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// -*- Mode: C++; tab-width: 2; -*-
// vi: set ts=2:
//
#include <BALL/CONCEPT/classTest.h>
#include <BALLTestConfig.h>
///////////////////////////
#include <BALL/DATATYPE/regularData1D.h>
///////////////////////////
START_TEST(RegularData1D)
/////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////
using namespace BALL;
using namespace std;
RegularData1D* rd_ptr;
CHECK(TRegularData1D() throw())
rd_ptr = new RegularData1D;
TEST_NOT_EQUAL(rd_ptr, 0)
RESULT
CHECK(~TRegularData1D() throw())
delete rd_ptr;
RESULT
CHECK(TRegularData1D(const CoordinateType& origin, const CoordinateType& dimension, const CoordinateType& spacing))
RegularData1D rd(2.0, 4.0, 0.5);
TEST_REAL_EQUAL(rd.getOrigin(), 2.0);
TEST_REAL_EQUAL(rd.getDimension(), 4.0);
TEST_REAL_EQUAL(rd.getSpacing(), 0.5);
TEST_EQUAL(rd.getSize(), 9);
RESULT
CHECK(TRegularData1D(const TRegularData1D& data))
RegularData1D rd(2.0, 4.0, 0.5);
RegularData1D rd2(rd);
TEST_REAL_EQUAL(rd2.getOrigin(), 2.0);
TEST_REAL_EQUAL(rd2.getDimension(), 4.0);
TEST_REAL_EQUAL(rd2.getSpacing(), 0.5);
TEST_EQUAL(rd2.getSize(), 9);
RESULT
CHECK(TRegularData1D(const IndexType& size))
RegularData1D rd(5);
TEST_EQUAL(rd.getSize(), 5);
TEST_REAL_EQUAL(rd.getOrigin(), 0.0);
TEST_REAL_EQUAL(rd.getDimension(), 1.0);
TEST_REAL_EQUAL(rd.getSpacing(), 0.25);
RESULT
CHECK(TRegularData1D(const VectorType& data, const CoordinateType& origin = 0.0, const CoordinateType& dimension = 1.0))
RegularData1D::VectorType v;
v.push_back(1.1);
v.push_back(1.2);
v.push_back(1.3);
v.push_back(1.4);
RegularData1D rd2(v, 1.0, 0.5);
TEST_REAL_EQUAL(rd2.getOrigin(), 1.0)
TEST_REAL_EQUAL(rd2.getDimension(), 0.5)
TEST_REAL_EQUAL(rd2.getSpacing(), 0.5/3.)
TEST_EQUAL(rd2.getSize(), 4)
TEST_REAL_EQUAL(rd2[0], 1.1)
TEST_REAL_EQUAL(rd2[3], 1.4)
RegularData1D rd3(v); // The default arguments
TEST_REAL_EQUAL(rd3.getOrigin(), 0.0)
TEST_REAL_EQUAL(rd3.getDimension(), 1.0)
TEST_EQUAL(rd3.getSize(), 4)
RegularData1D rd4(v, 2.0, 1.0);
TEST_REAL_EQUAL(rd4.getOrigin(), 2.0)
TEST_REAL_EQUAL(rd4.getDimension(), 1.0)
TEST_EQUAL(rd4.getSize(), 4)
RESULT
CHECK(BALL_CREATE(TRegularData1D<ValueType>))
vector<float> v2;
v2.push_back(1.1);
RegularData1D a(v2, 1.1, 1.2); // This is the vector type constructor
RegularData1D* v_ptr = (RegularData1D*)a.create(false, true);
TEST_EQUAL(v_ptr->getSize(), 0)
TEST_REAL_EQUAL(v_ptr->getOrigin(), 0.0)
delete v_ptr;
v_ptr = (RegularData1D*)a.create();
TEST_EQUAL(v_ptr->getSize(), 1)
TEST_REAL_EQUAL(v_ptr->getOrigin(), 1.1)
TEST_REAL_EQUAL(v_ptr->getDimension(), 1.2)
TEST_REAL_EQUAL((*v_ptr)[0], 1.1)
delete v_ptr;
RESULT
RegularData1D rd;
CHECK(void setOrigin(const CoordinateType& origin) throw())
rd.resize(2);
rd.setOrigin(1.1);
rd.setDimension(1.0);
TEST_REAL_EQUAL(rd.getOrigin(), 1.1)
TEST_REAL_EQUAL(rd.getDimension(), 1.0)
RESULT
CHECK(void setDimension(const CoordinateType& dimension) throw())
//////// SPACING TESTS!!!
rd.setDimension(2.2);
TEST_REAL_EQUAL(rd.getOrigin(), 1.1)
TEST_REAL_EQUAL(rd.getDimension(), 2.2)
rd.setDimension(0.0);
TEST_REAL_EQUAL(rd.getDimension(), 0.0)
RESULT
CHECK(void clear() throw())
rd.resize(10);
rd.setOrigin(0.0);
rd.setDimension(2.0);
rd[0] = 1.0;
rd[9] = 9.0;
TEST_REAL_EQUAL(rd[0], 1.0)
TEST_REAL_EQUAL(rd[9], 9.0)
TEST_REAL_EQUAL(rd.getOrigin(), 0.0)
TEST_REAL_EQUAL(rd.getDimension(), 2.0)
TEST_EQUAL(rd.getSize(), 10)
rd.clear();
TEST_REAL_EQUAL(rd[0], 0.0)
TEST_REAL_EQUAL(rd[9], 0.0)
TEST_REAL_EQUAL(rd.getOrigin(), 0.0)
TEST_REAL_EQUAL(rd.getDimension(), 2.0)
TEST_EQUAL(rd.getSize(), 10)
RESULT
CHECK(const TRegularData1D& operator = (const TRegularData1D<ValueType>& data))
rd.resize(2);
rd.setOrigin(1.1);
rd.setDimension(2.1);
rd[0] = 1.2;
rd[1] = 2.3;
RegularData1D rd2 = rd;
TEST_REAL_EQUAL(rd2.getOrigin(), 1.1)
TEST_REAL_EQUAL(rd2.getDimension(), 2.1)
TEST_REAL_EQUAL(rd2[0], 1.2)
TEST_REAL_EQUAL(rd2[1], 2.3)
TEST_EQUAL(rd2.getSize(), 2)
RESULT
CHECK(const TRegularData1D& operator = (const VectorType& data))
RegularData1D::VectorType v;
v.push_back(1.1);
v.push_back(1.2);
v.push_back(1.3);
v.push_back(1.4);
RegularData1D rd2;
rd2.setOrigin(0.0);
rd2.setDimension(1.0);
rd2 = v;
TEST_REAL_EQUAL(rd2.getOrigin(), 0.0)
TEST_REAL_EQUAL(rd2.getDimension(), 1.0)
TEST_EQUAL(rd2.getSize(), 4)
TEST_REAL_EQUAL(rd2[0], 1.1)
TEST_REAL_EQUAL(rd2[1], 1.2)
TEST_REAL_EQUAL(rd2[2], 1.3)
TEST_REAL_EQUAL(rd2[3], 1.4)
RESULT
CHECK(bool operator == (const TRegularData1D& data) const throw())
rd.clear();
rd.resize(4);
rd[0] = 1.1;
rd[1] = 1.2;
rd[2] = 1.3;
rd[3] = 1.4;
RegularData1D rd2 = rd;
TEST_EQUAL(rd == rd2, true)
rd2[3] = 1.41;
TEST_EQUAL(rd == rd2, false)
rd2[3] = 1.4;
TEST_EQUAL(rd == rd2, true)
rd.setOrigin(1.1);
rd.setDimension(1.4);
TEST_EQUAL(rd == rd2, false)
rd2.setOrigin(1.1);
rd2.setDimension(1.4);
TEST_EQUAL(rd == rd2, true)
RESULT
CHECK(const ValueType& operator [] (const IndexType& index) const throw())
TEST_REAL_EQUAL(rd[0], 1.1)
TEST_REAL_EQUAL(rd[1], 1.2)
TEST_REAL_EQUAL(rd[2], 1.3)
TEST_REAL_EQUAL(rd[3], 1.4)
RESULT
CHECK(const ValueType& getData(const IndexType& index) const)
TEST_REAL_EQUAL(rd.getData(0), 1.1)
TEST_REAL_EQUAL(rd.getData(1), 1.2)
TEST_REAL_EQUAL(rd.getData(2), 1.3)
TEST_REAL_EQUAL(rd.getData(3), 1.4)
TEST_EXCEPTION(Exception::OutOfGrid, rd.getData(4))
RESULT
CHECK(ValueType& operator [] (const IndexType& index) throw())
rd[3] = 2.1;
TEST_REAL_EQUAL(rd[3], 2.1)
rd[3] = 2.2;
TEST_REAL_EQUAL(rd[3], 2.2)
rd[3] = 2.3;
TEST_REAL_EQUAL(rd[3], 2.3)
rd[3] = 2.4;
TEST_REAL_EQUAL(rd[3], 2.4)
RESULT
CHECK(ValueType& getData(const IndexType& index))
rd.getData(0) = 3.1;
TEST_REAL_EQUAL(rd.getData(0), 3.1)
rd.getData(1) = 3.2;
TEST_REAL_EQUAL(rd.getData(1), 3.2)
rd.getData(2) = 3.3;
TEST_REAL_EQUAL(rd.getData(2), 3.3)
rd.getData(3) = 3.4;
TEST_REAL_EQUAL(rd.getData(3), 3.4)
TEST_EXCEPTION(Exception::OutOfGrid, rd.getData(4) = 1.0)
RESULT
RegularData1D rd2;
CHECK(IndexType getSize() const throw())
TEST_EQUAL(rd.getSize(), 4)
TEST_EQUAL(rd2.getSize(), 0)
RESULT
CHECK(const CoordinateType& getOrigin() const throw())
rd.setOrigin(1.1);
rd.setDimension(1.5);
TEST_REAL_EQUAL(rd.getOrigin(), 1.1)
TEST_REAL_EQUAL(rd2.getOrigin(), 0.0)
RESULT
CHECK(const CoordinateType& getDimension() const throw())
TEST_REAL_EQUAL(rd.getDimension(), 1.5)
TEST_REAL_EQUAL(rd2.getDimension(), 0.0)
RESULT
CHECK(TRegularData1D::setOrigin())
rd.setOrigin(-99.9);
rd.setDimension(99.9);
TEST_REAL_EQUAL(rd.getOrigin(), -99.9)
TEST_REAL_EQUAL(rd.getDimension(), 99.9)
rd.setOrigin(99.9);
rd.setDimension(-99.9);
TEST_REAL_EQUAL(rd.getOrigin(), 99.9)
TEST_REAL_EQUAL(rd.getDimension(), -99.9)
RESULT
CHECK(void resize(const IndexType& size))
TEST_EQUAL(rd.getSize(), 4)
rd.resize(99);
TEST_EQUAL(rd.getSize(), 99)
TEST_REAL_EQUAL(rd[98], 0.0)
rd.resize(3);
TEST_EQUAL(rd.getSize(), 3)
TEST_REAL_EQUAL(rd[2], 3.3)
RESULT
/////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////
END_TEST
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