.. highlight:: c Partial views ================================== Various kind of partial views and slices can be made on arrays and matrices. * A `partial view` is defined as a view of a restricted portion of the array while a `slice` is strictly speaking a partial view of a lower dimension of the original array, e.g. a column of a matrix. * Partial views uses the ( ) operator, as the evaluation of the array:: array A(10,10); // defines an array A ( 1, range(0,2) ) // 1d slice A ( 1, range() ) // 1d slice taking all the second dim A( range(0,10,2), range(0,10,2)) // a 2d slice viewing every each elements with even coordinates. array_view SL( A(0,range(0,3))); // naming the view auto SL = A(0,range(0,3)); // C++0x with auto [check this] * **Return type** : * Partial views of array or array_view return an array_view. * Partial views of vector or vector_view return an vector_view. * 2d partial views of matrix or matrix_view return matrix_view. * BUT : (1d) slices of matrix or matrix_view return vector_view. * 0d slices of anything are converted to the `value_type` of the array. The `range` type ^^^^^^^^^^^^^^^^^^^^^ `range` mimics the python `range`. It can be constructed with : * no argument : it then takes the whole set of indices in the dimension (like `:` in python) :: A(range(), 0) // take the first column of A * two arguments to specify a range :: A(range (0,3), 0) // means A(0,0), A(1,0), A(2,0) .. warning:: the second element is excluded : range(0,3) is 0,1,2, like in Python. * three arguments : a range with a step :: A(range(0,4,2), 0) // means A(0,0), A(2,0) The `ellipsis` type ^^^^^^^^^^^^^^^^^^^^^^ * Ellipsis can be provided in place of `range`, as in python. The type `ellipsis` is similar to range except that it is implicitely repeated to as much as necessary. * Example: .. compileblock :: #include using triqs::arrays::array; using triqs::arrays::ellipsis; int main(){ array B(2,3,4,5) ; B(0,ellipsis(),3) ; // same as B(0, range(),range(), 3 ) B(0,ellipsis(),2,3); // same as B(0, range(), 2, 3 ) B(ellipsis(),2,3) ; // same as B( range(),range(), 2, 3 ) } * NB : there can be at most one ellipsis per expression (otherwise it would be meaningless). * Example of usage : Ellipsis are useful to write generic algorithms. For example, imagine that you want to sum arrays on their first index : .. compileblock :: #include using triqs::arrays::array; using triqs::arrays::ellipsis; // a generic function that sum array, array_view or in fact anything // with the right concept on its first dimension template array sum0 (ArrayType const & A) { array res = A(0,ellipsis()); for (size_t u =1; u< A.len(0); ++u) res += A(u,ellipsis()); return res; } // test int main(){ array A(5,2); A()=2; array B(5,2,3); B() = 1; std::cout<< sum0(A) << sum0(B) <