1*bf2c3715SXin Li // This file is part of Eigen, a lightweight C++ template library
2*bf2c3715SXin Li // for linear algebra.
3*bf2c3715SXin Li //
4*bf2c3715SXin Li // Copyright (C) 2008-2015 Gael Guennebaud <[email protected]>
5*bf2c3715SXin Li //
6*bf2c3715SXin Li // This Source Code Form is subject to the terms of the Mozilla
7*bf2c3715SXin Li // Public License v. 2.0. If a copy of the MPL was not distributed
8*bf2c3715SXin Li // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9*bf2c3715SXin Li
10*bf2c3715SXin Li #include "sparse.h"
11*bf2c3715SXin Li #include "AnnoyingScalar.h"
12*bf2c3715SXin Li
13*bf2c3715SXin Li template<typename T>
14*bf2c3715SXin Li typename Eigen::internal::enable_if<(T::Flags&RowMajorBit)==RowMajorBit, typename T::RowXpr>::type
innervec(T & A,Index i)15*bf2c3715SXin Li innervec(T& A, Index i)
16*bf2c3715SXin Li {
17*bf2c3715SXin Li return A.row(i);
18*bf2c3715SXin Li }
19*bf2c3715SXin Li
20*bf2c3715SXin Li template<typename T>
21*bf2c3715SXin Li typename Eigen::internal::enable_if<(T::Flags&RowMajorBit)==0, typename T::ColXpr>::type
innervec(T & A,Index i)22*bf2c3715SXin Li innervec(T& A, Index i)
23*bf2c3715SXin Li {
24*bf2c3715SXin Li return A.col(i);
25*bf2c3715SXin Li }
26*bf2c3715SXin Li
sparse_block(const SparseMatrixType & ref)27*bf2c3715SXin Li template<typename SparseMatrixType> void sparse_block(const SparseMatrixType& ref)
28*bf2c3715SXin Li {
29*bf2c3715SXin Li const Index rows = ref.rows();
30*bf2c3715SXin Li const Index cols = ref.cols();
31*bf2c3715SXin Li const Index inner = ref.innerSize();
32*bf2c3715SXin Li const Index outer = ref.outerSize();
33*bf2c3715SXin Li
34*bf2c3715SXin Li typedef typename SparseMatrixType::Scalar Scalar;
35*bf2c3715SXin Li typedef typename SparseMatrixType::RealScalar RealScalar;
36*bf2c3715SXin Li typedef typename SparseMatrixType::StorageIndex StorageIndex;
37*bf2c3715SXin Li
38*bf2c3715SXin Li double density = (std::max)(8./(rows*cols), 0.01);
39*bf2c3715SXin Li typedef Matrix<Scalar,Dynamic,Dynamic,SparseMatrixType::IsRowMajor?RowMajor:ColMajor> DenseMatrix;
40*bf2c3715SXin Li typedef Matrix<Scalar,Dynamic,1> DenseVector;
41*bf2c3715SXin Li typedef Matrix<Scalar,1,Dynamic> RowDenseVector;
42*bf2c3715SXin Li typedef SparseVector<Scalar> SparseVectorType;
43*bf2c3715SXin Li
44*bf2c3715SXin Li Scalar s1 = internal::random<Scalar>();
45*bf2c3715SXin Li {
46*bf2c3715SXin Li SparseMatrixType m(rows, cols);
47*bf2c3715SXin Li DenseMatrix refMat = DenseMatrix::Zero(rows, cols);
48*bf2c3715SXin Li initSparse<Scalar>(density, refMat, m);
49*bf2c3715SXin Li
50*bf2c3715SXin Li VERIFY_IS_APPROX(m, refMat);
51*bf2c3715SXin Li
52*bf2c3715SXin Li // test InnerIterators and Block expressions
53*bf2c3715SXin Li for (int t=0; t<10; ++t)
54*bf2c3715SXin Li {
55*bf2c3715SXin Li Index j = internal::random<Index>(0,cols-2);
56*bf2c3715SXin Li Index i = internal::random<Index>(0,rows-2);
57*bf2c3715SXin Li Index w = internal::random<Index>(1,cols-j);
58*bf2c3715SXin Li Index h = internal::random<Index>(1,rows-i);
59*bf2c3715SXin Li
60*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w), refMat.block(i,j,h,w));
61*bf2c3715SXin Li for(Index c=0; c<w; c++)
62*bf2c3715SXin Li {
63*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w).col(c), refMat.block(i,j,h,w).col(c));
64*bf2c3715SXin Li for(Index r=0; r<h; r++)
65*bf2c3715SXin Li {
66*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w).col(c).coeff(r), refMat.block(i,j,h,w).col(c).coeff(r));
67*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w).coeff(r,c), refMat.block(i,j,h,w).coeff(r,c));
68*bf2c3715SXin Li }
69*bf2c3715SXin Li }
70*bf2c3715SXin Li for(Index r=0; r<h; r++)
71*bf2c3715SXin Li {
72*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w).row(r), refMat.block(i,j,h,w).row(r));
73*bf2c3715SXin Li for(Index c=0; c<w; c++)
74*bf2c3715SXin Li {
75*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w).row(r).coeff(c), refMat.block(i,j,h,w).row(r).coeff(c));
76*bf2c3715SXin Li VERIFY_IS_APPROX(m.block(i,j,h,w).coeff(r,c), refMat.block(i,j,h,w).coeff(r,c));
77*bf2c3715SXin Li }
78*bf2c3715SXin Li }
79*bf2c3715SXin Li
80*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleCols(j,w), refMat.middleCols(j,w));
81*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleRows(i,h), refMat.middleRows(i,h));
82*bf2c3715SXin Li for(Index r=0; r<h; r++)
83*bf2c3715SXin Li {
84*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleCols(j,w).row(r), refMat.middleCols(j,w).row(r));
85*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleRows(i,h).row(r), refMat.middleRows(i,h).row(r));
86*bf2c3715SXin Li for(Index c=0; c<w; c++)
87*bf2c3715SXin Li {
88*bf2c3715SXin Li VERIFY_IS_APPROX(m.col(c).coeff(r), refMat.col(c).coeff(r));
89*bf2c3715SXin Li VERIFY_IS_APPROX(m.row(r).coeff(c), refMat.row(r).coeff(c));
90*bf2c3715SXin Li
91*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleCols(j,w).coeff(r,c), refMat.middleCols(j,w).coeff(r,c));
92*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleRows(i,h).coeff(r,c), refMat.middleRows(i,h).coeff(r,c));
93*bf2c3715SXin Li if(m.middleCols(j,w).coeff(r,c) != Scalar(0))
94*bf2c3715SXin Li {
95*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleCols(j,w).coeffRef(r,c), refMat.middleCols(j,w).coeff(r,c));
96*bf2c3715SXin Li }
97*bf2c3715SXin Li if(m.middleRows(i,h).coeff(r,c) != Scalar(0))
98*bf2c3715SXin Li {
99*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleRows(i,h).coeff(r,c), refMat.middleRows(i,h).coeff(r,c));
100*bf2c3715SXin Li }
101*bf2c3715SXin Li }
102*bf2c3715SXin Li }
103*bf2c3715SXin Li for(Index c=0; c<w; c++)
104*bf2c3715SXin Li {
105*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleCols(j,w).col(c), refMat.middleCols(j,w).col(c));
106*bf2c3715SXin Li VERIFY_IS_APPROX(m.middleRows(i,h).col(c), refMat.middleRows(i,h).col(c));
107*bf2c3715SXin Li }
108*bf2c3715SXin Li }
109*bf2c3715SXin Li
110*bf2c3715SXin Li for(Index c=0; c<cols; c++)
111*bf2c3715SXin Li {
112*bf2c3715SXin Li VERIFY_IS_APPROX(m.col(c) + m.col(c), (m + m).col(c));
113*bf2c3715SXin Li VERIFY_IS_APPROX(m.col(c) + m.col(c), refMat.col(c) + refMat.col(c));
114*bf2c3715SXin Li }
115*bf2c3715SXin Li
116*bf2c3715SXin Li for(Index r=0; r<rows; r++)
117*bf2c3715SXin Li {
118*bf2c3715SXin Li VERIFY_IS_APPROX(m.row(r) + m.row(r), (m + m).row(r));
119*bf2c3715SXin Li VERIFY_IS_APPROX(m.row(r) + m.row(r), refMat.row(r) + refMat.row(r));
120*bf2c3715SXin Li }
121*bf2c3715SXin Li }
122*bf2c3715SXin Li
123*bf2c3715SXin Li // test innerVector()
124*bf2c3715SXin Li {
125*bf2c3715SXin Li DenseMatrix refMat2 = DenseMatrix::Zero(rows, cols);
126*bf2c3715SXin Li SparseMatrixType m2(rows, cols);
127*bf2c3715SXin Li initSparse<Scalar>(density, refMat2, m2);
128*bf2c3715SXin Li Index j0 = internal::random<Index>(0,outer-1);
129*bf2c3715SXin Li Index j1 = internal::random<Index>(0,outer-1);
130*bf2c3715SXin Li Index r0 = internal::random<Index>(0,rows-1);
131*bf2c3715SXin Li Index c0 = internal::random<Index>(0,cols-1);
132*bf2c3715SXin Li
133*bf2c3715SXin Li VERIFY_IS_APPROX(m2.innerVector(j0), innervec(refMat2,j0));
134*bf2c3715SXin Li VERIFY_IS_APPROX(m2.innerVector(j0)+m2.innerVector(j1), innervec(refMat2,j0)+innervec(refMat2,j1));
135*bf2c3715SXin Li
136*bf2c3715SXin Li m2.innerVector(j0) *= Scalar(2);
137*bf2c3715SXin Li innervec(refMat2,j0) *= Scalar(2);
138*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
139*bf2c3715SXin Li
140*bf2c3715SXin Li m2.row(r0) *= Scalar(3);
141*bf2c3715SXin Li refMat2.row(r0) *= Scalar(3);
142*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
143*bf2c3715SXin Li
144*bf2c3715SXin Li m2.col(c0) *= Scalar(4);
145*bf2c3715SXin Li refMat2.col(c0) *= Scalar(4);
146*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
147*bf2c3715SXin Li
148*bf2c3715SXin Li m2.row(r0) /= Scalar(3);
149*bf2c3715SXin Li refMat2.row(r0) /= Scalar(3);
150*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
151*bf2c3715SXin Li
152*bf2c3715SXin Li m2.col(c0) /= Scalar(4);
153*bf2c3715SXin Li refMat2.col(c0) /= Scalar(4);
154*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
155*bf2c3715SXin Li
156*bf2c3715SXin Li SparseVectorType v1;
157*bf2c3715SXin Li VERIFY_IS_APPROX(v1 = m2.col(c0) * 4, refMat2.col(c0)*4);
158*bf2c3715SXin Li VERIFY_IS_APPROX(v1 = m2.row(r0) * 4, refMat2.row(r0).transpose()*4);
159*bf2c3715SXin Li
160*bf2c3715SXin Li SparseMatrixType m3(rows,cols);
161*bf2c3715SXin Li m3.reserve(VectorXi::Constant(outer,int(inner/2)));
162*bf2c3715SXin Li for(Index j=0; j<outer; ++j)
163*bf2c3715SXin Li for(Index k=0; k<(std::min)(j,inner); ++k)
164*bf2c3715SXin Li m3.insertByOuterInner(j,k) = internal::convert_index<StorageIndex>(k+1);
165*bf2c3715SXin Li for(Index j=0; j<(std::min)(outer, inner); ++j)
166*bf2c3715SXin Li {
167*bf2c3715SXin Li VERIFY(j==numext::real(m3.innerVector(j).nonZeros()));
168*bf2c3715SXin Li if(j>0)
169*bf2c3715SXin Li VERIFY(RealScalar(j)==numext::real(m3.innerVector(j).lastCoeff()));
170*bf2c3715SXin Li }
171*bf2c3715SXin Li m3.makeCompressed();
172*bf2c3715SXin Li for(Index j=0; j<(std::min)(outer, inner); ++j)
173*bf2c3715SXin Li {
174*bf2c3715SXin Li VERIFY(j==numext::real(m3.innerVector(j).nonZeros()));
175*bf2c3715SXin Li if(j>0)
176*bf2c3715SXin Li VERIFY(RealScalar(j)==numext::real(m3.innerVector(j).lastCoeff()));
177*bf2c3715SXin Li }
178*bf2c3715SXin Li
179*bf2c3715SXin Li VERIFY(m3.innerVector(j0).nonZeros() == m3.transpose().innerVector(j0).nonZeros());
180*bf2c3715SXin Li
181*bf2c3715SXin Li // m2.innerVector(j0) = 2*m2.innerVector(j1);
182*bf2c3715SXin Li // refMat2.col(j0) = 2*refMat2.col(j1);
183*bf2c3715SXin Li // VERIFY_IS_APPROX(m2, refMat2);
184*bf2c3715SXin Li }
185*bf2c3715SXin Li
186*bf2c3715SXin Li // test innerVectors()
187*bf2c3715SXin Li {
188*bf2c3715SXin Li DenseMatrix refMat2 = DenseMatrix::Zero(rows, cols);
189*bf2c3715SXin Li SparseMatrixType m2(rows, cols);
190*bf2c3715SXin Li initSparse<Scalar>(density, refMat2, m2);
191*bf2c3715SXin Li if(internal::random<float>(0,1)>0.5f) m2.makeCompressed();
192*bf2c3715SXin Li Index j0 = internal::random<Index>(0,outer-2);
193*bf2c3715SXin Li Index j1 = internal::random<Index>(0,outer-2);
194*bf2c3715SXin Li Index n0 = internal::random<Index>(1,outer-(std::max)(j0,j1));
195*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor)
196*bf2c3715SXin Li VERIFY_IS_APPROX(m2.innerVectors(j0,n0), refMat2.block(j0,0,n0,cols));
197*bf2c3715SXin Li else
198*bf2c3715SXin Li VERIFY_IS_APPROX(m2.innerVectors(j0,n0), refMat2.block(0,j0,rows,n0));
199*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor)
200*bf2c3715SXin Li VERIFY_IS_APPROX(m2.innerVectors(j0,n0)+m2.innerVectors(j1,n0),
201*bf2c3715SXin Li refMat2.middleRows(j0,n0)+refMat2.middleRows(j1,n0));
202*bf2c3715SXin Li else
203*bf2c3715SXin Li VERIFY_IS_APPROX(m2.innerVectors(j0,n0)+m2.innerVectors(j1,n0),
204*bf2c3715SXin Li refMat2.block(0,j0,rows,n0)+refMat2.block(0,j1,rows,n0));
205*bf2c3715SXin Li
206*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
207*bf2c3715SXin Li
208*bf2c3715SXin Li VERIFY(m2.innerVectors(j0,n0).nonZeros() == m2.transpose().innerVectors(j0,n0).nonZeros());
209*bf2c3715SXin Li
210*bf2c3715SXin Li m2.innerVectors(j0,n0) = m2.innerVectors(j0,n0) + m2.innerVectors(j1,n0);
211*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor)
212*bf2c3715SXin Li refMat2.middleRows(j0,n0) = (refMat2.middleRows(j0,n0) + refMat2.middleRows(j1,n0)).eval();
213*bf2c3715SXin Li else
214*bf2c3715SXin Li refMat2.middleCols(j0,n0) = (refMat2.middleCols(j0,n0) + refMat2.middleCols(j1,n0)).eval();
215*bf2c3715SXin Li
216*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
217*bf2c3715SXin Li }
218*bf2c3715SXin Li
219*bf2c3715SXin Li // test generic blocks
220*bf2c3715SXin Li {
221*bf2c3715SXin Li DenseMatrix refMat2 = DenseMatrix::Zero(rows, cols);
222*bf2c3715SXin Li SparseMatrixType m2(rows, cols);
223*bf2c3715SXin Li initSparse<Scalar>(density, refMat2, m2);
224*bf2c3715SXin Li Index j0 = internal::random<Index>(0,outer-2);
225*bf2c3715SXin Li Index j1 = internal::random<Index>(0,outer-2);
226*bf2c3715SXin Li Index n0 = internal::random<Index>(1,outer-(std::max)(j0,j1));
227*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor)
228*bf2c3715SXin Li VERIFY_IS_APPROX(m2.block(j0,0,n0,cols), refMat2.block(j0,0,n0,cols));
229*bf2c3715SXin Li else
230*bf2c3715SXin Li VERIFY_IS_APPROX(m2.block(0,j0,rows,n0), refMat2.block(0,j0,rows,n0));
231*bf2c3715SXin Li
232*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor)
233*bf2c3715SXin Li VERIFY_IS_APPROX(m2.block(j0,0,n0,cols)+m2.block(j1,0,n0,cols),
234*bf2c3715SXin Li refMat2.block(j0,0,n0,cols)+refMat2.block(j1,0,n0,cols));
235*bf2c3715SXin Li else
236*bf2c3715SXin Li VERIFY_IS_APPROX(m2.block(0,j0,rows,n0)+m2.block(0,j1,rows,n0),
237*bf2c3715SXin Li refMat2.block(0,j0,rows,n0)+refMat2.block(0,j1,rows,n0));
238*bf2c3715SXin Li
239*bf2c3715SXin Li Index i = internal::random<Index>(0,m2.outerSize()-1);
240*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor) {
241*bf2c3715SXin Li m2.innerVector(i) = m2.innerVector(i) * s1;
242*bf2c3715SXin Li refMat2.row(i) = refMat2.row(i) * s1;
243*bf2c3715SXin Li VERIFY_IS_APPROX(m2,refMat2);
244*bf2c3715SXin Li } else {
245*bf2c3715SXin Li m2.innerVector(i) = m2.innerVector(i) * s1;
246*bf2c3715SXin Li refMat2.col(i) = refMat2.col(i) * s1;
247*bf2c3715SXin Li VERIFY_IS_APPROX(m2,refMat2);
248*bf2c3715SXin Li }
249*bf2c3715SXin Li
250*bf2c3715SXin Li Index r0 = internal::random<Index>(0,rows-2);
251*bf2c3715SXin Li Index c0 = internal::random<Index>(0,cols-2);
252*bf2c3715SXin Li Index r1 = internal::random<Index>(1,rows-r0);
253*bf2c3715SXin Li Index c1 = internal::random<Index>(1,cols-c0);
254*bf2c3715SXin Li
255*bf2c3715SXin Li VERIFY_IS_APPROX(DenseVector(m2.col(c0)), refMat2.col(c0));
256*bf2c3715SXin Li VERIFY_IS_APPROX(m2.col(c0), refMat2.col(c0));
257*bf2c3715SXin Li
258*bf2c3715SXin Li VERIFY_IS_APPROX(RowDenseVector(m2.row(r0)), refMat2.row(r0));
259*bf2c3715SXin Li VERIFY_IS_APPROX(m2.row(r0), refMat2.row(r0));
260*bf2c3715SXin Li
261*bf2c3715SXin Li VERIFY_IS_APPROX(m2.block(r0,c0,r1,c1), refMat2.block(r0,c0,r1,c1));
262*bf2c3715SXin Li VERIFY_IS_APPROX((2*m2).block(r0,c0,r1,c1), (2*refMat2).block(r0,c0,r1,c1));
263*bf2c3715SXin Li
264*bf2c3715SXin Li if(m2.nonZeros()>0)
265*bf2c3715SXin Li {
266*bf2c3715SXin Li VERIFY_IS_APPROX(m2, refMat2);
267*bf2c3715SXin Li SparseMatrixType m3(rows, cols);
268*bf2c3715SXin Li DenseMatrix refMat3(rows, cols); refMat3.setZero();
269*bf2c3715SXin Li Index n = internal::random<Index>(1,10);
270*bf2c3715SXin Li for(Index k=0; k<n; ++k)
271*bf2c3715SXin Li {
272*bf2c3715SXin Li Index o1 = internal::random<Index>(0,outer-1);
273*bf2c3715SXin Li Index o2 = internal::random<Index>(0,outer-1);
274*bf2c3715SXin Li if(SparseMatrixType::IsRowMajor)
275*bf2c3715SXin Li {
276*bf2c3715SXin Li m3.innerVector(o1) = m2.row(o2);
277*bf2c3715SXin Li refMat3.row(o1) = refMat2.row(o2);
278*bf2c3715SXin Li }
279*bf2c3715SXin Li else
280*bf2c3715SXin Li {
281*bf2c3715SXin Li m3.innerVector(o1) = m2.col(o2);
282*bf2c3715SXin Li refMat3.col(o1) = refMat2.col(o2);
283*bf2c3715SXin Li }
284*bf2c3715SXin Li if(internal::random<bool>())
285*bf2c3715SXin Li m3.makeCompressed();
286*bf2c3715SXin Li }
287*bf2c3715SXin Li if(m3.nonZeros()>0)
288*bf2c3715SXin Li VERIFY_IS_APPROX(m3, refMat3);
289*bf2c3715SXin Li }
290*bf2c3715SXin Li }
291*bf2c3715SXin Li }
292*bf2c3715SXin Li
EIGEN_DECLARE_TEST(sparse_block)293*bf2c3715SXin Li EIGEN_DECLARE_TEST(sparse_block)
294*bf2c3715SXin Li {
295*bf2c3715SXin Li for(int i = 0; i < g_repeat; i++) {
296*bf2c3715SXin Li int r = Eigen::internal::random<int>(1,200), c = Eigen::internal::random<int>(1,200);
297*bf2c3715SXin Li if(Eigen::internal::random<int>(0,4) == 0) {
298*bf2c3715SXin Li r = c; // check square matrices in 25% of tries
299*bf2c3715SXin Li }
300*bf2c3715SXin Li EIGEN_UNUSED_VARIABLE(r+c);
301*bf2c3715SXin Li CALL_SUBTEST_1(( sparse_block(SparseMatrix<double>(1, 1)) ));
302*bf2c3715SXin Li CALL_SUBTEST_1(( sparse_block(SparseMatrix<double>(8, 8)) ));
303*bf2c3715SXin Li CALL_SUBTEST_1(( sparse_block(SparseMatrix<double>(r, c)) ));
304*bf2c3715SXin Li CALL_SUBTEST_2(( sparse_block(SparseMatrix<std::complex<double>, ColMajor>(r, c)) ));
305*bf2c3715SXin Li CALL_SUBTEST_2(( sparse_block(SparseMatrix<std::complex<double>, RowMajor>(r, c)) ));
306*bf2c3715SXin Li
307*bf2c3715SXin Li CALL_SUBTEST_3(( sparse_block(SparseMatrix<double,ColMajor,long int>(r, c)) ));
308*bf2c3715SXin Li CALL_SUBTEST_3(( sparse_block(SparseMatrix<double,RowMajor,long int>(r, c)) ));
309*bf2c3715SXin Li
310*bf2c3715SXin Li r = Eigen::internal::random<int>(1,100);
311*bf2c3715SXin Li c = Eigen::internal::random<int>(1,100);
312*bf2c3715SXin Li if(Eigen::internal::random<int>(0,4) == 0) {
313*bf2c3715SXin Li r = c; // check square matrices in 25% of tries
314*bf2c3715SXin Li }
315*bf2c3715SXin Li
316*bf2c3715SXin Li CALL_SUBTEST_4(( sparse_block(SparseMatrix<double,ColMajor,short int>(short(r), short(c))) ));
317*bf2c3715SXin Li CALL_SUBTEST_4(( sparse_block(SparseMatrix<double,RowMajor,short int>(short(r), short(c))) ));
318*bf2c3715SXin Li #ifndef EIGEN_TEST_ANNOYING_SCALAR_DONT_THROW
319*bf2c3715SXin Li AnnoyingScalar::dont_throw = true;
320*bf2c3715SXin Li #endif
321*bf2c3715SXin Li CALL_SUBTEST_5(( sparse_block(SparseMatrix<AnnoyingScalar>(r,c)) ));
322*bf2c3715SXin Li }
323*bf2c3715SXin Li }
324