eigen/test/nomalloc.cpp

c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// This file is part of Eigen, a lightweight C++ template library
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// for linear algebra.
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// Copyright (C) 2008 Gael Guennebaud <gael.guennebaud@inria.fr>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// Copyright (C) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// This Source Code Form is subject to the terms of the Mozilla
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// Public License v. 2.0. If a copy of the MPL was not distributed
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// this hack is needed to make this file compiles with -pedantic (gcc)
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#ifdef __GNUC__
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#define throw(X)
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#endif
7faaa9f3f0df9d23790277834d426c3d992ac3baCarlos Hernandez
7faaa9f3f0df9d23790277834d426c3d992ac3baCarlos Hernandez#ifdef __INTEL_COMPILER
7faaa9f3f0df9d23790277834d426c3d992ac3baCarlos Hernandez  // disable "warning #76: argument to macro is empty" produced by the above hack
7faaa9f3f0df9d23790277834d426c3d992ac3baCarlos Hernandez  #pragma warning disable 76
7faaa9f3f0df9d23790277834d426c3d992ac3baCarlos Hernandez#endif
7faaa9f3f0df9d23790277834d426c3d992ac3baCarlos Hernandez
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// discard stack allocation as that too bypasses malloc
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#define EIGEN_STACK_ALLOCATION_LIMIT 0
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath// any heap allocation will raise an assert
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#define EIGEN_NO_MALLOC
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#include "main.h"
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#include <Eigen/Cholesky>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#include <Eigen/Eigenvalues>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#include <Eigen/LU>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#include <Eigen/QR>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath#include <Eigen/SVD>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamathtemplate<typename MatrixType> void nomalloc(const MatrixType& m)
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath{
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  /* this test check no dynamic memory allocation are issued with fixed-size matrices
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  */
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  typedef typename MatrixType::Index Index;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  typedef typename MatrixType::Scalar Scalar;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Index rows = m.rows();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Index cols = m.cols();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  MatrixType m1 = MatrixType::Random(rows, cols),
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath             m2 = MatrixType::Random(rows, cols),
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath             m3(rows, cols);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Scalar s1 = internal::random<Scalar>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Index r = internal::random<Index>(0, rows-1),
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath        c = internal::random<Index>(0, cols-1);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX((m1+m2)*s1,              s1*m1+s1*m2);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX((m1+m2)(r,c), (m1(r,c))+(m2(r,c)));
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX(m1.cwiseProduct(m1.block(0,0,rows,cols)), (m1.array()*m1.array()).matrix());
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX((m1*m1.transpose())*m2,  m1*(m1.transpose()*m2));
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() = m1 * m1.col(0);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.adjoint() * m1.col(0);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1 * m1.row(0).adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.adjoint() * m1.row(0).adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() = m1.row(0) * m1;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.row(0) * m1.adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.col(0).adjoint() * m1;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.col(0).adjoint() * m1.adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX(m2,m2);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() = m1.template triangularView<Upper>() * m1.col(0);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.adjoint().template triangularView<Upper>() * m1.col(0);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.template triangularView<Upper>() * m1.row(0).adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.adjoint().template triangularView<Upper>() * m1.row(0).adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() = m1.row(0) * m1.template triangularView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.row(0) * m1.adjoint().template triangularView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.col(0).adjoint() * m1.template triangularView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.col(0).adjoint() * m1.adjoint().template triangularView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX(m2,m2);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() = m1.template selfadjointView<Upper>() * m1.col(0);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.adjoint().template selfadjointView<Upper>() * m1.col(0);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.template selfadjointView<Upper>() * m1.row(0).adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.col(0).noalias() -= m1.adjoint().template selfadjointView<Upper>() * m1.row(0).adjoint();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() = m1.row(0) * m1.template selfadjointView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.row(0) * m1.adjoint().template selfadjointView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.col(0).adjoint() * m1.template selfadjointView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.row(0).noalias() -= m1.col(0).adjoint() * m1.adjoint().template selfadjointView<Upper>();
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_IS_APPROX(m2,m2);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.template selfadjointView<Lower>().rankUpdate(m1.col(0),-1);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  m2.template selfadjointView<Lower>().rankUpdate(m1.row(0),-1);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // The following fancy matrix-matrix products are not safe yet regarding static allocation
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//   m1 += m1.template triangularView<Upper>() * m2.col(;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//   m1.template selfadjointView<Lower>().rankUpdate(m2);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//   m1 += m1.template triangularView<Upper>() * m2;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//   m1 += m1.template selfadjointView<Lower>() * m2;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath//   VERIFY_IS_APPROX(m1,m1);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath}
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamathtemplate<typename Scalar>
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamathvoid ctms_decompositions()
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath{
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  const int maxSize = 16;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  const int size    = 12;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  typedef Eigen::Matrix<Scalar,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        Eigen::Dynamic, Eigen::Dynamic,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        0,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        maxSize, maxSize> Matrix;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  typedef Eigen::Matrix<Scalar,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        Eigen::Dynamic, 1,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        0,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        maxSize, 1> Vector;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  typedef Eigen::Matrix<std::complex<Scalar>,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        Eigen::Dynamic, Eigen::Dynamic,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        0,
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath                        maxSize, maxSize> ComplexMatrix;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  const Matrix A(Matrix::Random(size, size)), B(Matrix::Random(size, size));
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Matrix X(size,size);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  const ComplexMatrix complexA(ComplexMatrix::Random(size, size));
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  const Matrix saA = A.adjoint() * A;
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  const Vector b(Vector::Random(size));
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Vector x(size);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // Cholesky module
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::LLT<Matrix>  LLT;  LLT.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  X = LLT.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = LLT.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::LDLT<Matrix> LDLT; LDLT.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  X = LDLT.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = LDLT.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // Eigenvalues module
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::HessenbergDecomposition<ComplexMatrix> hessDecomp;        hessDecomp.compute(complexA);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::ComplexSchur<ComplexMatrix>            cSchur(size);      cSchur.compute(complexA);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::ComplexEigenSolver<ComplexMatrix>      cEigSolver;        cEigSolver.compute(complexA);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::EigenSolver<Matrix>                    eigSolver;         eigSolver.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::SelfAdjointEigenSolver<Matrix>         saEigSolver(size); saEigSolver.compute(saA);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::Tridiagonalization<Matrix>             tridiag;           tridiag.compute(saA);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // LU module
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::PartialPivLU<Matrix> ppLU; ppLU.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  X = ppLU.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = ppLU.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::FullPivLU<Matrix>    fpLU; fpLU.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  X = fpLU.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = fpLU.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // QR module
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::HouseholderQR<Matrix>        hQR;  hQR.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  X = hQR.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = hQR.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::ColPivHouseholderQR<Matrix>  cpQR; cpQR.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  X = cpQR.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = cpQR.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::FullPivHouseholderQR<Matrix> fpQR; fpQR.compute(A);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // FIXME X = fpQR.solve(B);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  x = fpQR.solve(b);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // SVD module
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  Eigen::JacobiSVD<Matrix> jSVD; jSVD.compute(A, ComputeFullU | ComputeFullV);
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath}
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamathvoid test_nomalloc()
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath{
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // check that our operator new is indeed called:
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  VERIFY_RAISES_ASSERT(MatrixXd dummy(MatrixXd::Random(3,3)));
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  CALL_SUBTEST_1(nomalloc(Matrix<float, 1, 1>()) );
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  CALL_SUBTEST_2(nomalloc(Matrix4d()) );
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  CALL_SUBTEST_3(nomalloc(Matrix<float,32,32>()) );
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  // Check decomposition modules with dynamic matrices that have a known compile-time max size (ctms)
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath  CALL_SUBTEST_4(ctms_decompositions<float>());
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath
c981c48f5bc9aefeffc0bcb0cc3934c2fae179ddNarayan Kamath}