// file : common/id/composite/test.hxx // copyright : Copyright (c) 2009-2017 Code Synthesis Tools CC // license : GNU GPL v2; see accompanying LICENSE file #ifndef TEST_HXX #define TEST_HXX #include #include #include #pragma db value struct scomp { scomp () {} scomp (const std::string& s1, const std::string& s2, const std::string& s3) : str1 (s1), str2 (s2), str3 (s3) { } std::string str1; std::string str2; std::string str3; }; inline bool operator== (const scomp& x, const scomp& y) { return x.str1 == y.str1 && x.str2 == y.str2 && x.str3 == y.str3; } inline bool operator< (const scomp& x, const scomp& y) { return x.str1 < y.str1 || (x.str1 == y.str1 && x.str2 < y.str2) || (x.str1 == y.str1 && x.str2 == y.str2 && x.str3 < y.str3); } #pragma db value struct ncomp { ncomp () {} ncomp (unsigned short n1, unsigned short n2, unsigned short n3) : num1 (n1), num2 (n2), num3 (n3) { } unsigned short num1; unsigned short num2; unsigned short num3; }; inline bool operator== (const ncomp& x, const ncomp& y) { return x.num1 == y.num1 && x.num2 == y.num2 && x.num3 == y.num3; } inline bool operator< (const ncomp& x, const ncomp& y) { return x.num1 < y.num1 || (x.num1 == y.num1 && x.num2 < y.num2) || (x.num1 == y.num1 && x.num2 == y.num2 && x.num3 < y.num3); } // Test object with composite id, container. // #pragma db namespace table("t1_") namespace test1 { #pragma db object struct object { object () {} object (const scomp& i, unsigned long n): id (i), num (n) {} #pragma db id scomp id; unsigned long num; std::vector vec; }; inline bool operator== (const object& x, const object& y) { return x.id == y.id && x.num == y.num && x.vec == y.vec; } } // Test to-one and to-many relationships with composite id as well as // queries and views. // #pragma db namespace table("t2_") namespace test2 { #pragma db object struct object1 { object1 () {} object1 (const scomp& i): id (i) {} #pragma db id scomp id; }; #pragma db object struct object2 { object2 (): o1 (0) {} object2 (const ncomp& i): id (i), o1 (0) {} ~object2 () {delete o1;} #pragma db id ncomp id; object1* o1; }; #pragma db object struct object3 { object3 () {} object3 (const ncomp& i): id (i) {} ~object3 () { for (std::vector::iterator i (o1.begin ()); i != o1.end (); ++i) delete *i; } #pragma db id ncomp id; std::vector o1; }; // Test second-level query pointer test as well as pointers in // composite types. // #pragma db value struct comp { comp (): o2 (0) {} ~comp () {delete o2;} object2* o2; }; #pragma db object struct object4 { object4 () {} object4 (const ncomp& i): id (i) {} #pragma db id ncomp id; comp c; }; #pragma db view object(object2) object(object1) struct view2 { #pragma db column (object2::id.num3) unsigned short num; #pragma db column (object1::id.str3) std::string str; }; #pragma db view object(object3) object(object1) struct view3 { #pragma db column (object3::id.num3) unsigned short num; #pragma db column (object1::id.str3) std::string str; }; #pragma db view object(object4) object(object2) object(object1) struct view4 { #pragma db column (object4::id.num3) unsigned short num4; #pragma db column (object2::id.num3) unsigned short num2; #pragma db column (object1::id.str3) std::string str; }; } // Test one-to-one(i) relationship with composite id. // #pragma db namespace table("t3_") namespace test3 { struct object2; #pragma db object struct object1 { object1 () {} object1 (const scomp& i): id (i) {} #pragma db id scomp id; #pragma db inverse(o1) object2* o2; }; #pragma db object struct object2 { object2 (): o1 (0) {} object2 (const ncomp& i): id (i), o1 (0) {} ~object2 () {delete o1;} #pragma db id ncomp id; object1* o1; }; #pragma db view object(object2) object(object1) struct view { #pragma db column (object2::id.num3) unsigned short num; #pragma db column (object1::id.str3) std::string str; }; } // Test many-to-one(i) relationship with composite id. // #pragma db namespace table("t4_") namespace test4 { struct object2; #pragma db object struct object1 { object1 () {} object1 (const scomp& i): id (i) {} #pragma db id scomp id; #pragma db inverse(o1) object2* o2; }; #pragma db object struct object2 { object2 () {} object2 (const ncomp& i): id (i) {} ~object2 () { for (std::vector::iterator i (o1.begin ()); i != o1.end (); ++i) delete *i; } #pragma db id ncomp id; std::vector o1; }; #pragma db view object(object2) object(object1) struct view { #pragma db column (object2::id.num3) unsigned short num; #pragma db column (object1::id.str3) std::string str; }; } // Test one-to-many(i) relationship with composite id. // #pragma db namespace table("t5_") namespace test5 { struct object2; #pragma db object struct object1 { object1 () {} object1 (const scomp& i): id (i) {} #pragma db id scomp id; object2* o2; }; #pragma db object struct object2 { object2 () {} object2 (const ncomp& i): id (i) {} ~object2 () { for (std::vector::iterator i (o1.begin ()); i != o1.end (); ++i) delete *i; } #pragma db id ncomp id; #pragma db inverse(o2) std::vector o1; }; #pragma db view object(object2) object(object1) struct view { #pragma db column (object2::id.num3) unsigned short num; #pragma db column (object1::id.str3) std::string str; }; } // Test many-to-many(i) relationship with composite id. // #pragma db namespace table("t6_") namespace test6 { struct object2; #pragma db object struct object1 { object1 () {} object1 (const scomp& i): id (i) {} #pragma db id scomp id; std::vector o2; }; #pragma db object struct object2 { object2 () {} object2 (const ncomp& i): id (i) {} ~object2 () { for (std::vector::iterator i (o1.begin ()); i != o1.end (); ++i) delete *i; } #pragma db id ncomp id; #pragma db inverse(o2) std::vector o1; }; #pragma db view object(object2) object(object1) struct view { #pragma db column (object2::id.num3) unsigned short num; #pragma db column (object1::id.str3) std::string str; }; } // Test object with composite id and version (optimistic concurrency). // #pragma db namespace table("t7_") namespace test7 { #pragma db object optimistic struct object { object () {} object (const scomp& i, unsigned long n): id (i), num (n) {} #pragma db id scomp id; #pragma db version unsigned long ver; unsigned long num; }; inline bool operator== (const object& x, const object& y) { return x.id == y.id && x.ver == y.ver && x.num == y.num; } } // Test composite NULL pointers. // #pragma db namespace table("t8_") namespace test8 { #pragma db object struct object1 { object1 () {} object1 (const scomp& i, unsigned long n): id (i), num (n) {} #pragma db id scomp id; unsigned long num; }; inline bool operator== (const object1& x, const object1& y) { return x.id == y.id && x.num == y.num; } #pragma db object struct object2 { object2 (): o1 (0) {} ~object2 () {delete o1;} #pragma db id auto unsigned long id; object1* o1; }; #pragma db object struct object3 { ~object3 () { for (std::vector::iterator i (o1.begin ()); i != o1.end (); ++i) delete *i; } #pragma db id auto unsigned long id; std::vector o1; }; } // Test composite id definition inside object. // #pragma db namespace table("t9_") namespace test9 { #pragma db object struct object { object (unsigned long n = 0, const std::string& s = "") { id_.num = n; id_.str = s; } unsigned long num () const {return id_.num;} const std::string& str () const {return id_.str;} std::vector v; private: friend class odb::access; #pragma db value struct comp { unsigned long num; std::string str; bool operator< (const comp& x) const { return num < x.num || (num == x.num && str < x.str); } }; #pragma db id comp id_; }; inline bool operator== (const object& x, const object& y) { return x.num () == y.num () && x.str () == y.str () && x.v == y.v; } } #endif // TEST_HXX