Added rank_non_trivial

Grid/serialisation/BaseIO.h

@@ -56,22 +56,31 @@ namespace Grid {
   template <typename T> struct grid_tensor_att {
     static constexpr unsigned int depth = 0;  // How many levels of Grid Tensor there are
     static constexpr unsigned int rank = 0;   // The rank of the grid tensor (i.e. how many indices used)
+    static constexpr unsigned int rank_non_trivial = 0; // As per rank, but excludes those of dimension 1
     static constexpr unsigned int count = 1;  // total number of elements (i.e. product of dimensions)
     typedef T scalar_type;                              // Type of the underlying scalar
     static constexpr size_t scalar_size = sizeof(T);    // Size of the underlying scalar in bytes
     static constexpr size_t size = scalar_size * count; // total size of elements in bytes
+    // e.g. iScalar<iVector<Complex,1>>
+    //      depth = 2
+    //      rank  = 1
+    //      rank_non_trivial = 0
+    //      count  = 1
     // e.g. iVector<iMatrix<Complex,3>,4>
     //      depth = 2
     //      rank  = 3
-    //      size  = 36
+    //      rank_non_trivial = 3
+    //      count  = 36
     // e.g. iScalar<iVector<iMatrix<Complex,4>,3>>
     //      depth = 3
     //      rank  = 3
-    //      size  = 48
+    //      rank_non_trivial = 3
+    //      count  = 48
   };
   template <typename T> struct grid_tensor_att<iScalar<T>> {
     static constexpr unsigned int depth = 1 + grid_tensor_att<T>::depth;
     static constexpr unsigned int rank = 0 + grid_tensor_att<T>::rank;
+    static constexpr unsigned int rank_non_trivial = 0 + grid_tensor_att<T>::rank_non_trivial;
     static constexpr unsigned int count = 1 * grid_tensor_att<T>::count;
     typedef typename grid_tensor_att<T>::scalar_type scalar_type;
     static constexpr size_t scalar_size = grid_tensor_att<T>::scalar_size;
@@ -80,6 +89,7 @@ namespace Grid {
   template <typename T, int N> struct grid_tensor_att<iVector<T, N>> {
     static constexpr unsigned int depth = 1 + grid_tensor_att<T>::depth;
     static constexpr unsigned int rank = 1 + grid_tensor_att<T>::rank;
+    static constexpr unsigned int rank_non_trivial = (N>1 ? 1 : 0) + grid_tensor_att<T>::rank_non_trivial;
     static constexpr unsigned int count = N * grid_tensor_att<T>::count;
     typedef typename grid_tensor_att<T>::scalar_type scalar_type;
     static constexpr size_t scalar_size = grid_tensor_att<T>::scalar_size;
@@ -88,6 +98,7 @@ namespace Grid {
   template <typename T, int N> struct grid_tensor_att<iMatrix<T, N>> {
     static constexpr unsigned int depth = 1 + grid_tensor_att<T>::depth;
     static constexpr unsigned int rank = 2 + grid_tensor_att<T>::rank;
+    static constexpr unsigned int rank_non_trivial = (N>1 ? 2 : 0) + grid_tensor_att<T>::rank_non_trivial;
     static constexpr unsigned int count = N * N * grid_tensor_att<T>::count;
     typedef typename grid_tensor_att<T>::scalar_type scalar_type;
     static constexpr size_t scalar_size = grid_tensor_att<T>::scalar_size;

tests/hadrons/Test_hadrons_distil.cc

@@ -574,7 +574,14 @@ struct rank<T[N]> : public std::integral_constant<std::size_t, rank<T>::value +
 template <typename T>
 void DebugGridTensorTest_print( int i )
 {
-  std::cout << i << " : " << is_grid_tensor<T>::value << ", depth" << grid_tensor_att<T>::depth << ", rank" << grid_tensor_att<T>::rank << ", count" << grid_tensor_att<T>::count << ", scalar_size" << grid_tensor_att<T>::scalar_size << ", size" << grid_tensor_att<T>::size << std::endl;
+  std::cout << i << " : " << is_grid_tensor<T>::value
+  << ", depth " << grid_tensor_att<T>::depth
+  << ", rank " << grid_tensor_att<T>::rank
+  << ", rank_non_trivial " << grid_tensor_att<T>::rank_non_trivial
+  << ", count " << grid_tensor_att<T>::count
+  << ", scalar_size " << grid_tensor_att<T>::scalar_size
+  << ", size " << grid_tensor_att<T>::size
+  << std::endl;
 }
 
 bool DebugGridTensorTest( void )
@@ -583,9 +590,9 @@ bool DebugGridTensorTest( void )
   typedef iScalar<t1> t2;
   typedef iVector<t1, Ns> t3;
   typedef iMatrix<t1, Nc> t4;
-  typedef iVector<iMatrix<t1,3>,4> t5;
+  typedef iVector<iMatrix<t1,1>,4> t5;
   typedef iScalar<t5> t6;
-  typedef iMatrix<iVector<iScalar<iMatrix<t6, 4>>,2>,7> t7;
+  typedef iMatrix<iVector<iScalar<iMatrix<t6, 1>>,2>,7> t7;
   int i = 1;
   DebugGridTensorTest_print<t1>( i++ );
   DebugGridTensorTest_print<t2>( i++ );
@@ -605,8 +612,8 @@ int main(int argc, char *argv[])
   std::cout << "sizeof(std::streamsize) = " << sizeof(std::streamsize) << std::endl;
   std::cout << "sizeof(Eigen::Index) = " << sizeof(Eigen::Index) << std::endl;
   //if( DebugEigenTest() ) return 0;
-  //if(DebugGridTensorTest()) return 0;
-  if(DebugIOTest()) return 0;
+  if(DebugGridTensorTest()) return 0;
+  //if(DebugIOTest()) return 0;
 #endif
 
   // Decode command-line parameters. 1st one is which test to run