From 71d0ce95f1e5ab74f3b0074494d4e8a4137fd079 Mon Sep 17 00:00:00 2001 From: Mathias Preiner Date: Thu, 1 Aug 2019 22:55:25 -0700 Subject: [PATCH] Fix BVGauss unit tests. (#3142) pass_bv_gauss_white.h included bv_gauss.cpp to test the functions in the anonymous namespace, which resulted in ODR (one definition rule) violations reported by ASAN. This commit exposes the functionality required in the unit tests as private static members of the BVGauss class. Since this is a white unit test, we can access private members in the tests. --- src/preprocessing/passes/bv_gauss.cpp | 97 ++---- src/preprocessing/passes/bv_gauss.h | 61 +++- test/unit/preprocessing/pass_bv_gauss_white.h | 324 +++++++++--------- 3 files changed, 248 insertions(+), 234 deletions(-) diff --git a/src/preprocessing/passes/bv_gauss.cpp b/src/preprocessing/passes/bv_gauss.cpp index fccdfa2f9..09d963ba3 100644 --- a/src/preprocessing/passes/bv_gauss.cpp +++ b/src/preprocessing/passes/bv_gauss.cpp @@ -37,47 +37,6 @@ namespace passes { namespace { -/** - * Represents the result of Gaussian Elimination where the solution - * of the given equation system is - * - * INVALID ... i.e., NOT of the form c1*x1 + c2*x2 + ... % p = b, - * where ci, b and p are - * - bit-vector constants - * - extracts or zero extensions on bit-vector constants - * - of arbitrary nesting level - * and p is co-prime to all bit-vector constants for which - * a multiplicative inverse has to be computed. - * - * UNIQUE ... determined for all unknowns, e.g., x = 4 - * - * PARTIAL ... e.g., x = 4 - 2z - * - * NONE ... no solution - * - * Given a matrix A representing an equation system, the resulting - * matrix B after applying GE represents, e.g.: - * - * B = 1 0 0 2 <- UNIQUE - * 0 1 0 3 <- - * 0 0 1 1 <- - * - * B = 1 0 2 4 <- PARTIAL - * 0 1 3 2 <- - * 0 0 1 1 - * - * B = 1 0 0 1 NONE - * 0 1 1 2 - * 0 0 0 2 <- - */ -enum class Result -{ - INVALID, - UNIQUE, - PARTIAL, - NONE -}; - bool is_bv_const(Node n) { if (n.isConst()) { return true; } @@ -96,6 +55,8 @@ Integer get_bv_const_value(Node n) return get_bv_const(n).getConst().getValue(); } +} // namespace + /** * Determines if an overflow may occur in given 'expr'. * @@ -112,7 +73,7 @@ Integer get_bv_const_value(Node n) * will be handled via the default case, which is not incorrect but also not * necessarily the minimum. */ -unsigned getMinBwExpr(Node expr) +unsigned BVGauss::getMinBwExpr(Node expr) { std::vector visit; /* Maps visited nodes to the determined minimum bit-width required. */ @@ -280,10 +241,9 @@ unsigned getMinBwExpr(Node expr) * form) is stored in 'rhs' and 'lhs', i.e., the given matrix is overwritten * with the resulting matrix. */ -Result gaussElim( - Integer prime, - std::vector& rhs, - std::vector>& lhs) +BVGauss::Result BVGauss::gaussElim(Integer prime, + std::vector& rhs, + std::vector>& lhs) { Assert(prime > 0); Assert(lhs.size()); @@ -296,7 +256,7 @@ Result gaussElim( rhs = std::vector(rhs.size(), Integer(0)); lhs = std::vector>( lhs.size(), std::vector(lhs[0].size(), Integer(0))); - return Result::UNIQUE; + return BVGauss::Result::UNIQUE; } size_t nrows = lhs.size(); @@ -361,7 +321,7 @@ Result gaussElim( Integer inv = lhs[j][pcol].modInverse(prime); if (inv == -1) { - return Result::INVALID; /* not coprime */ + return BVGauss::Result::INVALID; /* not coprime */ } for (size_t k = pcol; k < ncols; ++k) { @@ -409,7 +369,7 @@ Result gaussElim( if (rhs[i] != 0) { /* no solution */ - return Result::NONE; + return BVGauss::Result::NONE; } continue; } @@ -426,9 +386,12 @@ Result gaussElim( } } - if (ispart) { return Result::PARTIAL; } + if (ispart) + { + return BVGauss::Result::PARTIAL; + } - return Result::UNIQUE; + return BVGauss::Result::UNIQUE; } /** @@ -452,7 +415,7 @@ Result gaussElim( * to result (modulo prime). These mapped results are added as constraints * of the form 'unknown = mapped result' in applyInternal. */ -Result gaussElimRewriteForUrem( +BVGauss::Result BVGauss::gaussElimRewriteForUrem( const std::vector& equations, std::unordered_map& res) { @@ -493,7 +456,7 @@ Result gaussElimRewriteForUrem( << "Minimum required bit-width exceeds given bit-width, " "will not apply Gaussian Elimination." << std::endl; - return Result::INVALID; + return BVGauss::Result::INVALID; } rhs.push_back(get_bv_const_value(eqrhs)); @@ -613,7 +576,7 @@ Result gaussElimRewriteForUrem( if (nrows < 1) { - return Result::INVALID; + return BVGauss::Result::INVALID; } for (size_t i = 0; i < nrows; ++i) @@ -631,13 +594,13 @@ Result gaussElimRewriteForUrem( if (lhs.size() > lhs[0].size()) { - return Result::INVALID; + return BVGauss::Result::INVALID; } Trace("bv-gauss-elim") << "Applying Gaussian Elimination..." << std::endl; - Result ret = gaussElim(iprime, rhs, lhs); + BVGauss::Result ret = gaussElim(iprime, rhs, lhs); - if (ret != Result::NONE && ret != Result::INVALID) + if (ret != BVGauss::Result::NONE && ret != BVGauss::Result::INVALID) { std::vector vvars; for (const auto& p : vars) { vvars.push_back(p.first); } @@ -645,7 +608,7 @@ Result gaussElimRewriteForUrem( Assert(nrows == lhs.size()); Assert(nrows == rhs.size()); NodeManager *nm = NodeManager::currentNM(); - if (ret == Result::UNIQUE) + if (ret == BVGauss::Result::UNIQUE) { for (size_t i = 0; i < nvars; ++i) { @@ -655,7 +618,7 @@ Result gaussElimRewriteForUrem( } else { - Assert(ret == Result::PARTIAL); + Assert(ret == BVGauss::Result::PARTIAL); for (size_t pcol = 0, prow = 0; pcol < nvars && prow < nrows; ++pcol, ++prow) @@ -712,10 +675,6 @@ Result gaussElimRewriteForUrem( return ret; } -} // namespace - - - BVGauss::BVGauss(PreprocessingPassContext* preprocContext) : PreprocessingPass(preprocContext, "bv-gauss") { @@ -772,20 +731,20 @@ PreprocessingPassResult BVGauss::applyInternal( if (eq.second.size() <= 1) { continue; } std::unordered_map res; - Result ret = gaussElimRewriteForUrem(eq.second, res); + BVGauss::Result ret = gaussElimRewriteForUrem(eq.second, res); Trace("bv-gauss-elim") << "result: " - << (ret == Result::INVALID + << (ret == BVGauss::Result::INVALID ? "INVALID" - : (ret == Result::UNIQUE + : (ret == BVGauss::Result::UNIQUE ? "UNIQUE" - : (ret == Result::PARTIAL + : (ret == BVGauss::Result::PARTIAL ? "PARTIAL" : "NONE"))) << std::endl; - if (ret != Result::INVALID) + if (ret != BVGauss::Result::INVALID) { NodeManager *nm = NodeManager::currentNM(); - if (ret == Result::NONE) + if (ret == BVGauss::Result::NONE) { atpp.clear(); atpp.push_back(nm->mkConst(false)); diff --git a/src/preprocessing/passes/bv_gauss.h b/src/preprocessing/passes/bv_gauss.h index 862777a9b..93d61be9e 100644 --- a/src/preprocessing/passes/bv_gauss.h +++ b/src/preprocessing/passes/bv_gauss.h @@ -30,7 +30,7 @@ namespace passes { class BVGauss : public PreprocessingPass { public: - BVGauss(PreprocessingPassContext* preprocContext); + BVGauss(PreprocessingPassContext* preprocContext); protected: /** @@ -42,8 +42,63 @@ class BVGauss : public PreprocessingPass * succeed modulo a prime number, which is not necessarily the case if a * given set of equations is modulo a non-prime number. */ - PreprocessingPassResult applyInternal( - AssertionPipeline* assertionsToPreprocess) override; + PreprocessingPassResult applyInternal( + AssertionPipeline* assertionsToPreprocess) override; + + private: + /* Note: The following functionality is only exposed for unit testing in + * pass_bv_gauss_white.h. */ + + /** + * Represents the result of Gaussian Elimination where the solution + * of the given equation system is + * + * INVALID ... i.e., NOT of the form c1*x1 + c2*x2 + ... % p = b, + * where ci, b and p are + * - bit-vector constants + * - extracts or zero extensions on bit-vector constants + * - of arbitrary nesting level + * and p is co-prime to all bit-vector constants for which + * a multiplicative inverse has to be computed. + * + * UNIQUE ... determined for all unknowns, e.g., x = 4 + * + * PARTIAL ... e.g., x = 4 - 2z + * + * NONE ... no solution + * + * Given a matrix A representing an equation system, the resulting + * matrix B after applying GE represents, e.g.: + * + * B = 1 0 0 2 <- UNIQUE + * 0 1 0 3 <- + * 0 0 1 1 <- + * + * B = 1 0 2 4 <- PARTIAL + * 0 1 3 2 <- + * 0 0 1 1 + * + * B = 1 0 0 1 NONE + * 0 1 1 2 + * 0 0 0 2 <- + */ + enum class Result + { + INVALID, + UNIQUE, + PARTIAL, + NONE + }; + + static Result gaussElim(Integer prime, + std::vector& rhs, + std::vector>& lhs); + + static Result gaussElimRewriteForUrem( + const std::vector& equations, + std::unordered_map& res); + + static unsigned getMinBwExpr(Node expr); }; } // namespace passes diff --git a/test/unit/preprocessing/pass_bv_gauss_white.h b/test/unit/preprocessing/pass_bv_gauss_white.h index e027fb5e8..7f7af40b9 100644 --- a/test/unit/preprocessing/pass_bv_gauss_white.h +++ b/test/unit/preprocessing/pass_bv_gauss_white.h @@ -17,8 +17,7 @@ #include "context/context.h" #include "expr/node.h" #include "expr/node_manager.h" -#include "preprocessing/passes/bv_gauss.cpp" -#include "preprocessing/preprocessing_pass.h" +#include "preprocessing/passes/bv_gauss.h" #include "smt/smt_engine.h" #include "smt/smt_engine_scope.h" #include "theory/bv/theory_bv_utils.h" @@ -31,6 +30,7 @@ using namespace CVC4; using namespace CVC4::preprocessing; +using namespace CVC4::preprocessing::passes; using namespace CVC4::theory; using namespace CVC4::smt; @@ -51,13 +51,13 @@ static void print_matrix_dbg(std::vector &rhs, static void testGaussElimX(Integer prime, std::vector rhs, std::vector> lhs, - passes::Result expected, - std::vector *rrhs = nullptr, - std::vector> *rlhs = nullptr) + BVGauss::Result expected, + std::vector* rrhs = nullptr, + std::vector>* rlhs = nullptr) { size_t nrows = lhs.size(); size_t ncols = lhs[0].size(); - passes::Result ret; + BVGauss::Result ret; std::vector resrhs = std::vector(rhs); std::vector> reslhs = std::vector>(lhs); @@ -65,21 +65,21 @@ static void testGaussElimX(Integer prime, std::cout << "Input: " << std::endl; print_matrix_dbg(rhs, lhs); - ret = passes::gaussElim(prime, resrhs, reslhs); + ret = BVGauss::gaussElim(prime, resrhs, reslhs); - std::cout << "passes::Result: " - << (ret == passes::Result::INVALID + std::cout << "BVGauss::Result: " + << (ret == BVGauss::Result::INVALID ? "INVALID" - : (ret == passes::Result::UNIQUE + : (ret == BVGauss::Result::UNIQUE ? "UNIQUE" - : (ret == passes::Result::PARTIAL ? "PARTIAL" - : "NONE"))) + : (ret == BVGauss::Result::PARTIAL ? "PARTIAL" + : "NONE"))) << std::endl; print_matrix_dbg(resrhs, reslhs); TS_ASSERT_EQUALS(expected, ret); - if (expected == passes::Result::UNIQUE) + if (expected == BVGauss::Result::UNIQUE) { /* map result value to column index * e.g.: @@ -121,7 +121,7 @@ static void testGaussElimT(Integer prime, std::vector rhs, std::vector> lhs) { - TS_ASSERT_THROWS(passes::gaussElim(prime, rhs, lhs), T); + TS_ASSERT_THROWS(BVGauss::gaussElim(prime, rhs, lhs), T); } class TheoryBVGaussWhite : public CxxTest::TestSuite @@ -321,27 +321,27 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite std::cout << "matrix 0, modulo 0" << std::endl; // throws testGaussElimT(Integer(0), rhs, lhs); std::cout << "matrix 0, modulo 1" << std::endl; - testGaussElimX(Integer(1), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(1), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 0, modulo 2" << std::endl; - testGaussElimX(Integer(2), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(2), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 0, modulo 3" << std::endl; - testGaussElimX(Integer(3), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(3), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 0, modulo 4" << std::endl; // no inverse - testGaussElimX(Integer(4), rhs, lhs, passes::Result::INVALID); + testGaussElimX(Integer(4), rhs, lhs, BVGauss::Result::INVALID); std::cout << "matrix 0, modulo 5" << std::endl; - testGaussElimX(Integer(5), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(5), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 0, modulo 6" << std::endl; // no inverse - testGaussElimX(Integer(6), rhs, lhs, passes::Result::INVALID); + testGaussElimX(Integer(6), rhs, lhs, BVGauss::Result::INVALID); std::cout << "matrix 0, modulo 7" << std::endl; - testGaussElimX(Integer(7), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(7), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 0, modulo 8" << std::endl; // no inverse - testGaussElimX(Integer(8), rhs, lhs, passes::Result::INVALID); + testGaussElimX(Integer(8), rhs, lhs, BVGauss::Result::INVALID); std::cout << "matrix 0, modulo 9" << std::endl; - testGaussElimX(Integer(9), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(9), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 0, modulo 10" << std::endl; // no inverse - testGaussElimX(Integer(10), rhs, lhs, passes::Result::INVALID); + testGaussElimX(Integer(10), rhs, lhs, BVGauss::Result::INVALID); std::cout << "matrix 0, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimUniqueDone() @@ -361,7 +361,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(1), Integer(0)}, {Integer(0), Integer(0), Integer(1)}}; std::cout << "matrix 1, modulo 17" << std::endl; - testGaussElimX(Integer(17), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(17), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimUnique() @@ -381,11 +381,11 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(4), Integer(5), Integer(6)}, {Integer(3), Integer(1), Integer(-2)}}; std::cout << "matrix 2, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 2, modulo 17" << std::endl; - testGaussElimX(Integer(17), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(17), rhs, lhs, BVGauss::Result::UNIQUE); std::cout << "matrix 2, modulo 59" << std::endl; - testGaussElimX(Integer(59), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(59), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -401,7 +401,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(1), Integer(-1), Integer(-1), Integer(-2)}, {Integer(2), Integer(-1), Integer(2), Integer(-1)}}; std::cout << "matrix 3, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimUniqueZero1() @@ -421,7 +421,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(1), Integer(1), Integer(1)}, {Integer(3), Integer(2), Integer(5)}}; std::cout << "matrix 4, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -435,7 +435,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(4), Integer(5)}, {Integer(3), Integer(2), Integer(5)}}; std::cout << "matrix 5, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -449,7 +449,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(3), Integer(2), Integer(5)}, {Integer(0), Integer(4), Integer(5)}}; std::cout << "matrix 6, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimUniqueZero2() @@ -469,7 +469,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(1), Integer(1), Integer(1)}, {Integer(3), Integer(2), Integer(5)}}; std::cout << "matrix 7, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -483,7 +483,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(5)}, {Integer(3), Integer(2), Integer(5)}}; std::cout << "matrix 8, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -497,7 +497,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(3), Integer(2), Integer(5)}, {Integer(0), Integer(0), Integer(5)}}; std::cout << "matrix 9, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimUniqueZero3() @@ -517,7 +517,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(4), Integer(0), Integer(6)}}; std::cout << "matrix 10, modulo 7" << std::endl; - testGaussElimX(Integer(7), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(7), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 7 @@ -531,7 +531,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(4), Integer(6), Integer(0)}}; std::cout << "matrix 11, modulo 7" << std::endl; - testGaussElimX(Integer(7), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(7), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimUniqueZero4() @@ -551,7 +551,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(0), Integer(0), Integer(5)}}; std::cout << "matrix 12, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -565,7 +565,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(3), Integer(5)}, {Integer(0), Integer(0), Integer(0)}}; std::cout << "matrix 13, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -579,7 +579,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(3), Integer(5)}, {Integer(0), Integer(0), Integer(5)}}; std::cout << "matrix 14, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -593,7 +593,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(4), Integer(0), Integer(5)}}; std::cout << "matrix 15, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -607,7 +607,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(0), Integer(5)}, {Integer(0), Integer(0), Integer(0)}}; std::cout << "matrix 16, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -621,7 +621,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(0), Integer(5)}, {Integer(4), Integer(0), Integer(5)}}; std::cout << "matrix 17, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -635,7 +635,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(4), Integer(0), Integer(0)}}; std::cout << "matrix 18, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -649,7 +649,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(3), Integer(0)}, {Integer(0), Integer(0), Integer(0)}}; std::cout << "matrix 18, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -663,7 +663,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(3), Integer(0)}, {Integer(4), Integer(0), Integer(0)}}; std::cout << "matrix 19, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs modulo 2 @@ -682,7 +682,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(2), rhs, lhs, passes::Result::UNIQUE, &resrhs, &reslhs); + Integer(2), rhs, lhs, BVGauss::Result::UNIQUE, &resrhs, &reslhs); } void testGaussElimUniquePartial() @@ -700,7 +700,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite lhs = {{Integer(2), Integer(0), Integer(6)}, {Integer(4), Integer(0), Integer(6)}}; std::cout << "matrix 21, modulo 7" << std::endl; - testGaussElimX(Integer(7), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(7), rhs, lhs, BVGauss::Result::UNIQUE); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 7 @@ -712,7 +712,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite lhs = {{Integer(2), Integer(6), Integer(0)}, {Integer(4), Integer(6), Integer(0)}}; std::cout << "matrix 22, modulo 7" << std::endl; - testGaussElimX(Integer(7), rhs, lhs, passes::Result::UNIQUE); + testGaussElimX(Integer(7), rhs, lhs, BVGauss::Result::UNIQUE); } void testGaussElimNone() @@ -732,7 +732,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(4), Integer(5), Integer(6)}, {Integer(3), Integer(1), Integer(-2)}}; std::cout << "matrix 23, modulo 9" << std::endl; - testGaussElimX(Integer(9), rhs, lhs, passes::Result::INVALID); + testGaussElimX(Integer(9), rhs, lhs, BVGauss::Result::INVALID); /* ------------------------------------------------------------------- * lhs rhs modulo 59 @@ -746,7 +746,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(4), Integer(12)}, {Integer(1), Integer(-4), Integer(-12)}}; std::cout << "matrix 24, modulo 59" << std::endl; - testGaussElimX(Integer(59), rhs, lhs, passes::Result::NONE); + testGaussElimX(Integer(59), rhs, lhs, BVGauss::Result::NONE); /* ------------------------------------------------------------------- * lhs rhs modulo 9 @@ -760,7 +760,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(4), Integer(5), Integer(6)}, {Integer(2), Integer(7), Integer(12)}}; std::cout << "matrix 25, modulo 9" << std::endl; - testGaussElimX(Integer(9), rhs, lhs, passes::Result::INVALID); + testGaussElimX(Integer(9), rhs, lhs, BVGauss::Result::INVALID); } void testGaussElimNoneZero() @@ -780,7 +780,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(3), Integer(5)}, {Integer(0), Integer(0), Integer(5)}}; std::cout << "matrix 26, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::NONE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::NONE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -794,7 +794,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(0), Integer(5)}, {Integer(4), Integer(0), Integer(5)}}; std::cout << "matrix 27, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::NONE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::NONE); /* ------------------------------------------------------------------- * lhs rhs modulo 11 @@ -808,7 +808,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(2), Integer(3), Integer(0)}, {Integer(4), Integer(0), Integer(0)}}; std::cout << "matrix 28, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::NONE); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::NONE); } void testGaussElimPartial1() @@ -826,7 +826,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite lhs = {{Integer(1), Integer(0), Integer(9)}, {Integer(0), Integer(1), Integer(3)}}; std::cout << "matrix 29, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::PARTIAL); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::PARTIAL); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -838,7 +838,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite lhs = {{Integer(1), Integer(3), Integer(0)}, {Integer(0), Integer(0), Integer(1)}}; std::cout << "matrix 30, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::PARTIAL); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::PARTIAL); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -850,7 +850,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite lhs = {{Integer(1), Integer(1), Integer(1)}, {Integer(2), Integer(3), Integer(5)}}; std::cout << "matrix 31, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::PARTIAL); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::PARTIAL); /* ------------------------------------------------------------------- * lhs rhs modulo { 3, 5, 7, 11, 17, 31, 59 } @@ -869,38 +869,38 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(3), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(3), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); resrhs = {Integer(1), Integer(4), Integer(0)}; std::cout << "matrix 32, modulo 5" << std::endl; reslhs = {{Integer(1), Integer(0), Integer(4)}, {Integer(0), Integer(1), Integer(2)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(5), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(5), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); std::cout << "matrix 32, modulo 7" << std::endl; reslhs = {{Integer(1), Integer(0), Integer(6)}, {Integer(0), Integer(1), Integer(2)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(7), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(7), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); std::cout << "matrix 32, modulo 11" << std::endl; reslhs = {{Integer(1), Integer(0), Integer(10)}, {Integer(0), Integer(1), Integer(2)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(11), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(11), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); std::cout << "matrix 32, modulo 17" << std::endl; reslhs = {{Integer(1), Integer(0), Integer(16)}, {Integer(0), Integer(1), Integer(2)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(17), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(17), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); std::cout << "matrix 32, modulo 59" << std::endl; reslhs = {{Integer(1), Integer(0), Integer(58)}, {Integer(0), Integer(1), Integer(2)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(59), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(59), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 3 @@ -919,7 +919,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(0)}, {Integer(0), Integer(0), Integer(0)}}; testGaussElimX( - Integer(3), rhs, lhs, passes::Result::PARTIAL, &resrhs, &reslhs); + Integer(3), rhs, lhs, BVGauss::Result::PARTIAL, &resrhs, &reslhs); } void testGaussElimPartial2() @@ -940,7 +940,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite {Integer(0), Integer(0), Integer(2), Integer(2)}, {Integer(0), Integer(0), Integer(1), Integer(0)}}; std::cout << "matrix 34, modulo 11" << std::endl; - testGaussElimX(Integer(11), rhs, lhs, passes::Result::PARTIAL); + testGaussElimX(Integer(11), rhs, lhs, BVGauss::Result::PARTIAL); } void testGaussElimRewriteForUremUnique1() { @@ -984,8 +984,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite std::vector eqs = {eq1, eq2, eq3}; std::unordered_map res; - passes::Result ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::UNIQUE); + BVGauss::Result ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::UNIQUE); TS_ASSERT(res.size() == 3); TS_ASSERT(res[d_x] == d_three32); TS_ASSERT(res[d_y] == d_four32); @@ -1083,8 +1083,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite std::vector eqs = {eq1, eq2, eq3}; std::unordered_map res; - passes::Result ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::UNIQUE); + BVGauss::Result ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::UNIQUE); TS_ASSERT(res.size() == 3); TS_ASSERT(res[d_x] == d_three32); TS_ASSERT(res[d_y] == d_four32); @@ -1094,7 +1094,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial1() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -1120,8 +1120,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_nine); std::vector eqs = {eq1, eq2}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); Node x1 = d_nm->mkNode( @@ -1212,7 +1212,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial1a() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -1236,8 +1236,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_nine); std::vector eqs = {eq1, eq2}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); Node x1 = d_nm->mkNode( @@ -1328,7 +1328,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial2() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -1351,8 +1351,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_nine); std::vector eqs = {eq1, eq2}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); Node x1 = d_nm->mkNode( @@ -1414,7 +1414,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial3() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -1445,8 +1445,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_eight); std::vector eqs = {eq1, eq2}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); Node x1 = d_nm->mkNode( @@ -1535,7 +1535,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial4() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -1579,8 +1579,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_thirty); std::vector eqs = {eq1, eq2, eq3}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); Node x1 = d_nm->mkNode( @@ -1677,7 +1677,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial5() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 3 @@ -1721,8 +1721,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_thirty); std::vector eqs = {eq1, eq2, eq3}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 1); Node x1 = d_nm->mkNode(kind::BITVECTOR_UREM, @@ -1784,7 +1784,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremPartial6() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs --> lhs rhs modulo 11 @@ -1828,8 +1828,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_two); std::vector eqs = {eq1, eq2, eq3}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 3); Node x1 = d_nm->mkNode( @@ -1872,7 +1872,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremWithExprPartial() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -1919,8 +1919,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_nine); std::vector eqs = {eq1, eq2}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); x = Rewriter::rewrite(x); @@ -2015,7 +2015,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremNAryPartial() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * lhs rhs lhs rhs modulo 11 @@ -2082,8 +2082,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite d_nine); std::vector eqs = {eq1, eq2}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::PARTIAL); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::PARTIAL); TS_ASSERT(res.size() == 2); x_mul_xx = Rewriter::rewrite(x_mul_xx); @@ -2178,7 +2178,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremNotInvalid1() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * 3x / 2z = 4 modulo 11 @@ -2208,8 +2208,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite kind::EQUAL, d_nm->mkNode(kind::BITVECTOR_UREM, n3, d_p), d_five); std::vector eqs = {eq1, eq2, eq3}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::UNIQUE); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::UNIQUE); TS_ASSERT(res.size() == 3); TS_ASSERT(res[n1] == d_four32); @@ -2220,7 +2220,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremNotInvalid2() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * x*y = 4 modulo 11 @@ -2267,8 +2267,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite bv::utils::mkConcat(d_zero, d_nine)); std::vector eqs = {eq1, eq2, eq3}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::UNIQUE); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::UNIQUE); TS_ASSERT(res.size() == 3); n1 = Rewriter::rewrite(n1); @@ -2289,7 +2289,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGaussElimRewriteForUremInvalid() { std::unordered_map res; - passes::Result ret; + BVGauss::Result ret; /* ------------------------------------------------------------------- * x*y = 4 modulo 11 @@ -2332,8 +2332,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite bv::utils::mkConcat(d_zero, d_nine)); std::vector eqs = {eq1, eq2, eq3}; - ret = passes::gaussElimRewriteForUrem(eqs, res); - TS_ASSERT(ret == passes::Result::INVALID); + ret = BVGauss::gaussElimRewriteForUrem(eqs, res); + TS_ASSERT(ret == BVGauss::Result::INVALID); } void testGaussElimRewriteUnique1() @@ -2590,15 +2590,15 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite void testGetMinBw1() { - TS_ASSERT(passes::getMinBwExpr(bv::utils::mkConst(32, 11)) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(bv::utils::mkConst(32, 11)) == 4); - TS_ASSERT(passes::getMinBwExpr(d_p) == 4); - TS_ASSERT(passes::getMinBwExpr(d_x) == 16); + TS_ASSERT(BVGauss::getMinBwExpr(d_p) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(d_x) == 16); Node extp = bv::utils::mkExtract(d_p, 4, 0); - TS_ASSERT(passes::getMinBwExpr(extp) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(extp) == 4); Node extx = bv::utils::mkExtract(d_x, 4, 0); - TS_ASSERT(passes::getMinBwExpr(extx) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(extx) == 5); Node zextop8 = d_nm->mkConst(BitVectorZeroExtend(8)); Node zextop16 = d_nm->mkConst(BitVectorZeroExtend(16)); @@ -2606,132 +2606,132 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite Node zextop40 = d_nm->mkConst(BitVectorZeroExtend(40)); Node zext40p = d_nm->mkNode(zextop8, d_p); - TS_ASSERT(passes::getMinBwExpr(zext40p) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(zext40p) == 4); Node zext40x = d_nm->mkNode(zextop8, d_x); - TS_ASSERT(passes::getMinBwExpr(zext40x) == 16); + TS_ASSERT(BVGauss::getMinBwExpr(zext40x) == 16); Node zext48p = d_nm->mkNode(zextop16, d_p); - TS_ASSERT(passes::getMinBwExpr(zext48p) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(zext48p) == 4); Node zext48x = d_nm->mkNode(zextop16, d_x); - TS_ASSERT(passes::getMinBwExpr(zext48x) == 16); + TS_ASSERT(BVGauss::getMinBwExpr(zext48x) == 16); Node p8 = d_nm->mkConst(BitVector(8, 11u)); Node x8 = d_nm->mkVar("x8", d_nm->mkBitVectorType(8)); Node zext48p8 = d_nm->mkNode(zextop40, p8); - TS_ASSERT(passes::getMinBwExpr(zext48p8) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(zext48p8) == 4); Node zext48x8 = d_nm->mkNode(zextop40, x8); - TS_ASSERT(passes::getMinBwExpr(zext48x8) == 8); + TS_ASSERT(BVGauss::getMinBwExpr(zext48x8) == 8); Node mult1p = d_nm->mkNode(kind::BITVECTOR_MULT, extp, extp); - TS_ASSERT(passes::getMinBwExpr(mult1p) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(mult1p) == 5); Node mult1x = d_nm->mkNode(kind::BITVECTOR_MULT, extx, extx); - TS_ASSERT(passes::getMinBwExpr(mult1x) == 0); + TS_ASSERT(BVGauss::getMinBwExpr(mult1x) == 0); Node mult2p = d_nm->mkNode(kind::BITVECTOR_MULT, zext40p, zext40p); - TS_ASSERT(passes::getMinBwExpr(mult2p) == 7); + TS_ASSERT(BVGauss::getMinBwExpr(mult2p) == 7); Node mult2x = d_nm->mkNode(kind::BITVECTOR_MULT, zext40x, zext40x); - TS_ASSERT(passes::getMinBwExpr(mult2x) == 32); + TS_ASSERT(BVGauss::getMinBwExpr(mult2x) == 32); NodeBuilder<> nbmult3p(kind::BITVECTOR_MULT); nbmult3p << zext48p << zext48p << zext48p; Node mult3p = nbmult3p; - TS_ASSERT(passes::getMinBwExpr(mult3p) == 11); + TS_ASSERT(BVGauss::getMinBwExpr(mult3p) == 11); NodeBuilder<> nbmult3x(kind::BITVECTOR_MULT); nbmult3x << zext48x << zext48x << zext48x; Node mult3x = nbmult3x; - TS_ASSERT(passes::getMinBwExpr(mult3x) == 48); + TS_ASSERT(BVGauss::getMinBwExpr(mult3x) == 48); NodeBuilder<> nbmult4p(kind::BITVECTOR_MULT); nbmult4p << zext48p << zext48p8 << zext48p; Node mult4p = nbmult4p; - TS_ASSERT(passes::getMinBwExpr(mult4p) == 11); + TS_ASSERT(BVGauss::getMinBwExpr(mult4p) == 11); NodeBuilder<> nbmult4x(kind::BITVECTOR_MULT); nbmult4x << zext48x << zext48x8 << zext48x; Node mult4x = nbmult4x; - TS_ASSERT(passes::getMinBwExpr(mult4x) == 40); + TS_ASSERT(BVGauss::getMinBwExpr(mult4x) == 40); Node concat1p = bv::utils::mkConcat(d_p, zext48p); - TS_ASSERT(passes::getMinBwExpr(concat1p) == 52); + TS_ASSERT(BVGauss::getMinBwExpr(concat1p) == 52); Node concat1x = bv::utils::mkConcat(d_x, zext48x); - TS_ASSERT(passes::getMinBwExpr(concat1x) == 64); + TS_ASSERT(BVGauss::getMinBwExpr(concat1x) == 64); Node concat2p = bv::utils::mkConcat(bv::utils::mkZero(16), zext48p); - TS_ASSERT(passes::getMinBwExpr(concat2p) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(concat2p) == 4); Node concat2x = bv::utils::mkConcat(bv::utils::mkZero(16), zext48x); - TS_ASSERT(passes::getMinBwExpr(concat2x) == 16); + TS_ASSERT(BVGauss::getMinBwExpr(concat2x) == 16); Node udiv1p = d_nm->mkNode(kind::BITVECTOR_UDIV_TOTAL, zext48p, zext48p); - TS_ASSERT(passes::getMinBwExpr(udiv1p) == 1); + TS_ASSERT(BVGauss::getMinBwExpr(udiv1p) == 1); Node udiv1x = d_nm->mkNode(kind::BITVECTOR_UDIV_TOTAL, zext48x, zext48x); - TS_ASSERT(passes::getMinBwExpr(udiv1x) == 48); + TS_ASSERT(BVGauss::getMinBwExpr(udiv1x) == 48); Node udiv2p = d_nm->mkNode(kind::BITVECTOR_UDIV_TOTAL, zext48p, zext48p8); - TS_ASSERT(passes::getMinBwExpr(udiv2p) == 1); + TS_ASSERT(BVGauss::getMinBwExpr(udiv2p) == 1); Node udiv2x = d_nm->mkNode(kind::BITVECTOR_UDIV_TOTAL, zext48x, zext48x8); - TS_ASSERT(passes::getMinBwExpr(udiv2x) == 48); + TS_ASSERT(BVGauss::getMinBwExpr(udiv2x) == 48); Node urem1p = d_nm->mkNode(kind::BITVECTOR_UREM_TOTAL, zext48p, zext48p); - TS_ASSERT(passes::getMinBwExpr(urem1p) == 1); + TS_ASSERT(BVGauss::getMinBwExpr(urem1p) == 1); Node urem1x = d_nm->mkNode(kind::BITVECTOR_UREM_TOTAL, zext48x, zext48x); - TS_ASSERT(passes::getMinBwExpr(urem1x) == 1); + TS_ASSERT(BVGauss::getMinBwExpr(urem1x) == 1); Node urem2p = d_nm->mkNode(kind::BITVECTOR_UREM_TOTAL, zext48p, zext48p8); - TS_ASSERT(passes::getMinBwExpr(urem2p) == 1); + TS_ASSERT(BVGauss::getMinBwExpr(urem2p) == 1); Node urem2x = d_nm->mkNode(kind::BITVECTOR_UREM_TOTAL, zext48x, zext48x8); - TS_ASSERT(passes::getMinBwExpr(urem2x) == 16); + TS_ASSERT(BVGauss::getMinBwExpr(urem2x) == 16); Node urem3p = d_nm->mkNode(kind::BITVECTOR_UREM_TOTAL, zext48p8, zext48p); - TS_ASSERT(passes::getMinBwExpr(urem3p) == 1); + TS_ASSERT(BVGauss::getMinBwExpr(urem3p) == 1); Node urem3x = d_nm->mkNode(kind::BITVECTOR_UREM_TOTAL, zext48x8, zext48x); - TS_ASSERT(passes::getMinBwExpr(urem3x) == 8); + TS_ASSERT(BVGauss::getMinBwExpr(urem3x) == 8); Node add1p = d_nm->mkNode(kind::BITVECTOR_PLUS, extp, extp); - TS_ASSERT(passes::getMinBwExpr(add1p) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(add1p) == 5); Node add1x = d_nm->mkNode(kind::BITVECTOR_PLUS, extx, extx); - TS_ASSERT(passes::getMinBwExpr(add1x) == 0); + TS_ASSERT(BVGauss::getMinBwExpr(add1x) == 0); Node add2p = d_nm->mkNode(kind::BITVECTOR_PLUS, zext40p, zext40p); - TS_ASSERT(passes::getMinBwExpr(add2p) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(add2p) == 5); Node add2x = d_nm->mkNode(kind::BITVECTOR_PLUS, zext40x, zext40x); - TS_ASSERT(passes::getMinBwExpr(add2x) == 17); + TS_ASSERT(BVGauss::getMinBwExpr(add2x) == 17); Node add3p = d_nm->mkNode(kind::BITVECTOR_PLUS, zext48p8, zext48p); - TS_ASSERT(passes::getMinBwExpr(add3p) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(add3p) == 5); Node add3x = d_nm->mkNode(kind::BITVECTOR_PLUS, zext48x8, zext48x); - TS_ASSERT(passes::getMinBwExpr(add3x) == 17); + TS_ASSERT(BVGauss::getMinBwExpr(add3x) == 17); NodeBuilder<> nbadd4p(kind::BITVECTOR_PLUS); nbadd4p << zext48p << zext48p << zext48p; Node add4p = nbadd4p; - TS_ASSERT(passes::getMinBwExpr(add4p) == 6); + TS_ASSERT(BVGauss::getMinBwExpr(add4p) == 6); NodeBuilder<> nbadd4x(kind::BITVECTOR_PLUS); nbadd4x << zext48x << zext48x << zext48x; Node add4x = nbadd4x; - TS_ASSERT(passes::getMinBwExpr(add4x) == 18); + TS_ASSERT(BVGauss::getMinBwExpr(add4x) == 18); NodeBuilder<> nbadd5p(kind::BITVECTOR_PLUS); nbadd5p << zext48p << zext48p8 << zext48p; Node add5p = nbadd5p; - TS_ASSERT(passes::getMinBwExpr(add5p) == 6); + TS_ASSERT(BVGauss::getMinBwExpr(add5p) == 6); NodeBuilder<> nbadd5x(kind::BITVECTOR_PLUS); nbadd5x << zext48x << zext48x8 << zext48x; Node add5x = nbadd5x; - TS_ASSERT(passes::getMinBwExpr(add5x) == 18); + TS_ASSERT(BVGauss::getMinBwExpr(add5x) == 18); NodeBuilder<> nbadd6p(kind::BITVECTOR_PLUS); nbadd6p << zext48p << zext48p << zext48p << zext48p; Node add6p = nbadd6p; - TS_ASSERT(passes::getMinBwExpr(add6p) == 6); + TS_ASSERT(BVGauss::getMinBwExpr(add6p) == 6); NodeBuilder<> nbadd6x(kind::BITVECTOR_PLUS); nbadd6x << zext48x << zext48x << zext48x << zext48x; Node add6x = nbadd6x; - TS_ASSERT(passes::getMinBwExpr(add6x) == 18); + TS_ASSERT(BVGauss::getMinBwExpr(add6x) == 18); Node not1p = d_nm->mkNode(kind::BITVECTOR_NOT, zext40p); - TS_ASSERT(passes::getMinBwExpr(not1p) == 40); + TS_ASSERT(BVGauss::getMinBwExpr(not1p) == 40); Node not1x = d_nm->mkNode(kind::BITVECTOR_NOT, zext40x); - TS_ASSERT(passes::getMinBwExpr(not1x) == 40); + TS_ASSERT(BVGauss::getMinBwExpr(not1x) == 40); } void testGetMinBw2() @@ -2743,7 +2743,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite Node zext1 = d_nm->mkNode(zextop15, d_p); Node ext = bv::utils::mkExtract(zext1, 7, 0); Node zext2 = d_nm->mkNode(zextop5, ext); - TS_ASSERT(passes::getMinBwExpr(zext2) == 4); + TS_ASSERT(BVGauss::getMinBwExpr(zext2) == 4); } void testGetMinBw3a() @@ -2761,7 +2761,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite Node ext2 = bv::utils::mkExtract(z, 4, 0); Node udiv2 = d_nm->mkNode(kind::BITVECTOR_UDIV_TOTAL, ext1, ext2); Node zext2 = bv::utils::mkConcat(bv::utils::mkZero(5), udiv2); - TS_ASSERT(passes::getMinBwExpr(zext2) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(zext2) == 5); } void testGetMinBw3b() @@ -2776,7 +2776,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite Node ext2 = bv::utils::mkExtract(d_z, 4, 0); Node udiv2 = d_nm->mkNode(kind::BITVECTOR_UDIV_TOTAL, ext1, ext2); Node zext2 = bv::utils::mkConcat(bv::utils::mkZero(5), udiv2); - TS_ASSERT(passes::getMinBwExpr(zext2) == 5); + TS_ASSERT(BVGauss::getMinBwExpr(zext2) == 5); } void testGetMinBw4a() @@ -2809,7 +2809,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite Node plus = d_nm->mkNode(kind::BITVECTOR_PLUS, zext2_1, zext2_2); - TS_ASSERT(passes::getMinBwExpr(plus) == 6); + TS_ASSERT(BVGauss::getMinBwExpr(plus) == 6); } void testGetMinBw4b() @@ -2839,7 +2839,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite Node plus = d_nm->mkNode(kind::BITVECTOR_PLUS, zext2_1, zext2_2); - TS_ASSERT(passes::getMinBwExpr(plus) == 6); + TS_ASSERT(BVGauss::getMinBwExpr(plus) == 6); } void testGetMinBw5a() @@ -2935,7 +2935,7 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite plus6, d_nm->mkNode(kind::BITVECTOR_MULT, bv::utils::mkConst(13, 83), ww)); - TS_ASSERT(passes::getMinBwExpr(plus7) == 0); + TS_ASSERT(BVGauss::getMinBwExpr(plus7) == 0); } void testGetMinBw5b() @@ -3030,8 +3030,8 @@ class TheoryBVGaussWhite : public CxxTest::TestSuite plus6, d_nm->mkNode(kind::BITVECTOR_MULT, bv::utils::mkConst(20, 83), ww)); - TS_ASSERT(passes::getMinBwExpr(plus7) == 19); - TS_ASSERT(passes::getMinBwExpr(Rewriter::rewrite(plus7)) == 17); + TS_ASSERT(BVGauss::getMinBwExpr(plus7) == 19); + TS_ASSERT(BVGauss::getMinBwExpr(Rewriter::rewrite(plus7)) == 17); } }; -- 2.30.2