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# define SOL_CHECK_ARGUMENTS
# include <sol.hpp>
# include <catch.hpp>
# include <iostream>
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# include <list>
# include <memory>
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# include <mutex>
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struct vars {
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vars ( ) {
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}
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int boop = 0 ;
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~ vars ( ) {
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}
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} ;
struct fuser {
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int x ;
fuser ( ) : x ( 0 ) { }
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fuser ( int x ) : x ( x ) { }
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int add ( int y ) {
return x + y ;
}
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int add2 ( int y ) {
return x + y + 2 ;
}
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} ;
namespace crapola {
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struct fuser {
int x ;
fuser ( ) : x ( 0 ) { }
fuser ( int x ) : x ( x ) { }
fuser ( int x , int x2 ) : x ( x * x2 ) { }
int add ( int y ) {
return x + y ;
}
int add2 ( int y ) {
return x + y + 2 ;
}
} ;
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} // crapola
class Base {
public :
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Base ( int a_num ) : m_num ( a_num ) { }
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int get_num ( ) {
return m_num ;
}
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protected :
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int m_num ;
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} ;
class Derived : public Base {
public :
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Derived ( int a_num ) : Base ( a_num ) { }
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int get_num_10 ( ) {
return 10 * m_num ;
}
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} ;
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class abstract_A {
public :
virtual void a ( ) = 0 ;
} ;
class abstract_B : public abstract_A {
public :
virtual void a ( ) override {
INFO ( " overridden a() in B : public A - BARK " ) ;
}
} ;
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struct Vec {
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float x , y , z ;
Vec ( float x , float y , float z ) : x { x } , y { y } , z { z } { }
float length ( ) {
return sqrtf ( x * x + y * y + z * z ) ;
}
Vec normalized ( ) {
float invS = 1 / length ( ) ;
return { x * invS , y * invS , z * invS } ;
}
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} ;
struct giver {
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int a = 0 ;
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giver ( ) {
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}
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void gief ( ) {
a = 1 ;
}
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static void stuff ( ) {
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}
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static void gief_stuff ( giver & t , int a ) {
t . a = a ;
}
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~ giver ( ) {
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}
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} ;
struct factory_test {
private :
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factory_test ( ) { a = true_a ; }
~ factory_test ( ) { a = 0 ; }
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public :
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static int num_saved ;
static int num_killed ;
struct deleter {
void operator ( ) ( factory_test * f ) {
f - > ~ factory_test ( ) ;
}
} ;
static const int true_a ;
int a ;
static std : : unique_ptr < factory_test , deleter > make ( ) {
return std : : unique_ptr < factory_test , deleter > ( new factory_test ( ) , deleter ( ) ) ;
}
static void save ( factory_test & f ) {
new ( & f ) factory_test ( ) ;
+ + num_saved ;
}
static void kill ( factory_test & f ) {
f . ~ factory_test ( ) ;
+ + num_killed ;
}
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} ;
int factory_test : : num_saved = 0 ;
int factory_test : : num_killed = 0 ;
const int factory_test : : true_a = 156 ;
bool something ( ) {
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return true ;
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}
struct thing {
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int v = 100 ;
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thing ( ) { }
thing ( int x ) : v ( x ) { }
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} ;
struct self_test {
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int bark ;
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self_test ( ) : bark ( 100 ) {
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}
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void g ( const std : : string & str ) {
std : : cout < < str < < ' \n ' ;
bark + = 1 ;
}
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void f ( const self_test & t ) {
std : : cout < < " got test " < < ' \n ' ;
if ( t . bark ! = bark )
throw sol : : error ( " bark values are not the same for self_test f function " ) ;
if ( & t ! = this )
throw sol : : error ( " call does not reference self for self_test f function " ) ;
}
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} ;
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struct ext_getset {
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int bark = 24 ;
const int meow = 56 ;
ext_getset ( ) = default ;
ext_getset ( int v ) : bark ( v ) { }
ext_getset ( ext_getset & & ) = default ;
ext_getset ( const ext_getset & ) = delete ;
ext_getset & operator = ( ext_getset & & ) = default ;
ext_getset & operator = ( const ext_getset & ) = delete ;
~ ext_getset ( ) {
}
std : : string x ( ) {
return " bark bark bark " ;
}
int x2 ( std : : string x ) {
return static_cast < int > ( x . length ( ) ) ;
}
void set ( sol : : variadic_args , sol : : this_state , int x ) {
bark = x ;
}
int get ( sol : : this_state , sol : : variadic_args ) {
return bark ;
}
static void s_set ( int ) {
}
static int s_get ( int x ) {
return x + 20 ;
}
} ;
template < typename T >
void des ( T & e ) {
e . ~ T ( ) ;
}
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TEST_CASE ( " usertype/usertype " , " Show that we can create classes from usertype and use them " ) {
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sol : : state lua ;
sol : : usertype < fuser > lc { " add " , & fuser : : add , " add2 " , & fuser : : add2 } ;
lua . set_usertype ( lc ) ;
lua . script ( " a = fuser:new() \n "
" b = a:add(1) \n "
" c = a:add2(1) \n " ) ;
sol : : object a = lua . get < sol : : object > ( " a " ) ;
sol : : object b = lua . get < sol : : object > ( " b " ) ;
sol : : object c = lua . get < sol : : object > ( " c " ) ;
REQUIRE ( ( a . is < sol : : userdata_value > ( ) ) ) ;
auto atype = a . get_type ( ) ;
auto btype = b . get_type ( ) ;
auto ctype = c . get_type ( ) ;
REQUIRE ( ( atype = = sol : : type : : userdata ) ) ;
REQUIRE ( ( btype = = sol : : type : : number ) ) ;
REQUIRE ( ( ctype = = sol : : type : : number ) ) ;
int bresult = b . as < int > ( ) ;
int cresult = c . as < int > ( ) ;
REQUIRE ( bresult = = 1 ) ;
REQUIRE ( cresult = = 3 ) ;
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}
TEST_CASE ( " usertype/usertype-constructors " , " Show that we can create classes from usertype and use them with multiple constructors " ) {
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sol : : state lua ;
sol : : constructors < sol : : types < > , sol : : types < int > , sol : : types < int , int > > con ;
sol : : usertype < crapola : : fuser > lc ( con , " add " , & crapola : : fuser : : add , " add2 " , & crapola : : fuser : : add2 ) ;
lua . set_usertype ( lc ) ;
lua . script (
" a = fuser.new(2) \n "
" u = a:add(1) \n "
" v = a:add2(1) \n "
" b = fuser:new() \n "
" w = b:add(1) \n "
" x = b:add2(1) \n "
" c = fuser.new(2, 3) \n "
" y = c:add(1) \n "
" z = c:add2(1) \n " ) ;
sol : : object a = lua . get < sol : : object > ( " a " ) ;
auto atype = a . get_type ( ) ;
REQUIRE ( ( atype = = sol : : type : : userdata ) ) ;
sol : : object u = lua . get < sol : : object > ( " u " ) ;
sol : : object v = lua . get < sol : : object > ( " v " ) ;
REQUIRE ( ( u . as < int > ( ) = = 3 ) ) ;
REQUIRE ( ( v . as < int > ( ) = = 5 ) ) ;
sol : : object b = lua . get < sol : : object > ( " b " ) ;
auto btype = b . get_type ( ) ;
REQUIRE ( ( btype = = sol : : type : : userdata ) ) ;
sol : : object w = lua . get < sol : : object > ( " w " ) ;
sol : : object x = lua . get < sol : : object > ( " x " ) ;
REQUIRE ( ( w . as < int > ( ) = = 1 ) ) ;
REQUIRE ( ( x . as < int > ( ) = = 3 ) ) ;
sol : : object c = lua . get < sol : : object > ( " c " ) ;
auto ctype = c . get_type ( ) ;
REQUIRE ( ( ctype = = sol : : type : : userdata ) ) ;
sol : : object y = lua . get < sol : : object > ( " y " ) ;
sol : : object z = lua . get < sol : : object > ( " z " ) ;
REQUIRE ( ( y . as < int > ( ) = = 7 ) ) ;
REQUIRE ( ( z . as < int > ( ) = = 9 ) ) ;
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}
TEST_CASE ( " usertype/usertype-utility " , " Show internal management of classes registered through new_usertype " ) {
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sol : : state lua ;
lua . new_usertype < fuser > ( " fuser " , " add " , & fuser : : add , " add2 " , & fuser : : add2 ) ;
lua . script ( " a = fuser.new() \n "
" b = a:add(1) \n "
" c = a:add2(1) \n " ) ;
sol : : object a = lua . get < sol : : object > ( " a " ) ;
sol : : object b = lua . get < sol : : object > ( " b " ) ;
sol : : object c = lua . get < sol : : object > ( " c " ) ;
REQUIRE ( ( a . is < sol : : userdata_value > ( ) ) ) ;
auto atype = a . get_type ( ) ;
auto btype = b . get_type ( ) ;
auto ctype = c . get_type ( ) ;
REQUIRE ( ( atype = = sol : : type : : userdata ) ) ;
REQUIRE ( ( btype = = sol : : type : : number ) ) ;
REQUIRE ( ( ctype = = sol : : type : : number ) ) ;
int bresult = b . as < int > ( ) ;
int cresult = c . as < int > ( ) ;
REQUIRE ( bresult = = 1 ) ;
REQUIRE ( cresult = = 3 ) ;
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}
TEST_CASE ( " usertype/usertype-utility-derived " , " usertype classes must play nice when a derived class does not overload a publically visible base function " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
sol : : constructors < sol : : types < int > > basector ;
sol : : usertype < Base > baseusertype ( basector , " get_num " , & Base : : get_num ) ;
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lua . set_usertype ( baseusertype ) ;
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lua . script ( " base = Base.new(5) " ) ;
REQUIRE_NOTHROW ( lua . script ( " print(base:get_num()) " ) ) ;
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sol : : constructors < sol : : types < int > > derivedctor ;
sol : : usertype < Derived > derivedusertype ( derivedctor ,
" get_num_10 " , & Derived : : get_num_10 ,
" get_num " , & Derived : : get_num
) ;
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lua . set_usertype ( derivedusertype ) ;
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lua . script ( " derived = Derived.new(7) " ) ;
Derived & derived = lua [ " derived " ] ;
lua . script ( " dgn = derived:get_num() \n "
" print(dgn) " ) ;
lua . script ( " dgn10 = derived:get_num_10() \n "
" print(dgn10) " ) ;
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REQUIRE ( ( lua . get < int > ( " dgn10 " ) = = 70 ) ) ;
REQUIRE ( ( lua . get < int > ( " dgn " ) = = 7 ) ) ;
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}
TEST_CASE ( " usertype/self-referential usertype " , " usertype classes must play nice when C++ object types are requested for C++ code " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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lua . new_usertype < self_test > ( " test " , " g " , & self_test : : g , " f " , & self_test : : f ) ;
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lua . script (
" local a = test.new() \n "
" a:g( \" woof \" ) \n "
" a:f(a) \n "
) ;
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}
TEST_CASE ( " usertype/issue-number-twenty-five " , " Using pointers and references from C++ classes in Lua " ) {
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struct test {
int x = 0 ;
test & set ( ) {
x = 10 ;
return * this ;
}
int get ( ) {
return x ;
}
test * pget ( ) {
return this ;
}
test create_get ( ) {
return * this ;
}
int fun ( int xa ) {
return xa * 10 ;
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < test > ( " test " , " set " , & test : : set , " get " , & test : : get , " pointer_get " , & test : : pget , " fun " , & test : : fun , " create_get " , & test : : create_get ) ;
REQUIRE_NOTHROW ( lua . script ( " x = test.new() " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(x:set():get() == 10) " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " y = x:pointer_get() " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " y:set():get() " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " y:fun(10) " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " x:fun(10) " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(y:fun(10) == x:fun(10), '...') " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(y:fun(10) == 100, '...') " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(y:set():get() == y:set():get(), '...') " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(y:set():get() == 10, '...') " ) ) ;
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}
TEST_CASE ( " usertype/issue-number-thirty-five " , " using value types created from lua-called C++ code, fixing user-defined types with constructors " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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sol : : constructors < sol : : types < float , float , float > > ctor ;
sol : : usertype < Vec > udata ( ctor , " normalized " , & Vec : : normalized , " length " , & Vec : : length ) ;
lua . set_usertype ( udata ) ;
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REQUIRE_NOTHROW ( lua . script ( " v = Vec.new(1, 2, 3) \n "
" print(v:length()) " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " v = Vec.new(1, 2, 3) \n "
" print(v:normalized():length()) " ) ) ;
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}
TEST_CASE ( " usertype/lua-stored-usertype " , " ensure usertype values can be stored without keeping usertype object alive " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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{
sol : : constructors < sol : : types < float , float , float > > ctor ;
sol : : usertype < Vec > udata ( ctor ,
" normalized " , & Vec : : normalized ,
" length " , & Vec : : length ) ;
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lua . set_usertype ( udata ) ;
// usertype dies, but still usable in lua!
}
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REQUIRE_NOTHROW ( lua . script ( " collectgarbage() \n "
" v = Vec.new(1, 2, 3) \n "
" print(v:length()) " ) ) ;
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REQUIRE_NOTHROW ( lua . script ( " v = Vec.new(1, 2, 3) \n "
" print(v:normalized():length()) " ) ) ;
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}
TEST_CASE ( " usertype/member-variables " , " allow table-like accessors to behave as member variables for usertype " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
sol : : constructors < sol : : types < float , float , float > > ctor ;
sol : : usertype < Vec > udata ( ctor ,
" x " , & Vec : : x ,
" y " , & Vec : : y ,
" z " , & Vec : : z ,
" normalized " , & Vec : : normalized ,
" length " , & Vec : : length ) ;
lua . set_usertype ( udata ) ;
REQUIRE_NOTHROW ( lua . script ( " v = Vec.new(1, 2, 3) \n "
" v2 = Vec.new(0, 1, 0) \n "
" print(v:length()) \n "
) ) ;
REQUIRE_NOTHROW ( lua . script ( " v.x = 2 \n "
" v2.y = 2 \n "
" print(v.x, v.y, v.z) \n "
" print(v2.x, v2.y, v2.z) \n "
) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(v.x == 2) \n "
" assert(v2.x == 0) \n "
" assert(v2.y == 2) \n "
) ) ;
REQUIRE_NOTHROW ( lua . script ( " v.x = 3 \n "
" local x = v.x \n "
" assert(x == 3) \n "
) ) ;
struct breaks {
sol : : function f ;
} ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . set ( " b " , breaks ( ) ) ;
lua . new_usertype < breaks > ( " breaks " ,
" f " , & breaks : : f
) ;
breaks & b = lua [ " b " ] ;
REQUIRE_NOTHROW ( lua . script ( " b.f = function () print('BARK!') end " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " b.f() " ) ) ;
REQUIRE_NOTHROW ( b . f ( ) ) ;
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}
TEST_CASE ( " usertype/nonmember-functions " , " let users set non-member functions that take unqualified T as first parameter to usertype " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < giver > ( " giver " ,
" gief_stuff " , giver : : gief_stuff ,
" gief " , & giver : : gief ,
" __tostring " , [ ] ( const giver & t ) {
return std : : to_string ( t . a ) + " : giving value " ;
}
) . get < sol : : table > ( " giver " )
. set_function ( " stuff " , giver : : stuff ) ;
REQUIRE_NOTHROW ( lua . script ( " giver.stuff() " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " t = giver.new() \n "
" print(tostring(t)) \n "
" t:gief() \n "
" t:gief_stuff(20) \n " ) ) ;
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giver & g = lua . get < giver > ( " t " ) ;
REQUIRE ( g . a = = 20 ) ;
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}
TEST_CASE ( " usertype/unique-shared-ptr " , " manage the conversion and use of unique and shared pointers ('unique usertypes') " ) {
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const int64_t unique_value = 0x7125679355635963 ;
auto uniqueint = std : : make_unique < int64_t > ( unique_value ) ;
auto sharedint = std : : make_shared < int64_t > ( unique_value ) ;
long preusecount = sharedint . use_count ( ) ;
{ sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . set ( " uniqueint " , std : : move ( uniqueint ) ) ;
lua . set ( " sharedint " , sharedint ) ;
std : : unique_ptr < int64_t > & uniqueintref = lua [ " uniqueint " ] ;
std : : shared_ptr < int64_t > & sharedintref = lua [ " sharedint " ] ;
int64_t * rawuniqueintref = lua [ " uniqueint " ] ;
int64_t * rawsharedintref = lua [ " sharedint " ] ;
int siusecount = sharedintref . use_count ( ) ;
REQUIRE ( ( uniqueintref . get ( ) = = rawuniqueintref & & sharedintref . get ( ) = = rawsharedintref ) ) ;
REQUIRE ( ( uniqueintref ! = nullptr & & sharedintref ! = nullptr & & rawuniqueintref ! = nullptr & & rawsharedintref ! = nullptr ) ) ;
REQUIRE ( ( unique_value = = * uniqueintref . get ( ) & & unique_value = = * sharedintref . get ( ) ) ) ;
REQUIRE ( ( unique_value = = * rawuniqueintref & & unique_value = = * rawsharedintref ) ) ;
REQUIRE ( siusecount = = sharedint . use_count ( ) ) ;
std : : shared_ptr < int64_t > moreref = sharedint ;
REQUIRE ( unique_value = = * moreref . get ( ) ) ;
REQUIRE ( moreref . use_count ( ) = = sharedint . use_count ( ) ) ;
REQUIRE ( moreref . use_count ( ) = = sharedintref . use_count ( ) ) ;
}
REQUIRE ( preusecount = = sharedint . use_count ( ) ) ;
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}
TEST_CASE ( " regressions/one " , " issue number 48 " ) {
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sol : : state lua ;
lua . new_usertype < vars > ( " vars " ,
" boop " , & vars : : boop ) ;
REQUIRE_NOTHROW ( lua . script ( " beep = vars.new() \n "
" beep.boop = 1 " ) ) ;
// test for segfault
auto my_var = lua . get < vars > ( " beep " ) ;
REQUIRE ( my_var . boop = = 1 ) ;
auto * ptr = & my_var ;
REQUIRE ( ptr - > boop = = 1 ) ;
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}
TEST_CASE ( " usertype/get-set-references " , " properly get and set with std::ref semantics. Note that to get, we must not use Unqualified<T> on the type... " ) {
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sol : : state lua ;
lua . new_usertype < vars > ( " vars " ,
" boop " , & vars : : boop ) ;
vars var { } ;
vars rvar { } ;
lua . set ( " beep " , var ) ;
lua . set ( " rbeep " , std : : ref ( rvar ) ) ;
auto & my_var = lua . get < vars > ( " beep " ) ;
auto & ref_var = lua . get < std : : reference_wrapper < vars > > ( " rbeep " ) ;
vars & proxy_my_var = lua [ " beep " ] ;
std : : reference_wrapper < vars > proxy_ref_var = lua [ " rbeep " ] ;
var . boop = 2 ;
rvar . boop = 5 ;
// Was return as a value: var must be diferent from "beep"
REQUIRE_FALSE ( std : : addressof ( var ) = = std : : addressof ( my_var ) ) ;
REQUIRE_FALSE ( std : : addressof ( proxy_my_var ) = = std : : addressof ( var ) ) ;
REQUIRE ( ( my_var . boop = = 0 ) ) ;
REQUIRE ( var . boop ! = my_var . boop ) ;
REQUIRE ( std : : addressof ( ref_var ) = = std : : addressof ( rvar ) ) ;
REQUIRE ( std : : addressof ( proxy_ref_var . get ( ) ) = = std : : addressof ( rvar ) ) ;
REQUIRE ( rvar . boop = = 5 ) ;
REQUIRE ( rvar . boop = = ref_var . boop ) ;
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}
TEST_CASE ( " usertype/destructor-tests " , " Show that proper copies / destruction happens " ) {
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static int created = 0 ;
static int destroyed = 0 ;
static void * last_call = nullptr ;
struct x {
x ( ) { + + created ; }
x ( const x & ) { + + created ; }
x ( x & & ) { + + created ; }
x & operator = ( const x & ) { return * this ; }
x & operator = ( x & & ) { return * this ; }
~ x ( ) { + + destroyed ; }
} ;
{
sol : : state lua ;
lua . new_usertype < x > ( " x " ) ;
x x1 ;
x x2 ;
lua . set ( " x1copy " , x1 , " x2copy " , x2 , " x1ref " , std : : ref ( x1 ) ) ;
x & x1copyref = lua [ " x1copy " ] ;
x & x2copyref = lua [ " x2copy " ] ;
x & x1ref = lua [ " x1ref " ] ;
REQUIRE ( created = = 4 ) ;
REQUIRE ( destroyed = = 0 ) ;
REQUIRE ( std : : addressof ( x1 ) = = std : : addressof ( x1ref ) ) ;
}
REQUIRE ( created = = 4 ) ;
REQUIRE ( destroyed = = 4 ) ;
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}
TEST_CASE ( " usertype/private-constructible " , " Check to make sure special snowflake types from Enterprise thingamahjongs work properly. " ) {
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int numsaved = factory_test : : num_saved ;
int numkilled = factory_test : : num_killed ;
{
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < factory_test > ( " factory_test " ,
" new " , sol : : initializers ( factory_test : : save ) ,
" __gc " , sol : : destructor ( factory_test : : kill ) ,
" a " , & factory_test : : a
) ;
std : : unique_ptr < factory_test , factory_test : : deleter > f = factory_test : : make ( ) ;
lua . set ( " true_a " , factory_test : : true_a , " f " , f . get ( ) ) ;
REQUIRE_NOTHROW ( lua . script ( " assert(f.a == true_a) " ) ) ;
REQUIRE_NOTHROW ( lua . script (
" local fresh_f = factory_test:new() \n "
" assert(fresh_f.a == true_a) \n " ) ) ;
}
int expectednumsaved = numsaved + 1 ;
int expectednumkilled = numkilled + 1 ;
REQUIRE ( expectednumsaved = = factory_test : : num_saved ) ;
REQUIRE ( expectednumkilled = = factory_test : : num_killed ) ;
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}
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TEST_CASE ( " usertype/const-pointer " , " Make sure const pointers can be taken " ) {
struct A { int x = 201 ; } ;
struct B {
int foo ( const A * a ) { return a - > x ; } ;
} ;
sol : : state lua ;
lua . new_usertype < B > ( " B " ,
" foo " , & B : : foo
) ;
lua . set ( " a " , A ( ) ) ;
lua . set ( " b " , B ( ) ) ;
lua . script ( " x = b:foo(a) " ) ;
int x = lua [ " x " ] ;
REQUIRE ( x = = 201 ) ;
}
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TEST_CASE ( " usertype/overloading " , " Check if overloading works properly for usertypes " ) {
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struct woof {
int var ;
int func ( int x ) {
return var + x ;
}
double func2 ( int x , int y ) {
return var + x + y + 0.5 ;
}
std : : string func2s ( int x , std : : string y ) {
return y + " " + std : : to_string ( x ) ;
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < woof > ( " woof " ,
" var " , & woof : : var ,
" func " , sol : : overload ( & woof : : func , & woof : : func2 , & woof : : func2s )
) ;
const std : : string bark_58 = " bark 58 " ;
REQUIRE_NOTHROW ( lua . script (
" r = woof:new() \n "
" a = r:func(1) \n "
" b = r:func(1, 2) \n "
" c = r:func(58, 'bark') \n "
) ) ;
REQUIRE ( ( lua [ " a " ] = = 1 ) ) ;
REQUIRE ( ( lua [ " b " ] = = 3.5 ) ) ;
REQUIRE ( ( lua [ " c " ] = = bark_58 ) ) ;
REQUIRE_THROWS ( lua . script ( " r:func(1,2,'meow') " ) ) ;
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}
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TEST_CASE ( " usertype/overloading_values " , " ensure overloads handle properly " ) {
struct overloading_test {
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int print ( int i ) { INFO ( " Integer print: " < < i ) ; return 500 + i ; }
int print ( ) { INFO ( " No param print. " ) ; return 500 ; }
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} ;
sol : : state lua ;
lua . new_usertype < overloading_test > ( " overloading_test " , sol : : constructors < > ( ) ,
" print " , sol : : overload ( static_cast < int ( overloading_test : : * ) ( int ) > ( & overloading_test : : print ) , static_cast < int ( overloading_test : : * ) ( ) > ( & overloading_test : : print ) ) ,
" print2 " , sol : : overload ( static_cast < int ( overloading_test : : * ) ( ) > ( & overloading_test : : print ) , static_cast < int ( overloading_test : : * ) ( int ) > ( & overloading_test : : print ) )
) ;
lua . set ( " test " , overloading_test ( ) ) ;
sol : : function f0_0 = lua . load ( " return test:print() " ) ;
sol : : function f0_1 = lua . load ( " return test:print2() " ) ;
sol : : function f1_0 = lua . load ( " return test:print(24) " ) ;
sol : : function f1_1 = lua . load ( " return test:print2(24) " ) ;
int res = f0_0 ( ) ;
int res2 = f0_1 ( ) ;
int res3 = f1_0 ( ) ;
int res4 = f1_1 ( ) ;
REQUIRE ( res = = 500 ) ;
REQUIRE ( res2 = = 500 ) ;
REQUIRE ( res3 = = 524 ) ;
REQUIRE ( res4 = = 524 ) ;
}
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TEST_CASE ( " usertype/reference-and-constness " , " Make sure constness compiles properly and errors out at runtime " ) {
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struct bark {
int var = 50 ;
} ;
struct woof {
bark b ;
} ;
struct nested {
const int f = 25 ;
} ;
struct outer {
nested n ;
} ;
bool caughterror = false ;
std : : string msg ;
sol : : state lua ;
lua . new_usertype < woof > ( " woof " ,
" b " , & woof : : b ) ;
lua . new_usertype < bark > ( " bark " ,
" var " , & bark : : var ) ;
lua . new_usertype < outer > ( " outer " ,
" n " , & outer : : n ) ;
lua . set ( " w " , woof ( ) ) ;
lua . set ( " n " , nested ( ) ) ;
lua . set ( " o " , outer ( ) ) ;
lua . set ( " f " , sol : : c_call < decltype ( & nested : : f ) , & nested : : f > ) ;
lua . script ( R " (
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x = w . b
x . var = 20
val = w . b . var = = x . var
v = f ( n ) ;
) " );
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woof & w = lua [ " w " ] ;
bark & x = lua [ " x " ] ;
nested & n = lua [ " n " ] ;
int v = lua [ " v " ] ;
bool val = lua [ " val " ] ;
// enforce reference semantics
REQUIRE ( std : : addressof ( w . b ) = = std : : addressof ( x ) ) ;
REQUIRE ( n . f = = 25 ) ;
REQUIRE ( v = = 25 ) ;
REQUIRE ( val ) ;
REQUIRE_THROWS ( lua . script ( " f(n, 50) " ) ) ;
REQUIRE_THROWS ( lua . script ( " o.n = 25 " ) ) ;
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}
TEST_CASE ( " usertype/readonly-and-static-functions " , " Check if static functions can be called on userdata and from their originating (meta)tables " ) {
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struct bark {
int var = 50 ;
void func ( ) { }
static void oh_boy ( ) { }
static int oh_boy ( std : : string name ) {
return static_cast < int > ( name . length ( ) ) ;
}
int operator ( ) ( int x ) {
return x ;
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < bark > ( " bark " ,
" var " , & bark : : var ,
" var2 " , sol : : readonly ( & bark : : var ) ,
" something " , something ,
" something2 " , [ ] ( int x , int y ) { return x + y ; } ,
" func " , & bark : : func ,
" oh_boy " , sol : : overload ( sol : : resolve < void ( ) > ( & bark : : oh_boy ) , sol : : resolve < int ( std : : string ) > ( & bark : : oh_boy ) ) ,
sol : : meta_function : : call_function , & bark : : operator ( )
) ;
REQUIRE_NOTHROW ( lua . script ( " assert(bark.oh_boy('woo') == 3) " ) ) ;
REQUIRE_NOTHROW ( lua . script ( " bark.oh_boy() " ) ) ;
bark b ;
lua . set ( " b " , & b ) ;
sol : : table b_table = lua [ " b " ] ;
sol : : function member_func = b_table [ " func " ] ;
sol : : function s = b_table [ " something " ] ;
sol : : function s2 = b_table [ " something2 " ] ;
sol : : table b_metatable = b_table [ sol : : metatable_key ] ;
bool isvalidmt = b_metatable . valid ( ) ;
REQUIRE ( isvalidmt ) ;
sol : : function b_call = b_metatable [ " __call " ] ;
sol : : function b_as_function = lua [ " b " ] ;
int x = b_as_function ( 1 ) ;
int y = b_call ( b , 1 ) ;
bool z = s ( ) ;
int w = s2 ( 2 , 3 ) ;
REQUIRE ( x = = 1 ) ;
REQUIRE ( y = = 1 ) ;
REQUIRE ( z ) ;
REQUIRE ( w = = 5 ) ;
lua . script ( R " (
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lx = b ( 1 )
ly = getmetatable ( b ) . __call ( b , 1 )
lz = b . something ( )
lz2 = bark . something ( )
lw = b . something2 ( 2 , 3 )
lw2 = bark . something2 ( 2 , 3 )
) " );
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int lx = lua [ " lx " ] ;
int ly = lua [ " ly " ] ;
bool lz = lua [ " lz " ] ;
int lw = lua [ " lw " ] ;
bool lz2 = lua [ " lz2 " ] ;
int lw2 = lua [ " lw2 " ] ;
REQUIRE ( lx = = 1 ) ;
REQUIRE ( ly = = 1 ) ;
REQUIRE ( lz ) ;
REQUIRE ( lz2 ) ;
REQUIRE ( lw = = 5 ) ;
REQUIRE ( lw2 = = 5 ) ;
REQUIRE ( lx = = ly ) ;
REQUIRE ( lz = = lz2 ) ;
REQUIRE ( lw = = lw2 ) ;
REQUIRE_THROWS ( lua . script ( " b.var2 = 2 " ) ) ;
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}
TEST_CASE ( " usertype/properties " , " Check if member properties/variables work " ) {
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struct bark {
int var = 50 ;
int var2 = 25 ;
int get_var2 ( ) const {
return var2 ;
}
int get_var3 ( ) {
return var2 ;
}
void set_var2 ( int x ) {
var2 = x ;
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < bark > ( " bark " ,
" var " , & bark : : var ,
" var2 " , sol : : readonly ( & bark : : var2 ) ,
" a " , sol : : property ( & bark : : get_var2 , & bark : : set_var2 ) ,
" b " , sol : : property ( & bark : : get_var2 ) ,
" c " , sol : : property ( & bark : : get_var3 ) ,
" d " , sol : : property ( & bark : : set_var2 )
) ;
bark b ;
lua . set ( " b " , & b ) ;
lua . script ( " b.a = 59 " ) ;
lua . script ( " var2_0 = b.a " ) ;
lua . script ( " var2_1 = b.b " ) ;
lua . script ( " b.d = 1568 " ) ;
lua . script ( " var2_2 = b.c " ) ;
int var2_0 = lua [ " var2_0 " ] ;
int var2_1 = lua [ " var2_1 " ] ;
int var2_2 = lua [ " var2_2 " ] ;
REQUIRE ( var2_0 = = 59 ) ;
REQUIRE ( var2_1 = = 59 ) ;
REQUIRE ( var2_2 = = 1568 ) ;
REQUIRE_THROWS ( lua . script ( " b.var2 = 24 " ) ) ;
REQUIRE_THROWS ( lua . script ( " r = b.d " ) ) ;
REQUIRE_THROWS ( lua . script ( " r = b.d " ) ) ;
REQUIRE_THROWS ( lua . script ( " b.b = 25 " ) ) ;
REQUIRE_THROWS ( lua . script ( " b.c = 11 " ) ) ;
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}
TEST_CASE ( " usertype/safety " , " crash with an exception -- not a segfault -- on bad userdata calls " ) {
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class Test {
public :
void sayHello ( ) { std : : cout < < " Hey \n " ; }
} ;
sol : : state lua ;
lua . new_usertype < Test > ( " Test " , " sayHello " , & Test : : sayHello ) ;
static const std : : string code = R " (
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local t = Test . new ( )
t : sayHello ( ) - - Works fine
t . sayHello ( ) - - Uh oh .
) " ;
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REQUIRE_THROWS ( lua . script ( code ) ) ;
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}
TEST_CASE ( " usertype/call_constructor " , " make sure lua types can be constructed with function call constructors " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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lua . new_usertype < thing > ( " thing " ,
" v " , & thing : : v
, sol : : call_constructor , sol : : constructors < sol : : types < > , sol : : types < int > > ( )
) ;
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lua . script ( R " (
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t = thing ( 256 )
) " );
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thing & y = lua [ " t " ] ;
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INFO ( y . v ) ;
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REQUIRE ( y . v = = 256 ) ;
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}
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TEST_CASE ( " usertype/call_constructor_2 " , " prevent metatable regression " ) {
class class01 {
public :
int x = 57 ;
class01 ( ) { }
} ;
class class02 {
public :
int x = 50 ;
class02 ( ) { }
class02 ( const class01 & other ) : x ( other . x ) { }
} ;
sol : : state lua ;
lua . new_usertype < class01 > ( " class01 " ,
sol : : call_constructor , sol : : constructors < sol : : types < > , sol : : types < const class01 & > > ( )
) ;
lua . new_usertype < class02 > ( " class02 " ,
sol : : call_constructor , sol : : constructors < sol : : types < > , sol : : types < const class02 & > , sol : : types < const class01 & > > ( )
) ;
REQUIRE_NOTHROW ( lua . script ( R " (
x = class01 ( )
y = class02 ( x )
) " ));
class02 & y = lua [ " y " ] ;
REQUIRE ( y . x = = 57 ) ;
}
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TEST_CASE ( " usertype/blank_constructor " , " make sure lua types cannot be constructed if a blank / empty constructor is provided " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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lua . new_usertype < thing > ( " thing " ,
" v " , & thing : : v
, sol : : call_constructor , sol : : constructors < > ( )
) ;
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REQUIRE_THROWS ( lua . script ( " t = thing(256) " ) ) ;
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}
TEST_CASE ( " usertype/no_constructor " , " make sure lua types cannot be constructed if a blank / empty constructor is provided " ) {
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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SECTION ( " order1 " )
{
lua . new_usertype < thing > ( " thing " ,
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" v " , & thing : : v
, sol : : call_constructor , sol : : no_constructor
) ;
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REQUIRE_THROWS ( lua . script ( " t = thing.new() " ) ) ;
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}
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SECTION ( " order2 " )
{
lua . new_usertype < thing > ( " thing "
, sol : : call_constructor , sol : : no_constructor
, " v " , & thing : : v
) ;
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REQUIRE_THROWS ( lua . script ( " t = thing.new() " ) ) ;
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}
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REQUIRE_THROWS ( lua . script ( " t = thing.new() " ) ) ;
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}
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TEST_CASE ( " usertype/coverage " , " try all the things " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < ext_getset > ( " ext_getset " ,
sol : : call_constructor , sol : : constructors < sol : : types < > , sol : : types < int > > ( ) ,
sol : : meta_function : : garbage_collect , sol : : destructor ( des < ext_getset > ) ,
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" x " , sol : : overload ( & ext_getset : : x , & ext_getset : : x2 , [ ] ( ext_getset & m , std : : string x , int y ) {
return m . meow + 50 + y + x . length ( ) ;
} ) ,
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" bark " , & ext_getset : : bark ,
" meow " , & ext_getset : : meow ,
" readonlybark " , sol : : readonly ( & ext_getset : : bark ) ,
" set " , & ext_getset : : set ,
" get " , & ext_getset : : get ,
" sset " , & ext_getset : : s_set ,
" sget " , & ext_getset : : s_get ,
" propbark " , sol : : property ( & ext_getset : : set , & ext_getset : : get ) ,
" readonlypropbark " , sol : : property ( & ext_getset : : get ) ,
" writeonlypropbark " , sol : : property ( & ext_getset : : set )
) ;
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INFO ( " usertype created " ) ;
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lua . script ( R " (
e = ext_getset ( )
w = e : x ( e : x ( ) , e : x ( e : x ( ) ) )
print ( w )
) " );
int w = lua [ " w " ] ;
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REQUIRE ( w = = ( 56 + 50 + 14 + 14 ) ) ;
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INFO ( " REQUIRE(w) successful " ) ;
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lua . script ( R " (
e : set ( 500 )
e . sset ( 24 )
x = e : get ( )
y = e . sget ( 20 )
) " );
int x = lua [ " x " ] ;
int y = lua [ " y " ] ;
REQUIRE ( x = = 500 ) ;
REQUIRE ( y = = 40 ) ;
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INFO ( " REQUIRE(x, y) successful " ) ;
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lua . script ( R " (
e . bark = 5001
a = e : get ( )
print ( e . bark )
print ( a )
e . propbark = 9700
b = e : get ( )
print ( e . propbark )
print ( b )
) " );
int a = lua [ " a " ] ;
int b = lua [ " b " ] ;
REQUIRE ( a = = 5001 ) ;
REQUIRE ( b = = 9700 ) ;
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INFO ( " REQUIRE(a, b) successful " ) ;
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lua . script ( R " (
c = e . readonlybark
d = e . meow
print ( e . readonlybark )
print ( c )
print ( e . meow )
print ( d )
) " );
int c = lua [ " c " ] ;
int d = lua [ " d " ] ;
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REQUIRE ( c = = 9700 ) ;
REQUIRE ( d = = 56 ) ;
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INFO ( " REQUIRE(c, d) successful " ) ;
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lua . script ( R " (
e . writeonlypropbark = 500
z = e . readonlypropbark
print ( e . readonlybark )
print ( e . bark )
) " );
int z = lua [ " z " ] ;
REQUIRE ( z = = 500 ) ;
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INFO ( " REQUIRE(z) successful " ) ;
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REQUIRE_THROWS ( lua . script ( " e.readonlybark = 24 " ) ) ;
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INFO ( " REQUIRE_THROWS 1 successful " ) ;
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REQUIRE_THROWS ( lua . script ( " e.readonlypropbark = 500 " ) ) ;
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INFO ( " REQUIRE_THROWS 2 successful " ) ;
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REQUIRE_THROWS ( lua . script ( " y = e.writeonlypropbark " ) ) ;
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INFO ( " REQUIRE_THROWS 3 successful " ) ;
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}
TEST_CASE ( " usertype/copyability " , " make sure user can write to a class variable even if the class itself isn't copy-safe " ) {
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struct NoCopy {
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int get ( ) const { return _you_can_copy_me ; }
void set ( int val ) { _you_can_copy_me = val ; }
int _you_can_copy_me ;
std : : mutex _haha_you_cant_copy_me ;
} ;
sol : : state lua ;
lua . new_usertype < NoCopy > ( " NoCopy " , " val " , sol : : property ( & NoCopy : : get , & NoCopy : : set ) ) ;
REQUIRE_NOTHROW (
lua . script ( R " __(
nocopy = NoCopy . new ( )
nocopy . val = 5
) __ " )
) ;
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}
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TEST_CASE ( " usertype/protect " , " users should be allowed to manually protect a function " ) {
struct protect_me {
int gen ( int x ) {
return x ;
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < protect_me > ( " protect_me " ,
" gen " , sol : : protect ( & protect_me : : gen )
) ;
REQUIRE_NOTHROW (
lua . script ( R " __(
pm = protect_me . new ( )
value = pcall ( pm . gen , pm )
) __ " );
) ;
bool value = lua [ " value " ] ;
REQUIRE_FALSE ( value ) ;
}
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TEST_CASE ( " usertype/shared-ptr-regression " , " usertype metatables should not screw over unique usertype metatables " ) {
static int created = 0 ;
static int destroyed = 0 ;
struct test {
test ( ) {
+ + created ;
}
~ test ( ) {
+ + destroyed ;
}
} ;
{
std : : list < std : : shared_ptr < test > > tests ;
sol : : state lua ;
lua . open_libraries ( ) ;
lua . new_usertype < test > ( " test " ,
" create " , [ & ] ( ) - > std : : shared_ptr < test > {
tests . push_back ( std : : make_shared < test > ( ) ) ;
return tests . back ( ) ;
}
) ;
REQUIRE ( created = = 0 ) ;
REQUIRE ( destroyed = = 0 ) ;
lua . script ( " x = test.create() " ) ;
REQUIRE ( created = = 1 ) ;
REQUIRE ( destroyed = = 0 ) ;
REQUIRE_FALSE ( tests . empty ( ) ) ;
std : : shared_ptr < test > & x = lua [ " x " ] ;
std : : size_t xuse = x . use_count ( ) ;
std : : size_t tuse = tests . back ( ) . use_count ( ) ;
REQUIRE ( xuse = = tuse ) ;
}
REQUIRE ( created = = 1 ) ;
REQUIRE ( destroyed = = 1 ) ;
}
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TEST_CASE ( " usertype/double-deleter-guards " , " usertype metatables internally must not rely on internal " ) {
struct c_a { int x ; } ;
struct c_b { int y ; } ;
REQUIRE_NOTHROW ( {
sol : : state lua ;
lua . new_usertype < c_a > ( " c_a " , " x " , & c_a : : x ) ;
lua . new_usertype < c_b > ( " c_b " , " y " , & c_b : : y ) ;
lua = sol : : state ( ) ;
lua . new_usertype < c_a > ( " c_a " , " x " , & c_a : : x ) ;
lua . new_usertype < c_b > ( " c_b " , " y " , & c_b : : y ) ;
lua = sol : : state ( ) ;
} ) ;
}
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TEST_CASE ( " usertype/vars " , " usertype vars can bind various class items " ) {
static int muh_variable = 25 ;
static int through_variable = 10 ;
sol : : state lua ;
lua . open_libraries ( ) ;
struct test { } ;
lua . new_usertype < test > ( " test " ,
" straight " , sol : : var ( 2 ) ,
" global " , sol : : var ( muh_variable ) ,
" ref_global " , sol : : var ( std : : ref ( muh_variable ) ) ,
" global2 " , sol : : var ( through_variable ) ,
" ref_global2 " , sol : : var ( std : : ref ( through_variable ) )
) ;
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int prets = lua [ " test " ] [ " straight " ] ;
int pretg = lua [ " test " ] [ " global " ] ;
int pretrg = lua [ " test " ] [ " ref_global " ] ;
int pretg2 = lua [ " test " ] [ " global2 " ] ;
int pretrg2 = lua [ " test " ] [ " ref_global2 " ] ;
REQUIRE ( prets = = 2 ) ;
REQUIRE ( pretg = = 25 ) ;
REQUIRE ( pretrg = = 25 ) ;
REQUIRE ( pretg2 = = 10 ) ;
REQUIRE ( pretrg2 = = 10 ) ;
lua . script ( R " (
print ( test . straight )
test . straight = 50
print ( test . straight )
) " );
int s = lua [ " test " ] [ " straight " ] ;
REQUIRE ( s = = 50 ) ;
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lua . script ( R " (
t = test . new ( )
print ( t . global )
t . global = 50
print ( t . global )
) " );
int mv = lua [ " test " ] [ " global " ] ;
REQUIRE ( mv = = 50 ) ;
REQUIRE ( muh_variable = = 25 ) ;
lua . script ( R " (
print ( t . ref_global )
t . ref_global = 50
print ( t . ref_global )
) " );
int rmv = lua [ " test " ] [ " ref_global " ] ;
REQUIRE ( rmv = = 50 ) ;
REQUIRE ( muh_variable = = 50 ) ;
REQUIRE ( through_variable = = 10 ) ;
lua . script ( R " (
print ( test . global2 )
test . global2 = 35
print ( test . global2 )
) " );
int tv = lua [ " test " ] [ " global2 " ] ;
REQUIRE ( through_variable = = 10 ) ;
REQUIRE ( tv = = 35 ) ;
lua . script ( R " (
print ( test . ref_global2 )
test . ref_global2 = 35
print ( test . ref_global2 )
) " );
int rtv = lua [ " test " ] [ " ref_global2 " ] ;
REQUIRE ( rtv = = 35 ) ;
REQUIRE ( through_variable = = 35 ) ;
}
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TEST_CASE ( " usertypes/var-and-property " , " make sure const vars are readonly and properties can handle lambdas " ) {
const static int arf = 20 ;
struct test {
int value = 10 ;
} ;
sol : : state lua ;
lua . open_libraries ( ) ;
lua . new_usertype < test > ( " test " ,
" prop " , sol : : property (
[ ] ( test & t ) {
return t . value ;
} ,
[ ] ( test & t , int x ) {
t . value = x ;
}
) ,
" global " , sol : : var ( std : : ref ( arf ) )
) ;
lua . script ( R " (
t = test . new ( )
print ( t . prop )
t . prop = 50
print ( t . prop )
) " );
test & t = lua [ " t " ] ;
REQUIRE ( t . value = = 50 ) ;
REQUIRE_THROWS (
lua . script ( R " (
t = test . new ( )
print ( t . global )
t . global = 20
print ( t . global )
) " ));
}
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TEST_CASE ( " usertype/unique_usertype-check " , " make sure unique usertypes don't get pushed as references with function calls and the like " ) {
class Entity {
public :
std : : string GetName ( ) {
return " Charmander " ;
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base , sol : : lib : : math , sol : : lib : : string , sol : : lib : : io ) ;
lua . new_usertype < Entity > ( " Entity " ,
" new " , sol : : no_constructor ,
" get_name " , & Entity : : GetName
) ;
lua . script ( R " (
function my_func ( entity )
print ( " INSIDE LUA " )
print ( entity : get_name ( ) )
end
) " );
sol : : function my_func = lua [ " my_func " ] ;
REQUIRE_NOTHROW ( {
auto ent = std : : make_shared < Entity > ( ) ;
my_func ( ent ) ;
Entity ent2 ;
my_func ( ent2 ) ;
my_func ( std : : make_shared < Entity > ( ) ) ;
} ) ;
}
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TEST_CASE ( " usertype/abstract-base-class " , " Ensure that abstract base classes and such can be registered " ) {
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sol : : state lua ;
lua . new_usertype < abstract_A > ( " A " , " a " , & abstract_A : : a ) ;
lua . new_usertype < abstract_B > ( " B " , sol : : base_classes , sol : : bases < abstract_A > ( ) ) ;
lua . script ( R " (local b = B.new()
b : a ( )
) " );
}
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TEST_CASE ( " usertype/as_function " , " Ensure that variables can be turned into functions by as_function " ) {
class B {
public :
int bvar = 24 ;
} ;
sol : : state lua ;
lua . open_libraries ( ) ;
lua . new_usertype < B > ( " B " , " b " , & B : : bvar , " f " , sol : : as_function ( & B : : bvar ) ) ;
B b ;
lua . set ( " b " , & b ) ;
lua . script ( " x = b:f() " ) ;
lua . script ( " y = b.b " ) ;
int x = lua [ " x " ] ;
int y = lua [ " y " ] ;
REQUIRE ( x = = 24 ) ;
REQUIRE ( y = = 24 ) ;
}
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TEST_CASE ( " usertype/destruction-test " , " make sure usertypes are properly destructed and don't double-delete memory or segfault " ) {
sol : : state lua ;
class CrashClass {
public :
CrashClass ( ) {
}
~ CrashClass ( ) {
a = 10 ; // This will cause a crash.
}
private :
int a ;
} ;
lua . new_usertype < CrashClass > ( " CrashClass " ,
sol : : call_constructor , sol : : constructors < sol : : types < > > ( )
) ;
lua . script ( R " (
function testCrash ( )
local x = CrashClass ( )
end
) " );
for ( int i = 0 ; i < 1000 ; + + i ) {
lua [ " testCrash " ] ( ) ;
}
}