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# define SOL_CHECK_ARGUMENTS 1
# define SOL_ENABLE_INTEROP 1
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# include <catch.hpp>
# include <sol.hpp>
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TEST_CASE ( " coroutines/yielding " , " ensure calling a coroutine works " ) {
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const auto & script = R " (counter = 20
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function loop ( )
while counter ~ = 30
do
coroutine . yield ( counter ) ;
counter = counter + 1 ;
end
return counter
end
) " ;
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base , sol : : lib : : coroutine ) ;
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lua . safe_script ( script ) ;
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sol : : coroutine cr = lua [ " loop " ] ;
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int counter ;
for ( counter = 20 ; counter < 31 & & cr ; + + counter ) {
int value = cr ( ) ;
if ( counter ! = value ) {
throw std : : logic_error ( " fuck " ) ;
}
}
counter - = 1 ;
REQUIRE ( counter = = 30 ) ;
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}
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TEST_CASE ( " coroutines/new thread coroutines " , " ensure calling a coroutine works when the work is put on a different thread " ) {
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const auto & script = R " (counter = 20
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function loop ( )
while counter ~ = 30
do
coroutine . yield ( counter ) ;
counter = counter + 1 ;
end
return counter
end
) " ;
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sol : : state lua ;
lua . open_libraries ( sol : : lib : : base , sol : : lib : : coroutine ) ;
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lua . safe_script ( script ) ;
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sol : : thread runner = sol : : thread : : create ( lua . lua_state ( ) ) ;
sol : : state_view runnerstate = runner . state ( ) ;
sol : : coroutine cr = runnerstate [ " loop " ] ;
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int counter ;
for ( counter = 20 ; counter < 31 & & cr ; + + counter ) {
int value = cr ( ) ;
if ( counter ! = value ) {
throw std : : logic_error ( " fuck " ) ;
}
}
counter - = 1 ;
REQUIRE ( counter = = 30 ) ;
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}
TEST_CASE ( " coroutines/transfer " , " test that things created inside of a coroutine can have their state transferred using lua_xmove constructors " ) {
for ( std : : size_t tries = 0 ; tries < 200 ; + + tries ) {
sol : : state lua ;
lua . open_libraries ( ) ;
{
sol : : function f2 ;
lua [ " f " ] = [ & lua , & f2 ] ( sol : : object t ) {
f2 = sol : : function ( lua , t ) ;
} ;
lua . script ( R " (
i = 0
function INIT ( )
co = coroutine . create (
function ( )
local g = function ( ) i = i + 1 end
f ( g )
g = nil
collectgarbage ( )
end
)
coroutine . resume ( co )
co = nil
collectgarbage ( )
end
) " );
sol : : function f3 ;
sol : : function f1 ;
lua . safe_script ( " INIT() " ) ;
f2 ( ) ;
sol : : function update = lua . safe_script ( " return function() collectgarbage() end " ) ;
update ( ) ;
f3 = f2 ;
f3 ( ) ;
update ( ) ;
f1 = f2 ;
f1 ( ) ;
update ( ) ;
int i = lua [ " i " ] ;
REQUIRE ( i = = 3 ) ;
}
}
}
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TEST_CASE ( " coroutines/explicit transfer " , " check that the xmove constructors shift things around appropriately " ) {
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const std : : string code = R " (
- - main thread - L1
- - co - L2
- - co2 - L3
x = co_test . new ( " x " )
local co = coroutine . wrap (
function ( )
local t = co_test . new ( " t " )
local co2 = coroutine . wrap (
function ( )
local t2 = { " SOME_TABLE " }
t : copy_store ( t2 ) - - t2 = [ L3 ] , t . obj = [ L2 ]
end
)
co2 ( )
co2 = nil
collectgarbage ( ) - - t2 ref in t remains valid !
x : store ( t : get ( ) ) - - t . obj = [ L2 ] , x . obj = [ L1 ]
end
)
co ( )
collectgarbage ( )
collectgarbage ( )
co = nil
) " ;
struct co_test {
std : : string identifier ;
sol : : reference obj ;
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co_test ( sol : : this_state L , std : : string id )
: identifier ( id ) , obj ( L , sol : : lua_nil ) {
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}
void store ( sol : : table ref ) {
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// must be explicit
obj = sol : : reference ( obj . lua_state ( ) , ref ) ;
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}
void copy_store ( sol : : table ref ) {
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// must be explicit
obj = sol : : reference ( obj . lua_state ( ) , ref ) ;
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}
sol : : reference get ( ) {
return obj ;
}
~ co_test ( ) {
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : coroutine , sol : : lib : : base ) ;
lua . new_usertype < co_test > ( " co_test " ,
sol : : constructors < co_test ( sol : : this_state , std : : string ) > ( ) ,
" store " , & co_test : : store ,
" copy_store " , & co_test : : copy_store ,
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" get " , & co_test : : get ) ;
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auto r = lua . safe_script ( code ) ;
REQUIRE ( r . valid ( ) ) ;
co_test & ct = lua [ " x " ] ;
lua_State * Lmain1 = lua . lua_state ( ) ;
lua_State * Lmain2 = sol : : main_thread ( lua ) ;
lua_State * Lmain3 = ct . get ( ) . lua_state ( ) ;
REQUIRE ( Lmain1 = = Lmain2 ) ;
REQUIRE ( Lmain1 = = Lmain3 ) ;
sol : : table t = ct . get ( ) ;
REQUIRE ( t . size ( ) = = 1 ) ;
std : : string s = t [ 1 ] ;
REQUIRE ( s = = " SOME_TABLE " ) ;
}
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TEST_CASE ( " coroutines/implicit transfer " , " check that copy and move assignment constructors implicitly shift things around " ) {
const std : : string code = R " (
- - main thread - L1
- - co - L2
- - co2 - L3
x = co_test . new ( " x " )
local co = coroutine . wrap (
function ( )
local t = co_test . new ( " t " )
local co2 = coroutine . wrap (
function ( )
local t2 = { " SOME_TABLE " }
t : copy_store ( t2 ) - - t2 = [ L3 ] , t . obj = [ L2 ]
end
)
co2 ( )
co2 = nil
collectgarbage ( ) - - t2 ref in t remains valid !
x : store ( t : get ( ) ) - - t . obj = [ L2 ] , x . obj = [ L1 ]
end
)
co ( )
collectgarbage ( )
collectgarbage ( )
co = nil
) " ;
struct co_test_implicit {
std : : string identifier ;
sol : : reference obj ;
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co_test_implicit ( sol : : this_state L , std : : string id )
: identifier ( id ) , obj ( L , sol : : lua_nil ) {
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}
void store ( sol : : table ref ) {
// must be explicit
obj = std : : move ( ref ) ;
}
void copy_store ( sol : : table ref ) {
// must be explicit
obj = ref ;
}
sol : : reference get ( ) {
return obj ;
}
~ co_test_implicit ( ) {
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : coroutine , sol : : lib : : base ) ;
lua . new_usertype < co_test_implicit > ( " co_test " ,
sol : : constructors < co_test_implicit ( sol : : this_state , std : : string ) > ( ) ,
" store " , & co_test_implicit : : store ,
" copy_store " , & co_test_implicit : : copy_store ,
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" get " , & co_test_implicit : : get ) ;
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auto r = lua . safe_script ( code ) ;
REQUIRE ( r . valid ( ) ) ;
co_test_implicit & ct = lua [ " x " ] ;
lua_State * Lmain1 = lua . lua_state ( ) ;
lua_State * Lmain2 = sol : : main_thread ( lua ) ;
lua_State * Lmain3 = ct . get ( ) . lua_state ( ) ;
REQUIRE ( Lmain1 = = Lmain2 ) ;
REQUIRE ( Lmain1 = = Lmain3 ) ;
sol : : table t = ct . get ( ) ;
REQUIRE ( t . size ( ) = = 1 ) ;
std : : string s = t [ 1 ] ;
REQUIRE ( s = = " SOME_TABLE " ) ;
}
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TEST_CASE ( " coroutines/main transfer " , " check that copy and move assignment constructors using main-forced types work " ) {
const std : : string code = R " (
- - main thread - L1
- - co - L2
- - co2 - L3
x = co_test . new ( " x " )
local co = coroutine . wrap (
function ( )
local t = co_test . new ( " t " )
local co2 = coroutine . wrap (
function ( )
local t2 = { " SOME_TABLE " }
t : copy_store ( t2 ) - - t2 = [ L3 ] , t . obj = [ L2 ]
end
)
co2 ( )
co2 = nil
collectgarbage ( ) - - t2 ref in t remains valid !
x : store ( t : get ( ) ) - - t . obj = [ L2 ] , x . obj = [ L1 ]
end
)
co ( )
co = nil
collectgarbage ( )
) " ;
struct co_test_implicit {
std : : string identifier ;
sol : : main_reference obj ;
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co_test_implicit ( sol : : this_state L , std : : string id )
: identifier ( id ) , obj ( L , sol : : lua_nil ) {
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}
void store ( sol : : table ref ) {
// main_reference does the state shift implicitly
obj = std : : move ( ref ) ;
lua_State * Lmain = sol : : main_thread ( ref . lua_state ( ) ) ;
REQUIRE ( obj . lua_state ( ) = = Lmain ) ;
}
void copy_store ( sol : : table ref ) {
// main_reference does the state shift implicitly
obj = ref ;
lua_State * Lmain = sol : : main_thread ( ref . lua_state ( ) ) ;
REQUIRE ( obj . lua_state ( ) = = Lmain ) ;
}
sol : : reference get ( ) {
return obj ;
}
~ co_test_implicit ( ) {
}
} ;
sol : : state lua ;
lua . open_libraries ( sol : : lib : : coroutine , sol : : lib : : base ) ;
lua . new_usertype < co_test_implicit > ( " co_test " ,
sol : : constructors < co_test_implicit ( sol : : this_state , std : : string ) > ( ) ,
" store " , & co_test_implicit : : store ,
" copy_store " , & co_test_implicit : : copy_store ,
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" get " , & co_test_implicit : : get ) ;
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auto r = lua . safe_script ( code ) ;
REQUIRE ( r . valid ( ) ) ;
co_test_implicit & ct = lua [ " x " ] ;
lua_State * Lmain1 = lua . lua_state ( ) ;
lua_State * Lmain2 = sol : : main_thread ( lua ) ;
lua_State * Lmain3 = ct . get ( ) . lua_state ( ) ;
REQUIRE ( Lmain1 = = Lmain2 ) ;
REQUIRE ( Lmain1 = = Lmain3 ) ;
sol : : table t = ct . get ( ) ;
REQUIRE ( t . size ( ) = = 1 ) ;
std : : string s = t [ 1 ] ;
REQUIRE ( s = = " SOME_TABLE " ) ;
}
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TEST_CASE ( " coroutines/coroutine.create protection " , " ensure that a thread picked up from coroutine.create does not throw off the lua stack entirely when called from C++ " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base , sol : : lib : : coroutine ) ;
lua . script (
R " (
function loop ( )
local i = 0
while true do
print ( " pre-yield in loop " )
coroutine . yield ( i )
print ( " post-yield in loop " )
i = i + 1
end
end
loop_th = coroutine . create ( loop )
) "
) ;
sol : : thread runner_thread = lua [ " loop_th " ] ;
auto test_resume = [ & runner_thread ] ( ) {
sol : : state_view th_state = runner_thread . state ( ) ;
sol : : coroutine cr = th_state [ " loop " ] ;
int r = cr ( ) ;
return r ;
} ;
lua . set_function ( " test_resume " , std : : ref ( test_resume ) ) ;
int v0 = test_resume ( ) ;
int v1 = test_resume ( ) ;
int v2 = lua . script ( " return test_resume() " ) ;
int v3 = lua . script ( " return test_resume() " ) ;
REQUIRE ( v0 = = 0 ) ;
REQUIRE ( v1 = = 1 ) ;
REQUIRE ( v2 = = 2 ) ;
REQUIRE ( v3 = = 3 ) ;
}