cloneEmpty() const { return std::unique_ptr<WorkspaceTester>(doCloneEmpty()); }
protected:
void init(const size_t &numspec, const size_t &j, const size_t &k) override {
AxeslessWorkspaceTester::init(numspec, j, k);
// Put an 'empty' axis in to test the getAxis method
m_axes.resize(2);
m_axes[0] = std::make_unique<Mantid::API::RefAxis>(this);
m_axes[1] = std::make_unique<Mantid::API::SpectraAxis>(this);
}
void init(const Mantid::HistogramData::Histogram &histogram) override {
AxeslessWorkspaceTester::init(histogram);
// Put an 'empty' axis in to test the getAxis method
m_axes.resize(2);
m_axes[0] = std::make_unique<Mantid::API::RefAxis>(this);
m_axes[1] = std::make_unique<Mantid::API::SpectraAxis>(this);
}
private:
WorkspaceTester *doClone() const override { return new WorkspaceTester(*this); }
WorkspaceTester *doCloneEmpty() const override { return new WorkspaceTester(storageMode()); }
};
//===================================================================================================================
class TableWorkspaceTester : public ITableWorkspace {
public:
/// Returns a clone of the workspace
std::unique_ptr<TableWorkspaceTester> clone() const { return std::unique_ptr<TableWorkspaceTester>(doClone()); }
/// Returns a default-initialized clone of the workspace
std::unique_ptr<TableWorkspaceTester> cloneEmpty() const {
return std::unique_ptr<TableWorkspaceTester>(doCloneEmpty());
}
const std::string id() const override { return "TableWorkspaceTester"; }
size_t getMemorySize() const override { throw std::runtime_error("getMemorySize not implemented"); }
Column_sptr addColumn(const std::string &, const std::string &) override {
throw std::runtime_error("addColumn not implemented");
}
LogManager_sptr logs() override { throw std::runtime_error("logs not implemented"); }
LogManager_const_sptr getLogs() const override { throw std::runtime_error("getLogs not implemented"); }
void removeColumn(const std::string &) override { throw std::runtime_error("removeColumn not implemented"); }
size_t columnCount() const override { throw std::runtime_error("columnCount not implemented"); }
Column_sptr getColumn(const std::string &) override { throw std::runtime_error("getColumn(str) not implemented"); }
Column_const_sptr getColumn(const std::string &) const override {
throw std::runtime_error("getColumn(str) const not implemented");
}
Column_sptr getColumn(size_t) override { throw std::runtime_error("getColumn(size_t) not implemented"); }
Column_const_sptr getColumn(size_t) const override {
throw std::runtime_error("getColumn(size_t) const not implemented");
}
std::vector<std::string> getColumnNames() const override {
throw std::runtime_error("getColumnNames not implemented");
}
size_t rowCount() const override { throw std::runtime_error("rowCount not implemented"); }
void setRowCount(size_t) override { throw std::runtime_error("setRowCount not implemented"); }
size_t insertRow(size_t) override { throw std::runtime_error("insertRow not implemented"); }
void removeRow(size_t) override { throw std::runtime_error("removeRow not implemented"); }
void find(size_t, size_t &, const size_t &) override { throw std::runtime_error("find not implemented"); }
void find(double, size_t &, const size_t &) override { throw std::runtime_error("find not implemented"); }
void find(float, size_t &, const size_t &) override { throw std::runtime_error("find not implemented"); }
void find(Boolean, size_t &, const size_t &) override { throw std::runtime_error("find not implemented"); }
void find(const std::string &, size_t &, const size_t &) override {
throw std::runtime_error("find not implemented");
}
void find(const Mantid::Kernel::V3D &, size_t &, const size_t &) override {
throw std::runtime_error("find not implemented");
}
private:
TableWorkspaceTester *doClone() const override {
throw std::runtime_error("Cloning of TableWorkspaceTester is not implemented.");
}
TableWorkspaceTester *doCloneEmpty() const override {
throw std::runtime_error("Cloning of TableWorkspaceTester is not implemented.");
}
ITableWorkspace *doCloneColumns(const std::vector<std::string> &) const override {
throw std::runtime_error("Cloning of TableWorkspaceTester is not implemented.");
}
};
//===================================================================================================================
class ColumnTester : public Column {
size_t size() const override { throw std::runtime_error("size not implemented"); }
std::type_info &get_type_info() const override { throw std::runtime_error("get_type_info not implemented"); }
std::type_info &get_pointer_type_info() const override {
throw std::runtime_error("get_pointer_type_info not implemented");
}
void print(size_t, std::ostream &) const override { throw std::runtime_error("print not implemented"); }
bool isBool() const override { throw std::runtime_error("isBool not implemented"); }
bool isNumber() const override { throw std::runtime_error("isNumber not implemented"); }
long int sizeOfData() const override { throw std::runtime_error("sizeOfData not implemented"); }
Column *clone() const override { throw std::runtime_error("clone not implemented"); }
double toDouble(size_t) const override { throw std::runtime_error("toDouble not implemented"); }
void fromDouble(size_t, double) override { throw std::runtime_error("fromDouble not implemented"); }
protected:
void resize(size_t) override { throw std::runtime_error("resize not implemented"); }
void insert(size_t) override { throw std::runtime_error("insert not implemented"); }
void remove(size_t) override { throw std::runtime_error("remove not implemented"); }
void *void_pointer(size_t) override { throw std::runtime_error("void_pointer not implemented"); }
const void *void_pointer(size_t) const override { throw std::runtime_error("void_pointer const not implemented"); }
};
//===================================================================================================================
class MDHistoWorkspaceTester : public IMDHistoWorkspace {
public:
uint64_t getNPoints() const override { throw std::runtime_error("Not Implemented"); }
uint64_t getNEvents() const override { throw std::runtime_error("Not Implemented"); }
std::vector<std::unique_ptr<IMDIterator>>
createIterators(size_t suggestedNumCores = 1,
Mantid::Geometry::MDImplicitFunction *function = nullptr) const override {
UNUSED_ARG(suggestedNumCores)
UNUSED_ARG(function)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalAtCoord(const coord_t *coords, const Mantid::API::MDNormalization &normalization) const override {
UNUSED_ARG(coords);
UNUSED_ARG(normalization);
throw std::runtime_error("Not Implemented");
}
signal_t getSignalWithMaskAtCoord(const coord_t *coords,
const Mantid::API::MDNormalization &normalization) const override {
UNUSED_ARG(coords);
UNUSED_ARG(normalization);
throw std::runtime_error("Not Implemented");
}
void setMDMasking(std::unique_ptr<Mantid::Geometry::MDImplicitFunction> maskingRegion) override {
UNUSED_ARG(maskingRegion);
throw std::runtime_error("Not Implemented");
}
void clearMDMasking() override { throw std::runtime_error("Not Implemented"); }
SpecialCoordinateSystem getSpecialCoordinateSystem() const override { throw std::runtime_error("Not Implemented"); }
coord_t getInverseVolume() const override { throw std::runtime_error("Not Implemented"); }
const signal_t *getSignalArray() const override { throw std::runtime_error("Not Implemented"); }
const signal_t *getErrorSquaredArray() const override { throw std::runtime_error("Not Implemented"); }
const signal_t *getNumEventsArray() const override { throw std::runtime_error("Not Implemented"); }
signal_t *mutableSignalArray() override { throw std::runtime_error("Not Implemented"); }
signal_t *mutableErrorSquaredArray() override { throw std::runtime_error("Not Implemented"); }
signal_t *mutableNumEventsArray() override { throw std::runtime_error("Not Implemented"); }
void setTo(signal_t signal, signal_t errorSquared, signal_t numEvents) override {
UNUSED_ARG(signal);
UNUSED_ARG(errorSquared);
UNUSED_ARG(numEvents);
throw std::runtime_error("Not Implemented");
}
Mantid::Kernel::VMD getCenter(size_t linearIndex) const override {
UNUSED_ARG(linearIndex);
throw std::runtime_error("Not Implemented");
}
void setSignalAt(size_t index, signal_t value) override {
UNUSED_ARG(index)
UNUSED_ARG(value)
throw std::runtime_error("Not Implemented");
}
void setErrorSquaredAt(size_t index, signal_t value) override {
UNUSED_ARG(index)
UNUSED_ARG(value)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorAt(size_t index) const override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorAt(size_t index1, size_t index2) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorAt(size_t index1, size_t index2, size_t index3) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorAt(size_t index1, size_t index2, size_t index3, size_t index4) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
UNUSED_ARG(index4)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalAt(size_t index) const override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalAt(size_t index1, size_t index2) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalAt(size_t index1, size_t index2, size_t index3) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalAt(size_t index1, size_t index2, size_t index3, size_t index4) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
UNUSED_ARG(index4)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalNormalizedAt(size_t index) const override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalNormalizedAt(size_t index1, size_t index2) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalNormalizedAt(size_t index1, size_t index2, size_t index3) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
throw std::runtime_error("Not Implemented");
}
signal_t getSignalNormalizedAt(size_t index1, size_t index2, size_t index3, size_t index4) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
UNUSED_ARG(index4)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorNormalizedAt(size_t index) const override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorNormalizedAt(size_t index1, size_t index2) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorNormalizedAt(size_t index1, size_t index2, size_t index3) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
throw std::runtime_error("Not Implemented");
}
signal_t getErrorNormalizedAt(size_t index1, size_t index2, size_t index3, size_t index4) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
UNUSED_ARG(index4)
throw std::runtime_error("Not Implemented");
}
signal_t &errorSquaredAt(size_t index) override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
signal_t &signalAt(size_t index) override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
size_t getLinearIndex(size_t index1, size_t index2) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
throw std::runtime_error("Not Implemented");
}
size_t getLinearIndex(size_t index1, size_t index2, size_t index3) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
throw std::runtime_error("Not Implemented");
}
size_t getLinearIndex(size_t index1, size_t index2, size_t index3, size_t index4) const override {
UNUSED_ARG(index1)
UNUSED_ARG(index2)
UNUSED_ARG(index3)
UNUSED_ARG(index4)
throw std::runtime_error("Not Implemented");
}
LinePlot getLineData(const Mantid::Kernel::VMD &start, const Mantid::Kernel::VMD &end,
Mantid::API::MDNormalization normalize) const override {
UNUSED_ARG(start)
UNUSED_ARG(end)
UNUSED_ARG(normalize)
throw std::runtime_error("Not Implemented");
}
double &operator[](const size_t &index) override {
UNUSED_ARG(index)
throw std::runtime_error("Not Implemented");
}
void setCoordinateSystem(const SpecialCoordinateSystem coordinateSystem) override {
UNUSED_ARG(coordinateSystem)
throw std::runtime_error("Not Implemented");
}
void setDisplayNormalization(const Mantid::API::MDNormalization &preferredNormalization) override {
UNUSED_ARG(preferredNormalization);
throw std::runtime_error("Not Implemented");
}
// Check if this class has an oriented lattice on any sample object
bool hasOrientedLattice() const override { return MultipleExperimentInfos::hasOrientedLattice(); }
size_t getMemorySize() const override { throw std::runtime_error("Not Implemented"); }
const std::string id() const override { throw std::runtime_error("Not Implemented"); }
const std::string &getName() const override { throw std::runtime_error("Not Implemented"); }
bool threadSafe() const override { throw std::runtime_error("Not Implemented"); }
const std::string toString() const override { throw std::runtime_error("Not Implemented"); }
MDHistoWorkspaceTester(const MDHistoDimension_sptr &dimX, const MDHistoDimension_sptr &dimY,
const MDHistoDimension_sptr &dimZ) {
std::vector<IMDDimension_sptr> dimensions{dimX, dimY, dimZ};
initGeometry(dimensions);
}
private:
IMDHistoWorkspace *doClone() const override { throw std::runtime_error("Not Implemented"); }
IMDHistoWorkspace *doCloneEmpty() const override { throw std::runtime_error("Not Implemented"); }
};
class VariableBinThrowingTester : public AxeslessWorkspaceTester {
size_t blocksize() const override {
if (getSpectrum(0).dataY().size() == getSpectrum(1).dataY().size())
return getSpectrum(0).dataY().size();
else
throw std::length_error("Mismatched bins sizes");
return 0;
}
};