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// sol3
// The MIT License (MIT)
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// Copyright (c) 2013-2021 Rapptz, ThePhD and contributors
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// Permission is hereby granted, free of charge, to any person obtaining a copy of
// this software and associated documentation files (the "Software"), to deal in
// the Software without restriction, including without limitation the rights to
// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
// the Software, and to permit persons to whom the Software is furnished to do so,
// subject to the following conditions:
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
// FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
// COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
// IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
// CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
# include "sol_test.hpp"
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# include <catch2/catch.hpp>
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# include <iterator>
# include <vector>
# include <list>
# include <forward_list>
# include <map>
# include <deque>
# include <array>
# include <unordered_map>
# include <set>
# include <unordered_set>
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inline namespace sol2_test_container_shims {
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class int_shim {
public :
int_shim ( ) = default ;
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int_shim ( int x ) : x_ ( x ) {
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}
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int val ( ) const {
return x_ ;
}
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private :
int x_ = - 1 ;
} ;
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class input_it {
public :
typedef std : : input_iterator_tag iterator_category ;
typedef int_shim value_type ;
typedef value_type & reference ;
typedef const value_type & const_reference ;
typedef value_type * pointer ;
typedef std : : ptrdiff_t difference_type ;
input_it ( ) = default ;
input_it ( int n , int m ) : n_ ( n ) , m_ ( m ) , value_ ( n_ ) {
assert ( n_ > = 0 ) ;
assert ( m_ > = 0 ) ;
assert ( n_ < = m_ ) ;
if ( ! n_ & & ! m_ ) {
n_ = - 1 ;
m_ = - 1 ;
value_ = - 1 ;
}
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}
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const int_shim & operator * ( ) const {
return value_ ;
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}
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const int_shim * operator - > ( ) const {
return & value_ ;
}
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input_it & operator + + ( ) {
assert ( n_ > = 0 ) ;
assert ( m_ > = 0 ) ;
if ( n_ = = m_ - 1 ) {
n_ = m_ = - 1 ;
}
else {
+ + n_ ;
}
value_ = n_ ;
return * this ;
}
bool operator = = ( const input_it & i ) const {
return n_ = = i . n_ & & m_ = = i . m_ ;
}
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bool operator ! = ( const input_it & i ) const {
return ! ( * this = = i ) ;
}
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private :
int n_ = - 1 ;
int m_ = - 1 ;
int_shim value_ ;
} ;
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class not_really_a_container {
public :
using value_type = int_shim ;
using iterator = input_it ;
using const_iterator = input_it ;
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const_iterator begin ( ) const {
return iterator ( 0 , 100 ) ;
}
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const_iterator end ( ) const {
return iterator ( ) ;
}
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value_type gcc_warning_block ( ) {
return int_shim ( ) ;
}
std : : size_t size ( ) const {
return 100 ;
}
} ;
struct my_vec : public std : : vector < int > {
typedef std : : vector < int > base_t ;
using base_t : : base_t ;
} ;
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struct order_suit {
std : : vector < std : : pair < int , int64_t > > objs ;
std : : vector < std : : pair < int64_t , int > > objs2 ;
order_suit ( int pairs ) {
objs . reserve ( static_cast < std : : size_t > ( pairs ) ) ;
objs2 . reserve ( static_cast < std : : size_t > ( pairs * 2 ) ) ;
for ( int i = 0 ; i < pairs ; + + i ) {
objs . push_back ( { i , i * 10 } ) ;
objs2 . push_back ( { ( i + pairs ) * 2 , ( i * 2 ) * 50 } ) ;
objs2 . push_back ( { ( ( i + pairs ) * 2 ) + 1 , ( i * 2 + 1 ) * 50 } ) ;
}
}
} ;
class map_number_storage {
private :
std : : unordered_map < std : : string , int > data ; // changed to map
public :
map_number_storage ( int i ) {
data [ std : : to_string ( i ) ] = i ;
}
int accumulate ( ) const // changed for map
{
std : : size_t sum = 0 ;
for ( const auto & [ k , v ] : data ) {
sum + = v ;
}
return static_cast < int > ( sum ) ;
}
public :
typedef std : : string key_type ;
typedef int mapped_type ;
using value_type = decltype ( data ) : : value_type ;
using iterator = decltype ( data ) : : iterator ;
using const_iterator = decltype ( data ) : : const_iterator ;
using size_type = decltype ( data ) : : size_type ;
// ADDED
iterator find ( const key_type & key ) {
return data . find ( key ) ;
}
auto insert ( value_type kv ) {
return data . insert ( kv ) ;
}
auto insert ( const key_type k , mapped_type v ) {
return data . insert ( { k , v } ) ;
}
mapped_type & set ( key_type k , mapped_type v ) {
return data [ k ] = v ;
}
iterator begin ( ) {
return iterator ( data . begin ( ) ) ;
}
iterator end ( ) {
return iterator ( data . end ( ) ) ;
}
size_type size ( ) const noexcept {
return data . size ( ) ;
}
size_type max_size ( ) const noexcept {
return data . max_size ( ) ;
}
// void push_back(int value) { data.push_back(value); } NOT APPLICABLE TO MAP
bool empty ( ) const noexcept {
return data . empty ( ) ;
}
} ;
} // namespace sol2_test_container_shims
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namespace sol {
template < >
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struct is_container < my_vec > : std : : true_type { } ;
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template < >
struct is_container < map_number_storage > : std : : false_type { } ;
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template < >
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struct usertype_container < my_vec > {
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// Hooks Lua's syntax for #c
static int size ( lua_State * L ) {
my_vec & v = sol : : stack : : get < my_vec & > ( L , 1 ) ;
return stack : : push ( L , v . size ( ) ) ;
}
// Used by default implementation
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static auto begin ( lua_State * , my_vec & self ) {
return self . begin ( ) ;
}
static auto end ( lua_State * , my_vec & self ) {
return self . end ( ) ;
}
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static std : : ptrdiff_t index_adjustment ( lua_State * , my_vec & ) {
return 0 ;
}
} ;
} // namespace sol
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TEST_CASE ( " containers/input iterators " , " test shitty input iterators that are all kinds of B L E H " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base , sol : : lib : : package ) ;
lua . new_usertype < int_shim > ( " int_shim " , " new " , sol : : no_constructor , " val " , & int_shim : : val ) ;
not_really_a_container c ;
lua [ " c " ] = & c ;
# if SOL_LUA_VERSION > 502
auto result0 = lua . safe_script ( R " lua(
for k , v in pairs ( c ) do
assert ( ( k - 1 ) = = v : val ( ) )
end
) lua " ,
sol : : script_pass_on_error ) ;
REQUIRE ( result0 . valid ( ) ) ;
# endif
auto result1 = lua . safe_script ( R " lua(
for k = 1 , # c do
v = c [ k ]
assert ( ( k - 1 ) = = v : val ( ) )
end
) lua " ,
sol : : script_pass_on_error ) ;
REQUIRE ( result1 . valid ( ) ) ;
}
TEST_CASE ( " containers/custom indexing " , " allow containers to set a custom indexing offset " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
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lua [ " c " ] = my_vec { 0 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 } ;
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auto result1 = lua . safe_script ( " for i=0,9 do assert(i == c[i]) end " , sol : : script_pass_on_error ) ;
REQUIRE ( result1 . valid ( ) ) ;
auto result2 = lua . safe_script ( " assert(c[10] == nil) " , sol : : script_pass_on_error ) ;
REQUIRE ( result2 . valid ( ) ) ;
auto result3 = lua . safe_script ( " assert(c[-1] == nil) " , sol : : script_pass_on_error ) ;
REQUIRE ( result3 . valid ( ) ) ;
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auto result4 = lua . safe_script ( " assert(#c == 10) " , sol : : script_pass_on_error ) ;
REQUIRE ( result4 . valid ( ) ) ;
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}
TEST_CASE ( " containers/containers of pointers " , " containers of pointers shouldn't have their value_type's overly stripped " ) {
sol : : state lua ;
class MyContainer {
public :
typedef int * * iterator ;
typedef int * value_type ;
std : : vector < value_type > m_vec ;
inline iterator begin ( ) {
return m_vec . data ( ) ;
}
inline iterator end ( ) {
return m_vec . data ( ) + m_vec . size ( ) ;
}
inline void push_back ( value_type v ) {
m_vec . push_back ( v ) ;
}
} ;
int a = 500 ;
int b = 600 ;
MyContainer ctr ;
ctr . push_back ( & a ) ;
ctr . push_back ( & b ) ;
lua [ " c " ] = ctr ;
{
auto result1 = lua . safe_script ( " ap = c[1] " , sol : : script_pass_on_error ) ;
REQUIRE ( result1 . valid ( ) ) ;
auto result2 = lua . safe_script ( " bp = c[2] " , sol : : script_pass_on_error ) ;
REQUIRE ( result2 . valid ( ) ) ;
int * ap = lua [ " ap " ] ;
int * bp = lua [ " bp " ] ;
REQUIRE ( ap = = & a ) ;
REQUIRE ( bp = = & b ) ;
REQUIRE ( * ap = = 500 ) ;
REQUIRE ( * bp = = 600 ) ;
}
std : : unordered_map < int , int * > ptrs ;
ptrs [ 5 ] = & a ;
ptrs [ 6 ] = & b ;
lua [ " c2 " ] = ptrs ;
{
auto result1 = lua . safe_script ( " ap = c2[5] " , sol : : script_pass_on_error ) ;
REQUIRE ( result1 . valid ( ) ) ;
auto result2 = lua . safe_script ( " bp = c2[6] " , sol : : script_pass_on_error ) ;
REQUIRE ( result2 . valid ( ) ) ;
int * ap = lua [ " ap " ] ;
int * bp = lua [ " bp " ] ;
REQUIRE ( ap = = & a ) ;
REQUIRE ( bp = = & b ) ;
REQUIRE ( * ap = = 500 ) ;
REQUIRE ( * bp = = 600 ) ;
}
}
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TEST_CASE ( " containers/pair container in usertypes " , " make sure containers that use pairs in usertypes do not trigger compiler errors " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
auto orderSuit = lua . new_usertype < order_suit > ( " order_suit " , sol : : constructors < order_suit ( int ) > ( ) ) ;
# define SET_PROP(__PROP__) orderSuit.set(#__PROP__, &order_suit::__PROP__)
SET_PROP ( objs ) ;
SET_PROP ( objs2 ) ;
# undef SET_PROP
auto result1 = lua . safe_script ( " osobj = order_suit.new(5) " , sol : : script_pass_on_error ) ;
REQUIRE ( result1 . valid ( ) ) ;
auto result2 = lua . safe_script ( " pvec = osobj.objs " , sol : : script_pass_on_error ) ;
REQUIRE ( result2 . valid ( ) ) ;
auto result3 = lua . safe_script ( " pvec2 = osobj.objs2 " , sol : : script_pass_on_error ) ;
REQUIRE ( result3 . valid ( ) ) ;
using vec_t = std : : remove_reference_t < decltype ( std : : declval < order_suit > ( ) . objs ) > ;
using vec2_t = std : : remove_reference_t < decltype ( std : : declval < order_suit > ( ) . objs2 ) > ;
vec_t & pvec = lua [ " pvec " ] ;
vec2_t & pvec2 = lua [ " pvec2 " ] ;
REQUIRE ( pvec . size ( ) = = 5 ) ;
REQUIRE ( pvec2 . size ( ) = = 10 ) ;
REQUIRE ( pvec [ 0 ] . first = = 0 ) ;
REQUIRE ( pvec [ 0 ] . second = = 0 ) ;
REQUIRE ( pvec [ 1 ] . first = = 1 ) ;
REQUIRE ( pvec [ 1 ] . second = = 10 ) ;
REQUIRE ( pvec [ 2 ] . first = = 2 ) ;
REQUIRE ( pvec [ 2 ] . second = = 20 ) ;
REQUIRE ( pvec2 [ 0 ] . first = = 10 ) ;
REQUIRE ( pvec2 [ 0 ] . second = = 0 ) ;
REQUIRE ( pvec2 [ 1 ] . first = = 11 ) ;
REQUIRE ( pvec2 [ 1 ] . second = = 50 ) ;
REQUIRE ( pvec2 [ 2 ] . first = = 12 ) ;
REQUIRE ( pvec2 [ 2 ] . second = = 100 ) ;
REQUIRE ( pvec2 [ 3 ] . first = = 13 ) ;
REQUIRE ( pvec2 [ 3 ] . second = = 150 ) ;
}
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TEST_CASE ( " containers/as_container usertype " , " A usertype should be able to mark itself as a container explicitly and work with BOTH kinds of insert types " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
lua . new_usertype < map_number_storage > ( " map_number_storage " ,
sol : : constructors < map_number_storage ( int ) > ( ) ,
" accumulate " ,
& map_number_storage : : accumulate ,
" iterable " ,
[ ] ( map_number_storage & ns ) {
return sol : : as_container ( ns ) ; // treat like a container, despite is_container specialization
} ) ;
sol : : optional < sol : : error > maybe_error0 = lua . safe_script ( R " (
ns = map_number_storage . new ( 23 )
assert ( ns : accumulate ( ) = = 23 )
- - reference original usertype like a container
ns_container = ns : iterable ( )
ns_container [ " 24 " ] = 24
- - now print to show effect
assert ( ns : accumulate ( ) = = 47 )
assert ( # ns = = 2 )
) " ,
& sol : : script_pass_on_error ) ;
REQUIRE_FALSE ( maybe_error0 . has_value ( ) ) ;
map_number_storage & ns = lua [ " ns " ] ;
map_number_storage & ns_container = lua [ " ns_container " ] ;
ns . insert ( { " 33 " , 33 } ) ;
sol : : optional < sol : : error > maybe_error1 = lua . safe_script ( R " (
assert ( ns : accumulate ( ) = = 80 )
assert ( # ns = = 3 )
assert ( ns_container [ ' 33 ' ] = = 33 )
) " ,
& sol : : script_pass_on_error ) ;
REQUIRE_FALSE ( maybe_error1 . has_value ( ) ) ;
REQUIRE ( & ns = = & ns_container ) ;
REQUIRE ( ns . size ( ) = = 3 ) ;
}