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// file : common/view/basics/test.hxx
// copyright : Copyright (c) 2009-2015 Code Synthesis Tools CC
// license : GNU GPL v2; see accompanying LICENSE file
#ifndef TEST_HXX
#define TEST_HXX
#include <string>
#include <vector>
#include <cstddef> // std::size_t
#include <odb/core.hxx>
#include <odb/nullable.hxx>
struct employer;
#pragma db object
struct country
{
country (const std::string& c, const std::string& n)
: code (c), name (n)
{
}
country ()
{
}
#pragma db id
std::string code; // ISO 2-letter country code.
std::string name;
};
enum gender_type {male, female};
#pragma db value
struct measures
{
measures (unsigned short w, unsigned short h) : weight (w), hight (h) {}
measures () {}
unsigned short weight;
unsigned short hight;
};
#pragma db object
struct person
{
typedef ::measures measures_type;
person (unsigned long i,
const std::string& fn,
const std::string& ln,
unsigned short a,
gender_type g,
const measures_type m,
country* r,
country* n)
: id (i),
first_name_ (fn),
last_name_ (ln),
age (a),
gender (g),
measures (m),
residence (r),
nationality (n),
husband (0)
{
}
person ()
{
}
#pragma db id
unsigned long id;
#pragma db column("first")
std::string first_name_;
#pragma db column("last")
std::string last_name_;
unsigned short age;
// #pragma db type("INT") - in MySQL test type pragma copying
gender_type gender;
measures_type measures;
#pragma db not_null
country* residence;
#pragma db not_null
country* nationality;
#pragma db inverse(employees)
employer* employed_by;
// A non-pointer relationship.
//
odb::nullable<std::string> previous_employer;
person* husband; // Self-reference.
};
#pragma db object
struct employer
{
employer (const std::string& n)
: name (n)
{
}
employer ()
{
}
#pragma db id
std::string name;
unsigned int head_count;
std::vector<person*> employees;
};
//
// General view with no associated objects.
//
// Complete suffix query template.
//
#ifndef ODB_DATABASE_ORACLE
# pragma db view query("SELECT first, last, age FROM t_view_b_person")
#else
# pragma db view query("SELECT \"first\", \"last\", \"age\" " \
"FROM \"t_view_b_person\"")
#endif
struct view1
{
std::string first;
std::string last;
unsigned short age;
};
// Complete query.
//
#ifndef ODB_DATABASE_ORACLE
# pragma db view query("SELECT first, last, age " \
"FROM t_view_b_person " \
"WHERE age < 31 ORDER BY age")
#else
# pragma db view query("SELECT \"first\", \"last\", \"age\" " \
"FROM \"t_view_b_person\" " \
"WHERE \"age\" < 31 ORDER BY \"age\"")
#endif
struct view1a
{
std::string first;
std::string last;
unsigned short age;
};
// Complete placeholder query template.
//
#ifndef ODB_DATABASE_ORACLE
# pragma db view query("SELECT first, last, age " \
"FROM t_view_b_person " \
"WHERE age < 31 AND (?) ORDER BY age")
#else
# pragma db view query("SELECT \"first\", \"last\", \"age\" " \
"FROM \"t_view_b_person\" " \
"WHERE \"age\" < 31 AND (?) ORDER BY \"age\"")
#endif
struct view1b
{
std::string first;
std::string last;
unsigned short age;
};
// Runtime query.
//
#pragma db view //query()
struct view1c
{
std::string first;
std::string last;
unsigned short age;
};
// Assembled SELECT and FROM-lists.
//
#pragma db view table("t_view_b_person")
struct view1d
{
#pragma db column("first")
std::string first;
#pragma db column("last")
std::string last;
#pragma db column("age")
unsigned short age;
};
//
// Count view plus associated object.
//
// Complete suffix query.
//
#ifndef ODB_DATABASE_ORACLE
# pragma db view object(person) \
query("SELECT count(id) FROM t_view_b_person")
#else
# pragma db view object(person) \
query("SELECT count(\"id\") FROM \"t_view_b_person\"")
#endif
struct view2
{
std::size_t count;
};
// Generated query, literal column.
//
#pragma db view object(person)
struct view2a
{
#ifndef ODB_DATABASE_ORACLE
#pragma db column("count(id)")
#else
#pragma db column("count(\"id\")")
#endif
std::size_t count;
};
// Generated query, qualified literal column.
//
#pragma db view object(person)
struct view2b
{
#ifndef ODB_DATABASE_ORACLE
#pragma db column("count(t_view_b_person.id)")
#else
#pragma db column("count(\"t_view_b_person\".\"id\")")
#endif
std::size_t count;
};
// Generated query, expression column.
//
#pragma db view object(person)
struct view2c
{
#pragma db column("count(" + person::id + ")")
std::size_t count;
};
//
// Aggregate view plus associated object with a custom alias.
//
// Complete suffix query.
//
#ifndef ODB_DATABASE_ORACLE
# pragma db view object(person = test) \
query("SELECT last, count(last) " \
"FROM t_view_b_person " \
"GROUP BY last")
#else
# pragma db view object(person = test) \
query("SELECT \"last\", count(\"last\") " \
"FROM \"t_view_b_person\" " \
"GROUP BY \"last\"")
#endif
struct view3
{
std::string last_name;
std::size_t count;
};
// Generated query with integrated query condition and placeholder.
//
#pragma db view object(person = test) \
query((?) + "GROUP BY" + test::last_name_)
struct view3a
{
// Automatically resolved to test::last_name_.
//
std::string last_name;
#pragma db column("count(" + test::last_name_ + ")")
std::size_t count;
};
//
// JOIN view plus associated objects, some with custom aliases.
//
// Complete suffix query.
//
#ifndef ODB_DATABASE_ORACLE
# pragma db view object(person) object(country = residence) \
query("SELECT first, last, residence.name " \
"FROM t_view_b_person " \
"LEFT JOIN t_view_b_country AS residence " \
"ON t_view_b_person.residence = residence.code")
#else
# pragma db view object(person) object(country = residence) \
query("SELECT \"first\", \"last\", \"residence\".\"name\" " \
"FROM \"t_view_b_person\" " \
"LEFT JOIN \"t_view_b_country\" \"residence\" " \
"ON \"t_view_b_person\".\"residence\" = \"residence\".\"code\"")
#endif
struct view4
{
std::string first_name;
std::string last_name;
std::string name;
};
// Generated query.
//
#pragma db view object(person) \
object(country = residence: person::residence)
struct view4a
{
std::string first_name;
std::string last_name;
std::string name;
};
//
// JOIN the same object twice.
//
#pragma db view object(person) \
object(country = residence: person::residence) \
object(country = nationality: person::nationality) \
query((?) + "ORDER BY" + person::age)
struct view5
{
std::string first_name;
std::string last_name;
#pragma db column(residence::name)
std::string rname;
#pragma db column(nationality::name)
std::string nname;
};
//
// JOIN via one(i)-to-many relationship.
//
// Automatic relationship discovery.
//
#pragma db view object(person) object(employer)
struct view6
{
std::string first_name;
std::string last_name;
#pragma db column(::employer::name)
std::string employer;
};
// Manual relationship specification, left side.
//
#pragma db view object(person) object(employer: person::employed_by)
struct view6a
{
std::string first_name;
std::string last_name;
#pragma db column(::employer::name)
std::string employer;
};
// Manual relationship specification, right side.
//
#pragma db view object(person) object(employer: employer::employees)
struct view6b
{
std::string first_name;
std::string last_name;
#pragma db column(::employer::name)
std::string employer;
};
// The same using tables.
//
#if defined(ODB_DATABASE_ORACLE)
#pragma db view table("t_view_b_person" = "p") \
table("t_view_b_employer_employees" = "ee": "\"ee\".\"value\" = \"p\".\"id\"")\
table("t_view_b_employer" = "e": "\"ee\".\"object_id\" = \"e\".\"name\"")
#elif defined(ODB_DATABASE_MSSQL)
#pragma db view table("t_view_b_person" = "p") \
table("t_view_b_employer_employees" = "ee": "ee.value = p.id") \
table("t_view_b_employer" = "e": "[ee].[object_id] = e.name")
#elif defined(ODB_DATABASE_MYSQL)
#pragma db view table("t_view_b_person" = "p") \
table("t_view_b_employer_employees" = "ee": "ee.value = p.id") \
table("t_view_b_employer" = "e": "`ee`.`object_id` = e.name")
#else
#pragma db view table("t_view_b_person" = "p") \
table("t_view_b_employer_employees" = "ee": "ee.value = p.id") \
table("t_view_b_employer" = "e": "\"ee\".\"object_id\" = e.name")
#endif
struct view6c
{
#pragma db column("p.first")
std::string first_name;
#pragma db column("p.last")
std::string last_name;
#pragma db column("e"."name")
std::string employer;
};
//
// JOIN via a custom condition.
//
#pragma db view object(person) \
object(employer: person::previous_employer == employer::name)\
query((?) + "ORDER BY" + person::age)
struct view7
{
std::string first_name;
std::string last_name;
odb::nullable<unsigned int> head_count;
};
//
// Self-JOIN.
//
#pragma db view object(person = wife) object(person = husb) \
query (wife::husband.is_not_null ())
struct view8
{
#pragma db column(wife::first_name_)
std::string wife_name;
#pragma db column(husb::first_name_)
std::string husb_name;
};
//
// Enum mapping.
//
#pragma db view object(person)
struct view9
{
std::string first_name;
std::string last_name;
gender_type gender;
};
//
// Composite in view.
//
#pragma db view object(person) query((?) + "ORDER BY" + person::age)
struct view10
{
std::string last_name;
::measures measures;
};
//
// Composite in object.
//
#pragma db view object(person) \
query((person::measures.weight > 60 && person::measures.hight < 190 && (?)) \
+ "ORDER BY" + person::age)
struct view11
{
std::string last_name;
#pragma db column(person::measures.hight)
unsigned short hight;
};
//
// Extract object pointer as object id.
//
#pragma db view object(person)
struct view12
{
std::string residence;
};
//
// Test 'distinct' result modifier.
//
#pragma db view object(employer) object(person) query(distinct)
struct view13
{
std::string name;
};
//
// Test 'for_update' result modifier.
//
#pragma db view object(employer) query((?), for_update)
struct view14
{
std::string name;
};
// Test join types.
//
#pragma db namespace table("t2_")
namespace test2
{
#pragma db object
struct obj1
{
obj1 (int id = 0, int n_ = 0): id1 (id), n (n_) {}
#pragma db id
int id1;
int n;
};
#pragma db object no_id
struct obj2
{
obj2 (int id = 0, int n_ = 0): id2 (id), n (n_) {}
#pragma db id
int id2;
int n;
};
#pragma db view object(obj1 = o1) object(obj2 = o2 left: o1::n == o2::n)
struct vleft
{
int id1;
odb::nullable<int> id2;
};
#if !defined(ODB_DATABASE_SQLITE) && !defined(ODB_DATABASE_COMMON)
#pragma db view object(obj2 = o2) object(obj1 = o1 right: o2::n == o1::n)
struct vright
{
int id1;
odb::nullable<int> id2;
};
#endif
#if !defined(ODB_DATABASE_MYSQL) && \
!defined(ODB_DATABASE_SQLITE) && \
!defined(ODB_DATABASE_COMMON)
#pragma db view object(obj1 = o1) object(obj2 = o2 full: o1::n == o2::n)
struct vfull
{
odb::nullable<int> id1;
odb::nullable<int> id2;
};
#endif
#pragma db view object(obj1 = o1) object(obj2 = o2 inner: o1::n == o2::n)
struct vinner
{
int id1;
int id2;
};
#pragma db view object(obj1 = o1) object(obj2 = o2 cross)
struct vcross
{
int id1;
int id2;
};
// Inner JOIN via relationship/container.
//
#pragma db object
struct obj3
{
obj3 (int id = 0, int n_ = 0): id3 (id), n (n_) {}
#pragma db id
int id3;
int n;
};
#pragma db object no_id
struct obj4
{
obj4 (int id = 0, int n_ = 0): id4 (id), n (n_) {}
#pragma db id
int id4;
int n;
std::vector<obj3*> o3;
};
#pragma db view object(obj4) object(obj3 inner)
struct vrel
{
int id4;
};
}
#endif // TEST_HXX
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