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问题描述

假设您有一个简单的矩阵类

Imagine you have a simple matrix class

template <typename T = double>
class Matrix {

  T* data;
  size_t row, col;

public:

  Matrix(size_t m, size_t n) : row(m), col(n), data(new T[m*n]) {}
  //...

  friend std::ostream& operator<<(std::ostream& os, const Matrix& m) {
    for (int i=0; i<m.row; ++i) {
      for (int j=0; j<m.col; ++j)
        os<<" "<<m.data[i + j*m.row];
      os<<endl;
    }
    return os;
  }
};

有没有一种方法可以使用初始化列表初始化该矩阵?我的意思是从初始化列表中获取矩阵和元素的大小.类似于以下代码:

Is there a way that I can initialize this matrix with an initializer list? I mean to obtain the sizes of the matrix and the elements from an initializer list. Something like the following code:

Matrix m = { {1., 3., 4.}, {2., 6, 2.}};

将打印

 1 3 4
 2 6 2

期待您的回答.谢谢你们.aa

Looking forward to your answers. Thank you all.aa

编辑

因此,我根据您的建议设计了一个有点通用的数组,该数组使用初始化程序列表来初始化元素.但这是我可以获得的最通用的.如果您有任何建议使它成为更通用的类,我将不胜感激.另外,还有两个问题:

So I worked on your suggestions to craft a somewhat generic array that initializes elements using initializer lists. But this is the most generic I could obtain.I would appreciate if any of you have any suggestions as to make it a more generic class.Also, a couple of questions:

  • 派生类初始化基类的状态是否可以?因此,我没有调用基本构造函数,但是我还是应该调用它吗?
  • 我将析构函数的Generic_base类定义为受保护的,这是正确的方法吗?
  • 有没有可以预见的方式以更通用的方式执行属于初始化程序构造函数的代码?我的意思是让一个通用构造函数来处理所有情况?
  • Is it fine that a derived class initializes the state of the base class? I'm not calling the base constructor because of this, but should I call it anyways?
  • I defined the destructor a the Generic_base class as protected, is this the right way to do it?
  • Is there any foreseeable way to carry out the code that belongs to the constructor of the initializer in a more generic way? I mean to have one general constructor that takes care of all cases?

我仅包含必要的代码来说明构造器中初始化列表的使用.移至更高尺寸时,会变得凌乱,但我只是检查了一下代码.

I included just the necessary code to illustrate the use of initializer lists in construction. When going to higher dimensions it gets messy, but I did one just to check the code.

#include <iostream>
#include <cassert>

using std::cout;
using std::endl;


template <int d, typename T>
class Generic_base {

protected:

  typedef T value_type;

  Generic_base() : n_(), data_(nullptr){}

  size_t n_[d] = {0};
  value_type* data_;
};



template <int d, typename T>
class Generic_traits;


template <typename T>
class Generic_traits<1,T> : public Generic_base<1,T> {

protected:

  typedef T value_type;
  typedef Generic_base<1,T> base_type;
  typedef std::initializer_list<T> initializer_type;

  using base_type::n_;
  using base_type::data_;


public:

  Generic_traits(initializer_type l) {

    assert(l.size() > 0);
    n_[0] = l.size();
    data_ = new T[n_[0]];

    int i = 0;
    for (const auto& v : l)
      data_[i++] = v;
  }
};


template <typename T>
class Generic_traits<2,T> : public Generic_base<2,T> {

protected:

  typedef T value_type;
  typedef Generic_base<2,T> base_type;

  typedef std::initializer_list<T> list_type;
  typedef std::initializer_list<list_type> initializer_type;

  using base_type::n_;
  using base_type::data_;

public:

  Generic_traits(initializer_type l) {

    assert(l.size() > 0);
    n_[0] = l.size();
    n_[1] = l.begin()->size();

    data_ = new T[n_[0]*n_[1]];

    int i = 0, j = 0;
    for (const auto& r : l) {

      assert(r.size() == n_[1]);
      for (const auto& v : r) {
        data_[i + j*n_[0]] = v;
        ++j;
      }
      j = 0;
      ++i;
    }
  }
};


template <typename T>
class Generic_traits<4,T> : public Generic_base<4,T> {

protected:

  typedef T value_type;
  typedef Generic_base<4,T> base_type;

  typedef std::initializer_list<T> list_type;
  typedef std::initializer_list<list_type> llist_type;
  typedef std::initializer_list<llist_type> lllist_type;
  typedef std::initializer_list<lllist_type> initializer_type;

  using base_type::n_;
  using base_type::data_;

public:

  Generic_traits(initializer_type l) {

    assert(l.size() > 0);
    assert(l.begin()->size() > 0);
    assert(l.begin()->begin()->size() > 0);
    assert(l.begin()->begin()->begin()->size() > 0);

    size_t m = n_[0] = l.size();
    size_t n = n_[1] = l.begin()->size();
    size_t o = n_[2] = l.begin()->begin()->size();
    n_[3] = l.begin()->begin()->begin()->size();

    data_ = new T[m*n*o*n_[3]];

    int i=0, j=0, k=0, p=0;
    for (const auto& u : l) {
      assert(u.size() == n_[1]);
      for (const auto& v : u) {
        assert(v.size() == n_[2]);
        for (const auto& x : v) {
          assert(x.size() == n_[3]);
          for (const auto& y : x) {
            data_[i + m*j + m*n*k + m*n*o*p] = y;
            ++p;
          }
          p = 0;
          ++k;
        }
        k = 0;
        ++j;
      }
      j = 0;
      ++i;
    }
  }
};



template <int d, typename T>
class Generic : public Generic_traits<d,T> {

public:

  typedef Generic_traits<d,T> traits_type;
  typedef typename traits_type::base_type base_type;

  using base_type::n_;
  using base_type::data_;

  typedef typename traits_type::initializer_type initializer_type;

  // initializer list constructor
  Generic(initializer_type l) : traits_type(l) {}

  size_t size() const {
    size_t n = 1;
    for (size_t i=0; i<d; ++i)
      n *= n_[i];
    return n;
  }

  friend std::ostream& operator<<(std::ostream& os, const Generic& a) {
    for (int i=0; i<a.size(); ++i)
      os<<" "<<a.data_[i];
    return os<<endl;
  }
};


int main()
{

  // constructors for initializer lists

  Generic<1, double> y = { 1., 2., 3., 4.};
  cout<<"y -> "<<y<<endl;

  Generic<2, double> C = { {1., 2., 3.}, {4., 5., 6.} };
  cout<<"C -> "<<C<<endl;

  Generic<4, double> TT = { {{{1.}, {7.}, {13.}, {19}}, {{2}, {8}, {14}, {20}}, {{3}, {9}, {15}, {21}}}, {{{4.}, {10}, {16}, {22}}, {{5}, {11}, {17}, {23}}, {{6}, {12}, {18}, {24}}} };
  cout<<"TT -> "<<TT<<endl;

  return 0;
}

预期打印的内容:

y ->  1 2 3 4

C ->  1 4 2 5 3 6

TT ->  1 4 2 5 3 6 7 10 8 11 9 12 13 16 14 17 15 18 19 22 20 23 21 24

推荐答案

为什么不呢?

  Matrix(std::initializer_list<std::initializer_list<T>> lst) :
  Matrix(lst.size(), lst.size() ? lst.begin()->size() : 0)
  {
     int i = 0, j = 0;
     for (const auto& l : lst)
     {
        for (const auto& v : l)
        {
           data[i + j * row] = v;
           ++j;
        }
        j = 0;
        ++i;
     }
  }

正如stardust_所建议-您应该使用向量,而不是数组.

And as stardust_ suggests - you should use vectors, not arrays here.

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08-22 13:29