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# define SOL_CHECK_ARGUMENTS
# include <sol.hpp>
# include <catch.hpp>
# include <iterator>
# include <vector>
# include <list>
# include <forward_list>
# include <deque>
# include <set>
# include <map>
# include <array>
# include <unordered_map>
# include <unordered_set>
template < typename T >
void sequence_container_check ( sol : : state & lua , T & items ) {
{
auto r1 = lua . script ( R " (
for i = 1 , # c do
v = c [ i ]
assert ( v = = ( i + 10 ) )
end
) " , sol::script_pass_on_error);
REQUIRE ( r1 . valid ( ) ) ;
}
{
auto ffind = [ & ] ( ) {
auto r1 = lua . script ( " i1 = c:find(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " i2 = c:find(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fget = [ & ] ( ) {
auto r1 = lua . script ( " v1 = c:get(1) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " v2 = c:get(3) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fset = [ & ] ( ) {
auto r1 = lua . script ( " c:set(2, 20) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " c:set(6, 16) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto ferase = [ & ] ( ) {
auto r5 = lua . script ( " s1 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r5 . valid ( ) ) ;
auto r1 = lua . script ( " c:erase(i1) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r3 = lua . script ( " s2 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
auto r2 = lua . script ( " c:erase(i2) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r4 = lua . script ( " s3 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r4 . valid ( ) ) ;
} ;
auto fadd = [ & ] ( ) {
auto r = lua . script ( " c:add(17) " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopset = [ & ] ( ) {
auto r = lua . script ( " c[#c + 1] = 18 " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopget = [ & ] ( ) {
auto r = lua . script ( " v3 = c[#c] " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
REQUIRE_NOTHROW ( ffind ( ) ) ;
REQUIRE_NOTHROW ( fget ( ) ) ;
REQUIRE_NOTHROW ( fset ( ) ) ;
REQUIRE_NOTHROW ( ferase ( ) ) ;
REQUIRE_NOTHROW ( fadd ( ) ) ;
REQUIRE_NOTHROW ( fopset ( ) ) ;
REQUIRE_NOTHROW ( fopget ( ) ) ;
}
auto backit = items . begin ( ) ;
std : : size_t len = 0 ;
{
auto e = items . end ( ) ;
auto last = backit ;
for ( ; backit ! = e ; + + backit , + + len ) {
if ( backit = = e ) {
break ;
}
last = backit ;
}
backit = last ;
}
const int & first = * items . begin ( ) ;
const int & last = * backit ;
std : : size_t i1 = lua [ " i1 " ] ;
std : : size_t i2 = lua [ " i2 " ] ;
std : : size_t s1 = lua [ " s1 " ] ;
std : : size_t s2 = lua [ " s2 " ] ;
std : : size_t s3 = lua [ " s3 " ] ;
int v1 = lua [ " v1 " ] ;
int v2 = lua [ " v2 " ] ;
int v3 = lua [ " v3 " ] ;
int values [ 6 ] = {
20 , 13 , 14 , 16 , 17 , 18
} ;
{
std : : size_t idx = 0 ;
for ( const auto & i : items ) {
const auto & v = values [ idx ] ;
REQUIRE ( i = = v ) ;
+ + idx ;
}
}
REQUIRE ( s1 = = 6 ) ;
REQUIRE ( s2 = = 5 ) ;
REQUIRE ( s3 = = 4 ) ;
REQUIRE ( len = = 6 ) ;
REQUIRE ( first = = 20 ) ;
REQUIRE ( last = = 18 ) ;
REQUIRE ( i1 = = 1 ) ;
REQUIRE ( i2 = = 4 ) ;
REQUIRE ( v1 = = 11 ) ;
REQUIRE ( v2 = = 13 ) ;
REQUIRE ( v3 = = 18 ) ;
}
template < typename T >
void ordered_container_check ( sol : : state & lua , T & items ) {
{
auto r1 = lua . script ( R " (
for i = 1 , # c do
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v = c [ ( i + 10 ) ]
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assert ( v = = ( i + 10 ) )
end
) " , sol::script_pass_on_error);
REQUIRE ( r1 . valid ( ) ) ;
}
{
auto ffind = [ & ] ( ) {
auto r1 = lua . script ( " i1 = c:find(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " i2 = c:find(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fget = [ & ] ( ) {
auto r1 = lua . script ( " v1 = c:get(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " v2 = c:get(13) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fset = [ & ] ( ) {
auto r1 = lua . script ( " c:set(20) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " c:set(16) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto ferase = [ & ] ( ) {
auto r5 = lua . script ( " s1 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r5 . valid ( ) ) ;
auto r1 = lua . script ( " c:erase(i1) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r3 = lua . script ( " s2 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
auto r2 = lua . script ( " c:erase(i2) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r4 = lua . script ( " s3 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r4 . valid ( ) ) ;
} ;
auto fadd = [ & ] ( ) {
auto r = lua . script ( " c:add(17) " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopset = [ & ] ( ) {
auto r = lua . script ( " c[18] = true " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopget = [ & ] ( ) {
auto r = lua . script ( " v3 = c[20] " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
REQUIRE_NOTHROW ( ffind ( ) ) ;
REQUIRE_NOTHROW ( fget ( ) ) ;
REQUIRE_NOTHROW ( fset ( ) ) ;
REQUIRE_NOTHROW ( ferase ( ) ) ;
REQUIRE_NOTHROW ( fadd ( ) ) ;
REQUIRE_NOTHROW ( fopset ( ) ) ;
REQUIRE_NOTHROW ( fopget ( ) ) ;
}
auto backit = items . begin ( ) ;
std : : size_t len = 0 ;
{
auto e = items . end ( ) ;
auto last = backit ;
for ( ; backit ! = e ; + + backit , + + len ) {
if ( backit = = e ) {
break ;
}
last = backit ;
}
backit = last ;
}
const int & first = * items . begin ( ) ;
const int & last = * backit ;
int i1 = lua [ " i1 " ] ;
int i2 = lua [ " i2 " ] ;
std : : size_t s1 = lua [ " s1 " ] ;
std : : size_t s2 = lua [ " s2 " ] ;
std : : size_t s3 = lua [ " s3 " ] ;
int v1 = lua [ " v1 " ] ;
int v2 = lua [ " v2 " ] ;
int v3 = lua [ " v3 " ] ;
int values [ ] = {
12 , 13 , 15 , 16 , 17 , 18 , 20
} ;
{
std : : size_t idx = 0 ;
for ( const auto & i : items ) {
const auto & v = values [ idx ] ;
REQUIRE ( i = = v ) ;
+ + idx ;
}
}
REQUIRE ( s1 = = 7 ) ;
REQUIRE ( s2 = = 6 ) ;
REQUIRE ( s3 = = 5 ) ;
REQUIRE ( len = = 7 ) ;
REQUIRE ( first = = 12 ) ;
REQUIRE ( last = = 20 ) ;
REQUIRE ( i1 = = 11 ) ;
REQUIRE ( i2 = = 14 ) ;
REQUIRE ( v1 = = 11 ) ;
REQUIRE ( v2 = = 13 ) ;
REQUIRE ( v3 = = 20 ) ;
}
template < typename T >
void unordered_container_check ( sol : : state & lua , T & items ) {
{
auto ffind = [ & ] ( ) {
auto r1 = lua . script ( " i1 = c:find(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " i2 = c:find(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fget = [ & ] ( ) {
auto r1 = lua . script ( " v1 = c:get(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " v2 = c:get(13) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fset = [ & ] ( ) {
auto r1 = lua . script ( " c:set(20) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " c:set(16) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto ferase = [ & ] ( ) {
auto r5 = lua . script ( " s1 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r5 . valid ( ) ) ;
auto r1 = lua . script ( " c:erase(i1) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r3 = lua . script ( " s2 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
auto r2 = lua . script ( " c:erase(i2) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r4 = lua . script ( " s3 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r4 . valid ( ) ) ;
} ;
auto fadd = [ & ] ( ) {
auto r = lua . script ( " c:add(17) " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopset = [ & ] ( ) {
auto r = lua . script ( " c[18] = true " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopget = [ & ] ( ) {
auto r = lua . script ( " v3 = c[20] " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
REQUIRE_NOTHROW ( ffind ( ) ) ;
REQUIRE_NOTHROW ( fget ( ) ) ;
REQUIRE_NOTHROW ( fset ( ) ) ;
REQUIRE_NOTHROW ( ferase ( ) ) ;
REQUIRE_NOTHROW ( fadd ( ) ) ;
REQUIRE_NOTHROW ( fopset ( ) ) ;
REQUIRE_NOTHROW ( fopget ( ) ) ;
}
std : : size_t len = items . size ( ) ;
int i1 = lua [ " i1 " ] ;
int i2 = lua [ " i2 " ] ;
std : : size_t s1 = lua [ " s1 " ] ;
std : : size_t s2 = lua [ " s2 " ] ;
std : : size_t s3 = lua [ " s3 " ] ;
int v1 = lua [ " v1 " ] ;
int v2 = lua [ " v2 " ] ;
int v3 = lua [ " v3 " ] ;
int values [ ] = {
12 , 13 , 15 , 16 , 17 , 18 , 20
} ;
{
std : : size_t idx = 0 ;
for ( const auto & i : items ) {
const auto & v = values [ idx ] ;
auto it = items . find ( v ) ;
REQUIRE ( it ! = items . cend ( ) ) ;
REQUIRE ( * it = = v ) ;
+ + idx ;
}
}
REQUIRE ( s1 = = 7 ) ;
REQUIRE ( s2 = = 6 ) ;
REQUIRE ( s3 = = 5 ) ;
REQUIRE ( len = = 7 ) ;
REQUIRE ( i1 = = 11 ) ;
REQUIRE ( i2 = = 14 ) ;
REQUIRE ( v1 = = 11 ) ;
REQUIRE ( v2 = = 13 ) ;
REQUIRE ( v3 = = 20 ) ;
}
template < typename T >
void associative_ordered_container_check ( sol : : state & lua , T & items ) {
{
auto r1 = lua . script ( R " (
for i = 1 , # c do
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v = c [ ( i + 10 ) ]
assert ( v = = ( i + 20 ) )
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end
) " , sol::script_pass_on_error);
REQUIRE ( r1 . valid ( ) ) ;
}
{
auto ffind = [ & ] ( ) {
auto r1 = lua . script ( " i1 = c:find(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " i2 = c:find(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fget = [ & ] ( ) {
auto r1 = lua . script ( " v1 = c:get(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " v2 = c:get(13) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fset = [ & ] ( ) {
auto r1 = lua . script ( " c:set(20, 30) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " c:set(16, 26) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r3 = lua . script ( " c:set(12, 31) " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
} ;
auto ferase = [ & ] ( ) {
auto r5 = lua . script ( " s1 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r5 . valid ( ) ) ;
auto r1 = lua . script ( " c:erase(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r3 = lua . script ( " s2 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
auto r2 = lua . script ( " c:erase(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r4 = lua . script ( " s3 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r4 . valid ( ) ) ;
} ;
auto fadd = [ & ] ( ) {
auto r = lua . script ( " c:add(17, 27) " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopset = [ & ] ( ) {
auto r = lua . script ( " c[18] = 28 " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopget = [ & ] ( ) {
auto r = lua . script ( " v3 = c[20] " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
REQUIRE_NOTHROW ( ffind ( ) ) ;
REQUIRE_NOTHROW ( fget ( ) ) ;
REQUIRE_NOTHROW ( fset ( ) ) ;
REQUIRE_NOTHROW ( ferase ( ) ) ;
REQUIRE_NOTHROW ( fadd ( ) ) ;
REQUIRE_NOTHROW ( fopset ( ) ) ;
REQUIRE_NOTHROW ( fopget ( ) ) ;
}
auto backit = items . begin ( ) ;
std : : size_t len = 0 ;
{
auto e = items . end ( ) ;
auto last = backit ;
for ( ; backit ! = e ; + + backit , + + len ) {
if ( backit = = e ) {
break ;
}
last = backit ;
}
backit = last ;
}
const std : : pair < const short , int > & first = * items . begin ( ) ;
const std : : pair < const short , int > & last = * backit ;
int i1 = lua [ " i1 " ] ;
int i2 = lua [ " i2 " ] ;
std : : size_t s1 = lua [ " s1 " ] ;
std : : size_t s2 = lua [ " s2 " ] ;
std : : size_t s3 = lua [ " s3 " ] ;
int v1 = lua [ " v1 " ] ;
int v2 = lua [ " v2 " ] ;
int v3 = lua [ " v3 " ] ;
std : : pair < const short , int > values [ ] = {
{ 12 , 31 } ,
{ 13 , 23 } ,
{ 15 , 25 } ,
{ 16 , 26 } ,
{ 17 , 27 } ,
{ 18 , 28 } ,
{ 20 , 30 }
} ;
{
std : : size_t idx = 0 ;
for ( const auto & i : items ) {
const auto & v = values [ idx ] ;
REQUIRE ( i = = v ) ;
+ + idx ;
}
}
REQUIRE ( s1 = = 7 ) ;
REQUIRE ( s2 = = 6 ) ;
REQUIRE ( s3 = = 5 ) ;
REQUIRE ( len = = 7 ) ;
REQUIRE ( first . first = = 12 ) ;
REQUIRE ( last . first = = 20 ) ;
REQUIRE ( first . second = = 31 ) ;
REQUIRE ( last . second = = 30 ) ;
REQUIRE ( i1 = = 21 ) ;
REQUIRE ( i2 = = 24 ) ;
REQUIRE ( v1 = = 21 ) ;
REQUIRE ( v2 = = 23 ) ;
REQUIRE ( v3 = = 30 ) ;
}
template < typename T >
void associative_unordered_container_check ( sol : : state & lua , T & items ) {
{
auto ffind = [ & ] ( ) {
auto r1 = lua . script ( " i1 = c:find(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " i2 = c:find(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fget = [ & ] ( ) {
auto r1 = lua . script ( " v1 = c:get(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " v2 = c:get(13) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fset = [ & ] ( ) {
auto r1 = lua . script ( " c:set(20, 30) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " c:set(16, 26) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r3 = lua . script ( " c:set(12, 31) " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
} ;
auto ferase = [ & ] ( ) {
auto r5 = lua . script ( " s1 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r5 . valid ( ) ) ;
auto r1 = lua . script ( " c:erase(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r3 = lua . script ( " s2 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
auto r2 = lua . script ( " c:erase(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
auto r4 = lua . script ( " s3 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r4 . valid ( ) ) ;
} ;
auto fadd = [ & ] ( ) {
auto r = lua . script ( " c:add(17, 27) " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopset = [ & ] ( ) {
auto r = lua . script ( " c[18] = 28 " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopget = [ & ] ( ) {
auto r = lua . script ( " v3 = c[20] " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
REQUIRE_NOTHROW ( ffind ( ) ) ;
REQUIRE_NOTHROW ( fget ( ) ) ;
REQUIRE_NOTHROW ( fset ( ) ) ;
REQUIRE_NOTHROW ( ferase ( ) ) ;
REQUIRE_NOTHROW ( fadd ( ) ) ;
REQUIRE_NOTHROW ( fopset ( ) ) ;
REQUIRE_NOTHROW ( fopget ( ) ) ;
}
std : : size_t len = items . size ( ) ;
int i1 = lua [ " i1 " ] ;
int i2 = lua [ " i2 " ] ;
std : : size_t s1 = lua [ " s1 " ] ;
std : : size_t s2 = lua [ " s2 " ] ;
std : : size_t s3 = lua [ " s3 " ] ;
int v1 = lua [ " v1 " ] ;
int v2 = lua [ " v2 " ] ;
int v3 = lua [ " v3 " ] ;
std : : pair < const short , int > values [ ] = {
{ 12 , 31 } ,
{ 13 , 23 } ,
{ 15 , 25 } ,
{ 16 , 26 } ,
{ 17 , 27 } ,
{ 18 , 28 } ,
{ 20 , 30 }
} ;
std : : pair < const short , int > item_values [ 7 ] ;
{
std : : size_t idx = 0 ;
for ( const auto & i : items ) {
const auto & v = values [ idx ] ;
auto it = items . find ( v . first ) ;
REQUIRE ( it ! = items . cend ( ) ) ;
REQUIRE ( it - > second = = v . second ) ;
+ + idx ;
}
}
REQUIRE ( s1 = = 7 ) ;
REQUIRE ( s2 = = 6 ) ;
REQUIRE ( s3 = = 5 ) ;
REQUIRE ( len = = 7 ) ;
REQUIRE ( i1 = = 21 ) ;
REQUIRE ( i2 = = 24 ) ;
REQUIRE ( v1 = = 21 ) ;
REQUIRE ( v2 = = 23 ) ;
REQUIRE ( v3 = = 30 ) ;
}
template < typename T >
void fixed_container_check ( sol : : state & lua , T & items ) {
{
auto r1 = lua . script ( R " (
for i = 1 , # c do
v = c [ i ]
assert ( v = = ( i + 10 ) )
end
) " , sol::script_pass_on_error);
REQUIRE ( r1 . valid ( ) ) ;
}
{
auto ffind = [ & ] ( ) {
auto r1 = lua . script ( " i1 = c:find(11) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " i2 = c:find(14) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fget = [ & ] ( ) {
auto r1 = lua . script ( " v1 = c:get(2) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " v2 = c:get(5) " , sol : : script_pass_on_error ) ;
REQUIRE ( r2 . valid ( ) ) ;
} ;
auto fset = [ & ] ( ) {
auto r1 = lua . script ( " c:set(2, 20) " , sol : : script_pass_on_error ) ;
REQUIRE ( r1 . valid ( ) ) ;
auto r2 = lua . script ( " c:set(6, 16) " , sol : : script_pass_on_error ) ;
REQUIRE_FALSE ( r2 . valid ( ) ) ;
} ;
auto ferase = [ & ] ( ) {
auto r5 = lua . script ( " s1 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r5 . valid ( ) ) ;
auto r1 = lua . script ( " c:erase(i1) " , sol : : script_pass_on_error ) ;
REQUIRE_FALSE ( r1 . valid ( ) ) ;
auto r3 = lua . script ( " s2 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r3 . valid ( ) ) ;
auto r2 = lua . script ( " c:erase(i2) " , sol : : script_pass_on_error ) ;
REQUIRE_FALSE ( r2 . valid ( ) ) ;
auto r4 = lua . script ( " s3 = #c " , sol : : script_pass_on_error ) ;
REQUIRE ( r4 . valid ( ) ) ;
} ;
auto fadd = [ & ] ( ) {
auto r = lua . script ( " c:add(17) " , sol : : script_pass_on_error ) ;
REQUIRE_FALSE ( r . valid ( ) ) ;
} ;
auto fopset = [ & ] ( ) {
auto r = lua . script ( " c[5] = 18 " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
auto fopget = [ & ] ( ) {
auto r = lua . script ( " v3 = c[4] " , sol : : script_pass_on_error ) ;
REQUIRE ( r . valid ( ) ) ;
} ;
REQUIRE_NOTHROW ( ffind ( ) ) ;
REQUIRE_NOTHROW ( fget ( ) ) ;
REQUIRE_NOTHROW ( fset ( ) ) ;
REQUIRE_NOTHROW ( ferase ( ) ) ;
REQUIRE_NOTHROW ( fadd ( ) ) ;
REQUIRE_NOTHROW ( fopset ( ) ) ;
REQUIRE_NOTHROW ( fopget ( ) ) ;
}
auto backit = std : : begin ( items ) ;
std : : size_t len = 0 ;
{
auto e = std : : end ( items ) ;
auto last = backit ;
for ( ; backit ! = e ; + + backit , + + len ) {
if ( backit = = e ) {
break ;
}
last = backit ;
}
backit = last ;
}
const int & first = * std : : begin ( items ) ;
const int & last = * backit ;
int i1 = lua [ " i1 " ] ;
int i2 = lua [ " i2 " ] ;
std : : size_t s1 = lua [ " s1 " ] ;
std : : size_t s2 = lua [ " s2 " ] ;
std : : size_t s3 = lua [ " s3 " ] ;
int v1 = lua [ " v1 " ] ;
int v2 = lua [ " v2 " ] ;
int v3 = lua [ " v3 " ] ;
int values [ ] = {
11 , 20 , 13 , 14 , 18
} ;
{
std : : size_t idx = 0 ;
for ( const auto & i : items ) {
const auto & v = values [ idx ] ;
REQUIRE ( i = = v ) ;
+ + idx ;
}
}
REQUIRE ( first = = 11 ) ;
REQUIRE ( last = = 18 ) ;
REQUIRE ( s1 = = 5 ) ;
REQUIRE ( s2 = = 5 ) ;
REQUIRE ( s3 = = 5 ) ;
REQUIRE ( len = = 5 ) ;
REQUIRE ( i1 = = 1 ) ;
REQUIRE ( i2 = = 4 ) ;
REQUIRE ( v1 = = 12 ) ;
REQUIRE ( v2 = = 15 ) ;
REQUIRE ( v3 = = 14 ) ;
}
TEST_CASE ( " containers/sequence containers " , " check all of the functinos for every single container " ) {
SECTION ( " vector " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : vector < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
sequence_container_check ( lua , items ) ;
}
SECTION ( " list " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : list < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
sequence_container_check ( lua , items ) ;
}
SECTION ( " forward_list " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : forward_list < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
sequence_container_check ( lua , items ) ;
}
SECTION ( " deque " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : deque < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
sequence_container_check ( lua , items ) ;
}
}
TEST_CASE ( " containers/fixed containers " , " check immutable container types " ) {
SECTION ( " array " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : array < int , 5 > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
fixed_container_check ( lua , items ) ;
}
SECTION ( " array ref " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : array < int , 5 > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = std : : ref ( items ) ;
fixed_container_check ( lua , items ) ;
}
SECTION ( " c array " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
int items [ 5 ] = { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
fixed_container_check ( lua , items ) ;
}
SECTION ( " c array ref " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
int items [ 5 ] = { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = std : : ref ( items ) ;
fixed_container_check ( lua , items ) ;
}
}
TEST_CASE ( " containers/ordered lookup containers " , " check ordered container types " ) {
SECTION ( " set " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : set < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
ordered_container_check ( lua , items ) ;
}
SECTION ( " multiset " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : multiset < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
ordered_container_check ( lua , items ) ;
}
}
TEST_CASE ( " containers/unordered lookup containers " , " check ordered container types " ) {
SECTION ( " unordered_set " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : unordered_set < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
unordered_container_check ( lua , items ) ;
}
SECTION ( " unordered_multiset " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : unordered_multiset < int > items { 11 , 12 , 13 , 14 , 15 } ;
lua [ " c " ] = & items ;
unordered_container_check ( lua , items ) ;
}
}
TEST_CASE ( " containers/associative ordered containers " , " check associative (map) containers that are ordered fulfill basic functionality requirements " ) {
SECTION ( " map " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : map < short , int > items {
{ 11 , 21 } ,
{ 12 , 22 } ,
{ 13 , 23 } ,
{ 14 , 24 } ,
{ 15 , 25 }
} ;
lua [ " c " ] = & items ;
associative_ordered_container_check ( lua , items ) ;
}
SECTION ( " multimap " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : multimap < short , int > items {
{ 11 , 21 } ,
{ 12 , 22 } ,
{ 13 , 23 } ,
{ 14 , 24 } ,
{ 15 , 25 }
} ;
lua [ " c " ] = & items ;
associative_ordered_container_check ( lua , items ) ;
}
}
TEST_CASE ( " containers/associative unordered containers " , " check associative (map) containers that are ordered that they fulfill basic functionality requirements " ) {
SECTION ( " unordered_map " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : unordered_map < short , int > items {
{ 11 , 21 } ,
{ 12 , 22 } ,
{ 13 , 23 } ,
{ 14 , 24 } ,
{ 15 , 25 }
} ;
lua [ " c " ] = & items ;
associative_unordered_container_check ( lua , items ) ;
}
SECTION ( " unordered_multimap " ) {
sol : : state lua ;
lua . open_libraries ( sol : : lib : : base ) ;
std : : unordered_multimap < short , int > items {
{ 11 , 21 } ,
{ 12 , 22 } ,
{ 13 , 23 } ,
{ 14 , 24 } ,
{ 15 , 25 }
} ;
lua [ " c " ] = & items ;
associative_unordered_container_check ( lua , items ) ;
}
}
2017-08-07 14:07:21 +08:00
TEST_CASE ( " containers/auxiliary functions test " , " make sure the manipulation functions are present and usable and working across various container types " ) {
sol : : state lua ;
lua . open_libraries ( ) ;
lua . script ( R " (
function g ( x )
x : add ( 20 )
end
function h ( x )
x : add ( 20 , 40 )
end
function i ( x )
x : clear ( )
end
function sf ( x , v )
return x : find ( v )
end
) " );
// Have the function we
// just defined in Lua
sol : : function g = lua [ " g " ] ;
sol : : function h = lua [ " h " ] ;
sol : : function i = lua [ " i " ] ;
sol : : function sf = lua [ " sf " ] ;
// Set a global variable called
// "arr" to be a vector of 5 lements
lua [ " c_arr " ] = std : : array < int , 5 > { { 2 , 4 , 6 , 8 , 10 } } ;
lua [ " arr " ] = std : : vector < int > { 2 , 4 , 6 , 8 , 10 } ;
lua [ " map " ] = std : : map < int , int > { { 1 , 2 } , { 2 , 4 } , { 3 , 6 } , { 4 , 8 } , { 5 , 10 } } ;
lua [ " set " ] = std : : set < int > { 2 , 4 , 6 , 8 , 10 } ;
std : : array < int , 5 > & c_arr = lua [ " c_arr " ] ;
std : : vector < int > & arr = lua [ " arr " ] ;
std : : map < int , int > & map = lua [ " map " ] ;
std : : set < int > & set = lua [ " set " ] ;
REQUIRE ( c_arr . size ( ) = = 5 ) ;
REQUIRE ( arr . size ( ) = = 5 ) ;
REQUIRE ( map . size ( ) = = 5 ) ;
REQUIRE ( set . size ( ) = = 5 ) ;
g ( lua [ " set " ] ) ;
g ( lua [ " arr " ] ) ;
h ( lua [ " map " ] ) ;
REQUIRE ( arr . size ( ) = = 6 ) ;
REQUIRE ( map . size ( ) = = 6 ) ;
REQUIRE ( set . size ( ) = = 6 ) ;
{
int r = sf ( set , 8 ) ;
REQUIRE ( r = = 8 ) ;
sol : : object rn = sf ( set , 9 ) ;
REQUIRE ( rn = = sol : : nil ) ;
}
{
int r = sf ( map , 3 ) ;
REQUIRE ( r = = 6 ) ;
sol : : object rn = sf ( map , 9 ) ;
REQUIRE ( rn = = sol : : nil ) ;
}
i ( lua [ " arr " ] ) ;
i ( lua [ " map " ] ) ;
i ( lua [ " set " ] ) ;
REQUIRE ( arr . empty ( ) ) ;
REQUIRE ( map . empty ( ) ) ;
REQUIRE ( set . empty ( ) ) ;
REQUIRE_NOTHROW ( [ & ] ( ) {
lua . script ( R " (
c_arr [ 1 ] = 7
c_arr [ 2 ] = 7
c_arr [ 3 ] = 7
) " );
} ( ) ) ;
}
TEST_CASE ( " containers/indices test " , " test indices on fixed array types " ) {
SECTION ( " zero index test " ) {
sol : : state lua ;
lua [ " c_arr " ] = std : : array < int , 5 > { { 2 , 4 , 6 , 8 , 10 } } ;
auto result = lua . safe_script ( R " (
c_arr [ 0 ] = 7
) " , sol::script_pass_on_error);
REQUIRE_FALSE ( result . valid ( ) ) ;
}
SECTION ( " negative index test " ) {
sol : : state lua ;
lua [ " c_arr " ] = std : : array < int , 5 > { { 2 , 4 , 6 , 8 , 10 } } ;
auto result = lua . safe_script ( R " (
c_arr [ - 1 ] = 7
) " , sol::script_pass_on_error);
REQUIRE_FALSE ( result . valid ( ) ) ;
}
}
