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// file : common/container/basics/test.hxx
// license : GNU GPL v2; see accompanying LICENSE file
#ifndef TEST_HXX
#define TEST_HXX
#include <map>
#include <set>
#include <list>
#include <vector>
#include <deque>
#include <array>
#include <string>
#include <forward_list>
#include <unordered_map>
#include <unordered_set>
#include <odb/core.hxx>
#pragma db value
struct comp
{
comp () {}
comp (int n, const std::string& s) : num (n), str (s) {}
#pragma db column("number")
int num = 0;
std::string str;
};
inline bool
operator== (const comp& x, const comp& y)
{
return x.num == y.num && x.str == y.str;
}
inline bool
operator!= (const comp& x, const comp& y)
{
return !(x == y);
}
inline bool
operator< (const comp& x, const comp& y)
{
return x.num != y.num ? x.num < y.num : x.str < y.str;
}
typedef std::list<std::string> str_list;
typedef std::deque<int> num_deque;
typedef std::vector<int> num_vector;
typedef std::vector<std::string> str_vector;
typedef std::set<int> num_set;
typedef std::set<std::string> str_set;
typedef std::set<comp> comp_set;
typedef std::map<int, std::string> num_str_map;
typedef std::map<std::string, int> str_num_map;
typedef std::map<int, comp> num_comp_map;
typedef std::map<comp, std::string> comp_str_map;
struct comp_hash
{
std::size_t
operator() (const comp& x) const {return nh (x.num) + sh (x.str);}
std::hash<int> nh;
std::hash<std::string> sh;
};
typedef std::array<int, 3> num_array;
typedef std::array<std::string, 3> str_array;
typedef std::array<comp, 3> comp_array;
typedef std::forward_list<int> num_flist;
typedef std::forward_list<std::string> str_flist;
typedef std::forward_list<comp> comp_flist;
typedef std::unordered_set<int> num_uset;
typedef std::unordered_set<std::string> str_uset;
typedef std::unordered_set<comp, comp_hash> comp_uset;
typedef std::unordered_map<int, std::string> num_str_umap;
typedef std::unordered_map<std::string, int> str_num_umap;
typedef std::unordered_map<int, comp> num_comp_umap;
typedef std::unordered_map<comp, std::string, comp_hash> comp_str_umap;
#pragma db value
struct cont_comp1
{
// This composite value does not have any columns.
//
num_vector sv; // Have the name "conflic" with the one in the object.
};
#pragma db value
struct cont_comp2
{
cont_comp2 (): num (777), str ("ggg") {}
int num;
str_list sl;
std::string str;
};
#pragma db object
struct object
{
object (): nv (comp1_.sv), sl (comp2_.sl) {}
object (const std::string& id) : id_ (id), nv (comp1_.sv), sl (comp2_.sl) {}
#pragma db id
std::string id_;
int num;
cont_comp1 comp1_;
cont_comp2 comp2_;
// vector
//
#pragma db transient
num_vector& nv;
#pragma db table("object_strings") id_column ("obj_id")
str_vector sv;
#pragma db value_column("")
std::vector<comp> cv;
#pragma db unordered
num_vector uv;
// list
//
#pragma db transient
str_list& sl;
// deque
//
num_deque nd;
// set
//
num_set ns;
str_set ss;
comp_set cs;
// map
//
num_str_map nsm;
str_num_map snm;
num_comp_map ncm;
comp_str_map csm;
// array
//
num_array na;
str_array sa;
comp_array ca;
// forward_list
//
num_flist nfl;
str_flist sfl;
comp_flist cfl;
// unordered_set
//
num_uset nus;
str_uset sus;
comp_uset cus;
// unordered_map
//
num_str_umap nsum;
str_num_umap snum;
num_comp_umap ncum;
comp_str_umap csum;
std::string str;
};
inline bool
operator== (const object& x, const object& y)
{
if (x.uv.size () != y.uv.size ())
return false;
int xs (0), ys (0);
for (num_vector::size_type i (0); i < x.uv.size (); ++i)
{
xs += x.uv[i];
ys += y.uv[i];
}
return
x.id_ == y.id_ &&
x.num == y.num &&
x.comp2_.num == y.comp2_.num &&
x.comp2_.str == y.comp2_.str &&
x.nv == y.nv &&
x.sv == y.sv &&
x.cv == y.cv &&
xs == ys &&
x.sl == y.sl &&
x.nd == y.nd &&
x.ns == y.ns &&
x.ss == y.ss &&
x.cs == y.cs &&
x.nsm == y.nsm &&
x.snm == y.snm &&
x.ncm == y.ncm &&
x.csm == y.csm &&
x.na == y.na &&
x.sa == y.sa &&
x.ca == y.ca &&
x.nfl == y.nfl &&
x.sfl == y.sfl &&
x.cfl == y.cfl &&
x.nus == y.nus &&
x.sus == y.sus &&
x.cus == y.cus &&
x.nsum == y.nsum &&
x.snum == y.snum &&
x.ncum == y.ncum &&
x.csum == y.csum &&
x.str == y.str;
}
#endif // TEST_HXX
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