implement __gnuc_forget_about_setZero_its_over_now

Eigen/src/Sparse/SparseProduct.h

@@ -305,23 +305,9 @@ inline Derived& SparseMatrixBase<Derived>::operator=(const SparseProduct<Lhs,Rhs
 }
 
 // dense = sparse * dense
-// template<typename Derived>
-// template<typename Lhs, typename Rhs>
-// Derived& MatrixBase<Derived>::lazyAssign(const SparseProduct<Lhs,Rhs,SparseTimeDenseProduct>& product)
-// {
-//   typedef typename ei_cleantype<Lhs>::type _Lhs;
-//   typedef typename _Lhs::InnerIterator LhsInnerIterator;
-//   enum { LhsIsRowMajor = (_Lhs::Flags&RowMajorBit)==RowMajorBit };
-//   derived().setZero();
-//   for (int j=0; j<product.lhs().outerSize(); ++j)
-//     for (LhsInnerIterator i(product.lhs(),j); i; ++i)
-//       derived().row(LhsIsRowMajor ? j : i.index()) += i.value() * product.rhs().row(LhsIsRowMajor ? i.index() : j);
-//   return derived();
-// }
-
-template<typename Derived>
-template<typename Lhs, typename Rhs>
-Derived& MatrixBase<Derived>::lazyAssign(const SparseProduct<Lhs,Rhs,SparseTimeDenseProduct>& product)
+// Note that here we force no inlining and separate the setZero() because GCC messes up otherwise
+template<typename Lhs, typename Rhs, typename Dest>
+EIGEN_DONT_INLINE void ei_sparse_time_dense_product(const Lhs& lhs, const Rhs& rhs, Dest& dst)
 {
   typedef typename ei_cleantype<Lhs>::type _Lhs;
   typedef typename ei_cleantype<Rhs>::type _Rhs;
@@ -335,34 +321,44 @@ Derived& MatrixBase<Derived>::lazyAssign(const SparseProduct<Lhs,Rhs,SparseTimeD
           || ( (_Lhs::Flags&LowerTriangularBit) && LhsIsRowMajor) ),
     ProcessSecondHalf = LhsIsSelfAdjoint && (!ProcessFirstHalf)
   };
-  derived().setZero();
-  for (int j=0; j<product.lhs().outerSize(); ++j)
+  for (int j=0; j<lhs.outerSize(); ++j)
   {
-    LhsInnerIterator i(product.lhs(),j);
+    LhsInnerIterator i(lhs,j);
     if (ProcessSecondHalf && i && (i.index()==j))
     {
-      derived().row(j) += i.value() * product.rhs().row(j);
+      dst.row(j) += i.value() * rhs.row(j);
       ++i;
     }
-    Block<Derived,1,Derived::ColsAtCompileTime> res(derived().row(LhsIsRowMajor ? j : 0));
-    for (; (ProcessFirstHalf ? i && i.index() < j : i) ; ++i)
+    typename Rhs::Scalar rhs_j = rhs.coeff(j,0);
+    Block<Dest,1,Dest::ColsAtCompileTime> dst_j(dst.row(LhsIsRowMajor ? j : 0));
+    for(; (ProcessFirstHalf ? i && i.index() < j : i) ; ++i)
     {
-      if (LhsIsSelfAdjoint)
+      if(LhsIsSelfAdjoint)
       {
         int a = LhsIsRowMajor ? j : i.index();
         int b = LhsIsRowMajor ? i.index() : j;
-        Scalar v = i.value();
-        derived().row(a) += (v) * product.rhs().row(b);
-        derived().row(b) += ei_conj(v) * product.rhs().row(a);
+        typename Lhs::Scalar v = i.value();
+        dst.row(a) += (v) * rhs.row(b);
+        dst.row(b) += ei_conj(v) * rhs.row(a);
       }
-      else if (LhsIsRowMajor)
-        res += i.value() * product.rhs().row(i.index());
+      else if(LhsIsRowMajor)
+        dst_j += i.value() * rhs.row(i.index());
+      else if(Rhs::ColsAtCompileTime==1)
+        dst.coeffRef(i.index()) += i.value() * rhs_j;
       else
-        derived().row(i.index()) += i.value() * product.rhs().row(j);
+        dst.row(i.index()) += i.value() * rhs.row(j);
     }
     if (ProcessFirstHalf && i && (i.index()==j))
-      derived().row(j) += i.value() * product.rhs().row(j);
+      dst.row(j) += i.value() * rhs.row(j);
   }
+}
+
+template<typename Derived>
+template<typename Lhs, typename Rhs>
+Derived& MatrixBase<Derived>::lazyAssign(const SparseProduct<Lhs,Rhs,SparseTimeDenseProduct>& product)
+{
+  derived().setZero();
+  ei_sparse_time_dense_product(product.lhs(), product.rhs(), derived());
   return derived();
 }
 

bench/sparse_dense_product.cpp

@@ -91,22 +91,22 @@ int main(int argc, char *argv[])
     {
       std::cout << "Eigen sparse\t" << sm1.nonZeros()/float(sm1.rows()*sm1.cols())*100 << "%\n";
 
-      BENCH(for (int k=0; k<REPEAT; ++k) v2 = sm1 * v1;)
+      BENCH(asm("#myc"); v2 = sm1 * v1; asm("#myd");)
       std::cout << "   a * v:\t" << timer.value() << endl;
 
-      
-      BENCH(for (int k=0; k<REPEAT; ++k) { asm("#mya"); v2 = sm1.transpose() * v1; asm("#myb"); })
-      
+
+      BENCH( { asm("#mya"); v2 = sm1.transpose() * v1; asm("#myb"); })
+
       std::cout << "   a' * v:\t" << timer.value() << endl;
     }
-    
+
 //     {
 //       DynamicSparseMatrix<Scalar> m1(sm1);
 //       std::cout << "Eigen dyn-sparse\t" << m1.nonZeros()/float(m1.rows()*m1.cols())*100 << "%\n";
-// 
+//
 //       BENCH(for (int k=0; k<REPEAT; ++k) v2 = m1 * v1;)
 //       std::cout << "   a * v:\t" << timer.value() << endl;
-// 
+//
 //       BENCH(for (int k=0; k<REPEAT; ++k) v2 = m1.transpose() * v1;)
 //       std::cout << "   a' * v:\t" << timer.value() << endl;
 //     }
@@ -118,23 +118,15 @@ int main(int argc, char *argv[])
       //GmmDynSparse  gmmT3(rows,cols);
       GmmSparse m1(rows,cols);
       eiToGmm(sm1, m1);
-      
+
       std::vector<Scalar> gmmV1(cols), gmmV2(cols);
       Map<Matrix<Scalar,Dynamic,1> >(&gmmV1[0], cols) = v1;
       Map<Matrix<Scalar,Dynamic,1> >(&gmmV2[0], cols) = v2;
 
-      timer.reset();
-      timer.start();
-      for (int k=0; k<REPEAT; ++k)
-        gmm::mult(m1, gmmV1, gmmV2);
-      timer.stop();
+      BENCH( asm("#myx"); gmm::mult(m1, gmmV1, gmmV2); asm("#myy"); )
       std::cout << "   a * v:\t" << timer.value() << endl;
 
-      timer.reset();
-      timer.start();
-      for (int k=0; k<REPEAT; ++k)
-        gmm::mult(gmm::transposed(m1), gmmV1, gmmV2);
-      timer.stop();
+      BENCH( gmm::mult(gmm::transposed(m1), gmmV1, gmmV2); )
       std::cout << "   a' * v:\t" << timer.value() << endl;
     }
     #endif