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/********************* */
/*! \file api_guards_black.h
** \verbatim
** Top contributors (to current version):
** Aina Niemetz
** This file is part of the CVC4 project.
** Copyright (c) 2009-2018 by the authors listed in the file AUTHORS
** in the top-level source directory) and their institutional affiliations.
** All rights reserved. See the file COPYING in the top-level source
** directory for licensing information.\endverbatim
**
** \brief Black box testing of the guards of the C++ API functions.
**
** Black box testing of the guards of the C++ API functions.
**/
#include <cxxtest/TestSuite.h>
#include "api/cvc4cpp.h"
using namespace CVC4::api;
class SortBlack : public CxxTest::TestSuite
{
public:
void setUp() override;
void tearDown() override;
void testGetDatatype();
void testInstantiate();
void testGetFunctionArity();
void testGetFunctionDomainSorts();
void testGetFunctionCodomainSort();
void testGetArrayIndexSort();
void testGetArrayElementSort();
void testGetSetElementSort();
void testGetUninterpretedSortName();
void testIsUninterpretedSortParameterized();
void testGetUninterpretedSortParamSorts();
void testGetUninterpretedSortConstructorName();
void testGetUninterpretedSortConstructorArity();
void testGetBVSize();
void testGetFPExponentSize();
void testGetFPSignificandSize();
void testGetDatatypeParamSorts();
void testGetDatatypeArity();
void testGetTupleLength();
void testGetTupleSorts();
private:
Solver d_solver;
};
void SortBlack::setUp() {}
void SortBlack::tearDown() {}
void SortBlack::testGetDatatype()
{
// create datatype sort, check should not fail
DatatypeDecl dtypeSpec("list");
DatatypeConstructorDecl cons("cons");
DatatypeSelectorDecl head("head", d_solver.getIntegerSort());
cons.addSelector(head);
dtypeSpec.addConstructor(cons);
DatatypeConstructorDecl nil("nil");
dtypeSpec.addConstructor(nil);
Sort dtypeSort = d_solver.mkDatatypeSort(dtypeSpec);
TS_ASSERT_THROWS_NOTHING(dtypeSort.getDatatype());
// create bv sort, check should fail
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getDatatype(), CVC4ApiException&);
}
void SortBlack::testInstantiate()
{
// instantiate parametric datatype, check should not fail
Sort sort = d_solver.mkParamSort("T");
DatatypeDecl paramDtypeSpec("paramlist", sort);
DatatypeConstructorDecl paramCons("cons");
DatatypeConstructorDecl paramNil("nil");
DatatypeSelectorDecl paramHead("head", sort);
paramCons.addSelector(paramHead);
paramDtypeSpec.addConstructor(paramCons);
paramDtypeSpec.addConstructor(paramNil);
Sort paramDtypeSort = d_solver.mkDatatypeSort(paramDtypeSpec);
TS_ASSERT_THROWS_NOTHING(
paramDtypeSort.instantiate(std::vector<Sort>{d_solver.getIntegerSort()}));
// instantiate non-parametric datatype sort, check should fail
DatatypeDecl dtypeSpec("list");
DatatypeConstructorDecl cons("cons");
DatatypeSelectorDecl head("head", d_solver.getIntegerSort());
cons.addSelector(head);
dtypeSpec.addConstructor(cons);
DatatypeConstructorDecl nil("nil");
dtypeSpec.addConstructor(nil);
Sort dtypeSort = d_solver.mkDatatypeSort(dtypeSpec);
TS_ASSERT_THROWS(
dtypeSort.instantiate(std::vector<Sort>{d_solver.getIntegerSort()}),
CVC4ApiException&);
}
void SortBlack::testGetFunctionArity()
{
Sort funSort = d_solver.mkFunctionSort(d_solver.mkUninterpretedSort("u"),
d_solver.getIntegerSort());
TS_ASSERT_THROWS_NOTHING(funSort.getFunctionArity());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getFunctionArity(), CVC4ApiException&);
}
void SortBlack::testGetFunctionDomainSorts()
{
Sort funSort = d_solver.mkFunctionSort(d_solver.mkUninterpretedSort("u"),
d_solver.getIntegerSort());
TS_ASSERT_THROWS_NOTHING(funSort.getFunctionDomainSorts());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getFunctionDomainSorts(), CVC4ApiException&);
}
void SortBlack::testGetFunctionCodomainSort()
{
Sort funSort = d_solver.mkFunctionSort(d_solver.mkUninterpretedSort("u"),
d_solver.getIntegerSort());
TS_ASSERT_THROWS_NOTHING(funSort.getFunctionCodomainSort());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getFunctionCodomainSort(), CVC4ApiException&);
}
void SortBlack::testGetArrayIndexSort()
{
Sort elementSort = d_solver.mkBitVectorSort(32);
Sort indexSort = d_solver.mkBitVectorSort(32);
Sort arraySort = d_solver.mkArraySort(indexSort, elementSort);
TS_ASSERT_THROWS_NOTHING(arraySort.getArrayIndexSort());
TS_ASSERT_THROWS(indexSort.getArrayIndexSort(), CVC4ApiException&);
}
void SortBlack::testGetArrayElementSort()
{
Sort elementSort = d_solver.mkBitVectorSort(32);
Sort indexSort = d_solver.mkBitVectorSort(32);
Sort arraySort = d_solver.mkArraySort(indexSort, elementSort);
TS_ASSERT_THROWS_NOTHING(arraySort.getArrayElementSort());
TS_ASSERT_THROWS(indexSort.getArrayElementSort(), CVC4ApiException&);
}
void SortBlack::testGetSetElementSort()
{
Sort setSort = d_solver.mkSetSort(d_solver.getIntegerSort());
TS_ASSERT_THROWS_NOTHING(setSort.getSetElementSort());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getSetElementSort(), CVC4ApiException&);
}
void SortBlack::testGetUninterpretedSortName()
{
Sort uSort = d_solver.mkUninterpretedSort("u");
TS_ASSERT_THROWS_NOTHING(uSort.getUninterpretedSortName());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getUninterpretedSortName(), CVC4ApiException&);
}
void SortBlack::testIsUninterpretedSortParameterized()
{
Sort uSort = d_solver.mkUninterpretedSort("u");
TS_ASSERT_THROWS_NOTHING(uSort.isUninterpretedSortParameterized());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.isUninterpretedSortParameterized(),
CVC4ApiException&);
}
void SortBlack::testGetUninterpretedSortParamSorts()
{
Sort uSort = d_solver.mkUninterpretedSort("u");
TS_ASSERT_THROWS_NOTHING(uSort.getUninterpretedSortParamSorts());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getUninterpretedSortParamSorts(), CVC4ApiException&);
}
void SortBlack::testGetUninterpretedSortConstructorName()
{
Sort sSort = d_solver.mkSortConstructorSort("s", 2);
TS_ASSERT_THROWS_NOTHING(sSort.getSortConstructorName());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getSortConstructorName(), CVC4ApiException&);
}
void SortBlack::testGetUninterpretedSortConstructorArity()
{
Sort sSort = d_solver.mkSortConstructorSort("s", 2);
TS_ASSERT_THROWS_NOTHING(sSort.getSortConstructorArity());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getSortConstructorArity(), CVC4ApiException&);
}
void SortBlack::testGetBVSize()
{
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS_NOTHING(bvSort.getBVSize());
Sort setSort = d_solver.mkSetSort(d_solver.getIntegerSort());
TS_ASSERT_THROWS(setSort.getBVSize(), CVC4ApiException&);
}
void SortBlack::testGetFPExponentSize()
{
Sort fpSort = d_solver.mkFloatingPointSort(4, 8);
TS_ASSERT_THROWS_NOTHING(fpSort.getFPExponentSize());
Sort setSort = d_solver.mkSetSort(d_solver.getIntegerSort());
TS_ASSERT_THROWS(setSort.getFPExponentSize(), CVC4ApiException&);
}
void SortBlack::testGetFPSignificandSize()
{
Sort fpSort = d_solver.mkFloatingPointSort(4, 8);
TS_ASSERT_THROWS_NOTHING(fpSort.getFPSignificandSize());
Sort setSort = d_solver.mkSetSort(d_solver.getIntegerSort());
TS_ASSERT_THROWS(setSort.getFPSignificandSize(), CVC4ApiException&);
}
void SortBlack::testGetDatatypeParamSorts()
{
// create parametric datatype, check should not fail
Sort sort = d_solver.mkParamSort("T");
DatatypeDecl paramDtypeSpec("paramlist", sort);
DatatypeConstructorDecl paramCons("cons");
DatatypeConstructorDecl paramNil("nil");
DatatypeSelectorDecl paramHead("head", sort);
paramCons.addSelector(paramHead);
paramDtypeSpec.addConstructor(paramCons);
paramDtypeSpec.addConstructor(paramNil);
Sort paramDtypeSort = d_solver.mkDatatypeSort(paramDtypeSpec);
TS_ASSERT_THROWS_NOTHING(paramDtypeSort.getDatatypeParamSorts());
// create non-parametric datatype sort, check should fail
DatatypeDecl dtypeSpec("list");
DatatypeConstructorDecl cons("cons");
DatatypeSelectorDecl head("head", d_solver.getIntegerSort());
cons.addSelector(head);
dtypeSpec.addConstructor(cons);
DatatypeConstructorDecl nil("nil");
dtypeSpec.addConstructor(nil);
Sort dtypeSort = d_solver.mkDatatypeSort(dtypeSpec);
TS_ASSERT_THROWS(dtypeSort.getDatatypeParamSorts(), CVC4ApiException&);
}
void SortBlack::testGetDatatypeArity()
{
// create datatype sort, check should not fail
DatatypeDecl dtypeSpec("list");
DatatypeConstructorDecl cons("cons");
DatatypeSelectorDecl head("head", d_solver.getIntegerSort());
cons.addSelector(head);
dtypeSpec.addConstructor(cons);
DatatypeConstructorDecl nil("nil");
dtypeSpec.addConstructor(nil);
Sort dtypeSort = d_solver.mkDatatypeSort(dtypeSpec);
TS_ASSERT_THROWS_NOTHING(dtypeSort.getDatatypeArity());
// create bv sort, check should fail
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getDatatypeArity(), CVC4ApiException&);
}
void SortBlack::testGetTupleLength()
{
Sort tupleSort = d_solver.mkTupleSort(
{d_solver.getIntegerSort(), d_solver.getIntegerSort()});
TS_ASSERT_THROWS_NOTHING(tupleSort.getTupleLength());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getTupleLength(), CVC4ApiException&);
}
void SortBlack::testGetTupleSorts()
{
Sort tupleSort = d_solver.mkTupleSort(
{d_solver.getIntegerSort(), d_solver.getIntegerSort()});
TS_ASSERT_THROWS_NOTHING(tupleSort.getTupleSorts());
Sort bvSort = d_solver.mkBitVectorSort(32);
TS_ASSERT_THROWS(bvSort.getTupleSorts(), CVC4ApiException&);
}
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