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/*************************************************************************/
/* test_class_db.h */
/*************************************************************************/
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/* GODOT ENGINE */
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/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
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# ifndef TEST_CLASS_DB_H
# define TEST_CLASS_DB_H
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# include "core/register_core_types.h"
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# include "core/core_constants.h"
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# include "core/os/os.h"
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# include "core/string/string_name.h"
# include "core/string/ustring.h"
# include "core/templates/ordered_hash_map.h"
# include "core/variant/variant.h"
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# include "tests/test_macros.h"
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namespace TestClassDB {
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struct TypeReference {
StringName name ;
bool is_enum = false ;
} ;
struct ConstantData {
String name ;
int value = 0 ;
} ;
struct EnumData {
StringName name ;
List < ConstantData > constants ;
_FORCE_INLINE_ bool operator = = ( const EnumData & p_enum ) const {
return p_enum . name = = name ;
}
} ;
struct PropertyData {
StringName name ;
int index = 0 ;
StringName getter ;
StringName setter ;
} ;
struct ArgumentData {
TypeReference type ;
String name ;
bool has_defval = false ;
Variant defval ;
} ;
struct MethodData {
StringName name ;
TypeReference return_type ;
List < ArgumentData > arguments ;
bool is_virtual = false ;
bool is_vararg = false ;
} ;
struct SignalData {
StringName name ;
List < ArgumentData > arguments ;
} ;
struct ExposedClass {
StringName name ;
StringName base ;
bool is_singleton = false ;
bool is_instantiable = false ;
bool is_reference = false ;
ClassDB : : APIType api_type ;
List < ConstantData > constants ;
List < EnumData > enums ;
List < PropertyData > properties ;
List < MethodData > methods ;
List < SignalData > signals_ ;
const PropertyData * find_property_by_name ( const StringName & p_name ) const {
for ( const List < PropertyData > : : Element * E = properties . front ( ) ; E ; E = E - > next ( ) ) {
if ( E - > get ( ) . name = = p_name ) {
return & E - > get ( ) ;
}
}
return nullptr ;
}
const MethodData * find_method_by_name ( const StringName & p_name ) const {
for ( const List < MethodData > : : Element * E = methods . front ( ) ; E ; E = E - > next ( ) ) {
if ( E - > get ( ) . name = = p_name ) {
return & E - > get ( ) ;
}
}
return nullptr ;
}
} ;
struct NamesCache {
StringName variant_type = StaticCString : : create ( " Variant " ) ;
StringName object_class = StaticCString : : create ( " Object " ) ;
StringName reference_class = StaticCString : : create ( " Reference " ) ;
StringName string_type = StaticCString : : create ( " String " ) ;
StringName string_name_type = StaticCString : : create ( " StringName " ) ;
StringName node_path_type = StaticCString : : create ( " NodePath " ) ;
StringName bool_type = StaticCString : : create ( " bool " ) ;
StringName int_type = StaticCString : : create ( " int " ) ;
StringName float_type = StaticCString : : create ( " float " ) ;
StringName void_type = StaticCString : : create ( " void " ) ;
StringName vararg_stub_type = StaticCString : : create ( " @VarArg@ " ) ;
StringName vector2_type = StaticCString : : create ( " Vector2 " ) ;
StringName rect2_type = StaticCString : : create ( " Rect2 " ) ;
StringName vector3_type = StaticCString : : create ( " Vector3 " ) ;
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// Object not included as it must be checked for all derived classes
static constexpr int nullable_types_count = 17 ;
StringName nullable_types [ nullable_types_count ] = {
string_type ,
string_name_type ,
node_path_type ,
StaticCString : : create ( _STR ( Array ) ) ,
StaticCString : : create ( _STR ( Dictionary ) ) ,
StaticCString : : create ( _STR ( Callable ) ) ,
StaticCString : : create ( _STR ( Signal ) ) ,
StaticCString : : create ( _STR ( PackedByteArray ) ) ,
StaticCString : : create ( _STR ( PackedInt32Array ) ) ,
StaticCString : : create ( _STR ( PackedInt64rray ) ) ,
StaticCString : : create ( _STR ( PackedFloat32Array ) ) ,
StaticCString : : create ( _STR ( PackedFloat64Array ) ) ,
StaticCString : : create ( _STR ( PackedStringArray ) ) ,
StaticCString : : create ( _STR ( PackedVector2Array ) ) ,
StaticCString : : create ( _STR ( PackedVector3Array ) ) ,
StaticCString : : create ( _STR ( PackedColorArray ) ) ,
} ;
bool is_nullable_type ( const StringName & p_type ) const {
for ( int i = 0 ; i < nullable_types_count ; i + + ) {
if ( p_type = = nullable_types [ i ] ) {
return true ;
}
}
return false ;
}
} ;
typedef OrderedHashMap < StringName , ExposedClass > ExposedClasses ;
struct Context {
Vector < StringName > enum_types ;
Vector < StringName > builtin_types ;
ExposedClasses exposed_classes ;
List < EnumData > global_enums ;
NamesCache names_cache ;
const ExposedClass * find_exposed_class ( const StringName & p_name ) const {
ExposedClasses : : ConstElement elem = exposed_classes . find ( p_name ) ;
return elem ? & elem . value ( ) : nullptr ;
}
const ExposedClass * find_exposed_class ( const TypeReference & p_type_ref ) const {
ExposedClasses : : ConstElement elem = exposed_classes . find ( p_type_ref . name ) ;
return elem ? & elem . value ( ) : nullptr ;
}
bool has_type ( const TypeReference & p_type_ref ) const {
if ( builtin_types . find ( p_type_ref . name ) > = 0 ) {
return true ;
}
if ( p_type_ref . is_enum ) {
if ( enum_types . find ( p_type_ref . name ) > = 0 ) {
return true ;
}
// Enum not found. Most likely because none of its constants were bound, so it's empty. That's fine. Use int instead.
return builtin_types . find ( names_cache . int_type ) ;
}
return false ;
}
} ;
bool arg_default_value_is_assignable_to_type ( const Context & p_context , const Variant & p_val , const TypeReference & p_arg_type , String * r_err_msg = nullptr ) {
if ( p_arg_type . name = = p_context . names_cache . variant_type ) {
// Variant can take anything
return true ;
}
switch ( p_val . get_type ( ) ) {
case Variant : : NIL :
return p_context . find_exposed_class ( p_arg_type ) | |
p_context . names_cache . is_nullable_type ( p_arg_type . name ) ;
case Variant : : BOOL :
return p_arg_type . name = = p_context . names_cache . bool_type ;
case Variant : : INT :
return p_arg_type . name = = p_context . names_cache . int_type | |
p_arg_type . name = = p_context . names_cache . float_type | |
p_arg_type . is_enum ;
case Variant : : FLOAT :
return p_arg_type . name = = p_context . names_cache . float_type ;
case Variant : : STRING :
case Variant : : STRING_NAME :
return p_arg_type . name = = p_context . names_cache . string_type | |
p_arg_type . name = = p_context . names_cache . string_name_type | |
p_arg_type . name = = p_context . names_cache . node_path_type ;
case Variant : : NODE_PATH :
return p_arg_type . name = = p_context . names_cache . node_path_type ;
case Variant : : TRANSFORM :
case Variant : : TRANSFORM2D :
case Variant : : BASIS :
case Variant : : QUAT :
case Variant : : PLANE :
case Variant : : AABB :
case Variant : : COLOR :
case Variant : : VECTOR2 :
case Variant : : RECT2 :
case Variant : : VECTOR3 :
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case Variant : : RID :
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case Variant : : ARRAY :
case Variant : : DICTIONARY :
case Variant : : PACKED_BYTE_ARRAY :
case Variant : : PACKED_INT32_ARRAY :
case Variant : : PACKED_INT64_ARRAY :
case Variant : : PACKED_FLOAT32_ARRAY :
case Variant : : PACKED_FLOAT64_ARRAY :
case Variant : : PACKED_STRING_ARRAY :
case Variant : : PACKED_VECTOR2_ARRAY :
case Variant : : PACKED_VECTOR3_ARRAY :
case Variant : : PACKED_COLOR_ARRAY :
case Variant : : CALLABLE :
case Variant : : SIGNAL :
return p_arg_type . name = = Variant : : get_type_name ( p_val . get_type ( ) ) ;
case Variant : : OBJECT :
return p_context . find_exposed_class ( p_arg_type ) ;
case Variant : : VECTOR2I :
return p_arg_type . name = = p_context . names_cache . vector2_type | |
p_arg_type . name = = Variant : : get_type_name ( p_val . get_type ( ) ) ;
case Variant : : RECT2I :
return p_arg_type . name = = p_context . names_cache . rect2_type | |
p_arg_type . name = = Variant : : get_type_name ( p_val . get_type ( ) ) ;
case Variant : : VECTOR3I :
return p_arg_type . name = = p_context . names_cache . vector3_type | |
p_arg_type . name = = Variant : : get_type_name ( p_val . get_type ( ) ) ;
default :
if ( r_err_msg ) {
* r_err_msg = " Unexpected Variant type: " + itos ( p_val . get_type ( ) ) ;
}
break ;
}
return false ;
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}
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void validate_property ( const Context & p_context , const ExposedClass & p_class , const PropertyData & p_prop ) {
const MethodData * setter = p_class . find_method_by_name ( p_prop . setter ) ;
// Search it in base classes too
const ExposedClass * top = & p_class ;
while ( ! setter & & top - > base ! = StringName ( ) ) {
top = p_context . find_exposed_class ( top - > base ) ;
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TEST_FAIL_COND ( ! top , " Class not found ' " , top - > base , " '. Inherited by ' " , top - > name , " '. " ) ;
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setter = top - > find_method_by_name ( p_prop . setter ) ;
}
const MethodData * getter = p_class . find_method_by_name ( p_prop . getter ) ;
// Search it in base classes too
top = & p_class ;
while ( ! getter & & top - > base ! = StringName ( ) ) {
top = p_context . find_exposed_class ( top - > base ) ;
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TEST_FAIL_COND ( ! top , " Class not found ' " , top - > base , " '. Inherited by ' " , top - > name , " '. " ) ;
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getter = top - > find_method_by_name ( p_prop . getter ) ;
}
TEST_FAIL_COND ( ( ! setter & & ! getter ) ,
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" Couldn't find neither the setter nor the getter for property: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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if ( setter ) {
int setter_argc = p_prop . index ! = - 1 ? 2 : 1 ;
TEST_FAIL_COND ( setter - > arguments . size ( ) ! = setter_argc ,
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" Invalid property setter argument count: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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}
if ( getter ) {
int getter_argc = p_prop . index ! = - 1 ? 1 : 0 ;
TEST_FAIL_COND ( getter - > arguments . size ( ) ! = getter_argc ,
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" Invalid property setter argument count: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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}
if ( getter & & setter ) {
const ArgumentData & setter_first_arg = setter - > arguments . back ( ) - > get ( ) ;
if ( getter - > return_type . name ! = setter_first_arg . type . name ) {
// Special case for Node::set_name
bool whitelisted = getter - > return_type . name = = p_context . names_cache . string_name_type & &
setter_first_arg . type . name = = p_context . names_cache . string_type ;
TEST_FAIL_COND ( ! whitelisted ,
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" Return type from getter doesn't match first argument of setter, for property: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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}
}
const TypeReference & prop_type_ref = getter ? getter - > return_type : setter - > arguments . back ( ) - > get ( ) . type ;
const ExposedClass * prop_class = p_context . find_exposed_class ( prop_type_ref ) ;
if ( prop_class ) {
TEST_COND ( prop_class - > is_singleton ,
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" Property type is a singleton: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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} else {
TEST_FAIL_COND ( ! p_context . has_type ( prop_type_ref ) ,
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" Property type ' " , prop_type_ref . name , " ' not found: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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}
if ( getter ) {
if ( p_prop . index ! = - 1 ) {
const ArgumentData & idx_arg = getter - > arguments . front ( ) - > get ( ) ;
if ( idx_arg . type . name ! = p_context . names_cache . int_type ) {
// If not an int, it can be an enum
TEST_COND ( p_context . enum_types . find ( idx_arg . type . name ) < 0 ,
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" Invalid type ' " , idx_arg . type . name , " ' for index argument of property getter: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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}
}
}
if ( setter ) {
if ( p_prop . index ! = - 1 ) {
const ArgumentData & idx_arg = setter - > arguments . front ( ) - > get ( ) ;
if ( idx_arg . type . name ! = p_context . names_cache . int_type ) {
// Assume the index parameter is an enum
// If not an int, it can be an enum
TEST_COND ( p_context . enum_types . find ( idx_arg . type . name ) < 0 ,
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" Invalid type ' " , idx_arg . type . name , " ' for index argument of property setter: ' " , p_class . name , " . " , String ( p_prop . name ) , " '. " ) ;
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}
}
}
}
void validate_method ( const Context & p_context , const ExposedClass & p_class , const MethodData & p_method ) {
const ExposedClass * return_class = p_context . find_exposed_class ( p_method . return_type ) ;
if ( return_class ) {
TEST_COND ( return_class - > is_singleton ,
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" Method return type is a singleton: ' " , p_class . name , " . " , p_method . name , " '. " ) ;
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}
for ( const List < ArgumentData > : : Element * F = p_method . arguments . front ( ) ; F ; F = F - > next ( ) ) {
const ArgumentData & arg = F - > get ( ) ;
const ExposedClass * arg_class = p_context . find_exposed_class ( arg . type ) ;
if ( arg_class ) {
TEST_COND ( arg_class - > is_singleton ,
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" Argument type is a singleton: ' " , arg . name , " ' of method ' " , p_class . name , " . " , p_method . name , " '. " ) ;
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} else {
TEST_FAIL_COND ( ! p_context . has_type ( arg . type ) ,
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" Argument type ' " , arg . type . name , " ' not found: ' " , arg . name , " ' of method " , p_class . name , " . " , p_method . name , " '. " ) ;
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}
if ( arg . has_defval ) {
String type_error_msg ;
bool arg_defval_assignable_to_type = arg_default_value_is_assignable_to_type ( p_context , arg . defval , arg . type , & type_error_msg ) ;
String err_msg = vformat ( " Invalid default value for parameter '%s' of method '%s.%s'. " , arg . name , p_class . name , p_method . name ) ;
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if ( ! type_error_msg . is_empty ( ) ) {
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err_msg + = " " + type_error_msg ;
}
TEST_COND ( ! arg_defval_assignable_to_type , err_msg . utf8 ( ) . get_data ( ) ) ;
}
}
}
void validate_signal ( const Context & p_context , const ExposedClass & p_class , const SignalData & p_signal ) {
for ( const List < ArgumentData > : : Element * F = p_signal . arguments . front ( ) ; F ; F = F - > next ( ) ) {
const ArgumentData & arg = F - > get ( ) ;
const ExposedClass * arg_class = p_context . find_exposed_class ( arg . type ) ;
if ( arg_class ) {
TEST_COND ( arg_class - > is_singleton ,
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" Argument class is a singleton: ' " , arg . name , " ' of signal " , p_class . name , " . " , p_signal . name , " '. " ) ;
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} else {
TEST_FAIL_COND ( ! p_context . has_type ( arg . type ) ,
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" Argument type ' " , arg . type . name , " ' not found: ' " , arg . name , " ' of signal " , p_class . name , " . " , p_signal . name , " '. " ) ;
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}
}
}
void validate_class ( const Context & p_context , const ExposedClass & p_exposed_class ) {
bool is_derived_type = p_exposed_class . base ! = StringName ( ) ;
if ( ! is_derived_type ) {
// Asserts about the base Object class
TEST_FAIL_COND ( p_exposed_class . name ! = p_context . names_cache . object_class ,
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" Class ' " , p_exposed_class . name , " ' has no base class. " ) ;
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TEST_FAIL_COND ( ! p_exposed_class . is_instantiable ,
" Object class is not instantiable. " ) ;
TEST_FAIL_COND ( p_exposed_class . api_type ! = ClassDB : : API_CORE ,
" Object class is API is not API_CORE. " ) ;
TEST_FAIL_COND ( p_exposed_class . is_singleton ,
" Object class is registered as a singleton. " ) ;
}
TEST_FAIL_COND ( ( p_exposed_class . is_singleton & & p_exposed_class . base ! = p_context . names_cache . object_class ) ,
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" Singleton base class ' " , String ( p_exposed_class . base ) , " ' is not Object, for class ' " , p_exposed_class . name , " '. " ) ;
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TEST_FAIL_COND ( ( is_derived_type & & ! p_context . exposed_classes . has ( p_exposed_class . base ) ) ,
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" Base type ' " , p_exposed_class . base . operator String ( ) , " ' does not exist, for class ' " , p_exposed_class . name , " '. " ) ;
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for ( const List < PropertyData > : : Element * F = p_exposed_class . properties . front ( ) ; F ; F = F - > next ( ) ) {
validate_property ( p_context , p_exposed_class , F - > get ( ) ) ;
}
for ( const List < MethodData > : : Element * F = p_exposed_class . methods . front ( ) ; F ; F = F - > next ( ) ) {
validate_method ( p_context , p_exposed_class , F - > get ( ) ) ;
}
for ( const List < SignalData > : : Element * F = p_exposed_class . signals_ . front ( ) ; F ; F = F - > next ( ) ) {
validate_signal ( p_context , p_exposed_class , F - > get ( ) ) ;
}
}
void add_exposed_classes ( Context & r_context ) {
List < StringName > class_list ;
ClassDB : : get_class_list ( & class_list ) ;
class_list . sort_custom < StringName : : AlphCompare > ( ) ;
while ( class_list . size ( ) ) {
StringName class_name = class_list . front ( ) - > get ( ) ;
ClassDB : : APIType api_type = ClassDB : : get_api_type ( class_name ) ;
if ( api_type = = ClassDB : : API_NONE ) {
class_list . pop_front ( ) ;
continue ;
}
if ( ! ClassDB : : is_class_exposed ( class_name ) ) {
MESSAGE ( vformat ( " Ignoring class '%s' because it's not exposed. " , class_name ) . utf8 ( ) . get_data ( ) ) ;
class_list . pop_front ( ) ;
continue ;
}
if ( ! ClassDB : : is_class_enabled ( class_name ) ) {
MESSAGE ( vformat ( " Ignoring class '%s' because it's not enabled. " , class_name ) . utf8 ( ) . get_data ( ) ) ;
class_list . pop_front ( ) ;
continue ;
}
ClassDB : : ClassInfo * class_info = ClassDB : : classes . getptr ( class_name ) ;
ExposedClass exposed_class ;
exposed_class . name = class_name ;
exposed_class . api_type = api_type ;
exposed_class . is_singleton = Engine : : get_singleton ( ) - > has_singleton ( class_name ) ;
exposed_class . is_instantiable = class_info - > creation_func & & ! exposed_class . is_singleton ;
exposed_class . is_reference = ClassDB : : is_parent_class ( class_name , " Reference " ) ;
exposed_class . base = ClassDB : : get_parent_class ( class_name ) ;
// Add properties
List < PropertyInfo > property_list ;
ClassDB : : get_property_list ( class_name , & property_list , true ) ;
Map < StringName , StringName > accessor_methods ;
for ( const List < PropertyInfo > : : Element * E = property_list . front ( ) ; E ; E = E - > next ( ) ) {
const PropertyInfo & property = E - > get ( ) ;
if ( property . usage & PROPERTY_USAGE_GROUP | | property . usage & PROPERTY_USAGE_SUBGROUP | | property . usage & PROPERTY_USAGE_CATEGORY ) {
continue ;
}
PropertyData prop ;
prop . name = property . name ;
prop . setter = ClassDB : : get_property_setter ( class_name , prop . name ) ;
prop . getter = ClassDB : : get_property_getter ( class_name , prop . name ) ;
if ( prop . setter ! = StringName ( ) ) {
accessor_methods [ prop . setter ] = prop . name ;
}
if ( prop . getter ! = StringName ( ) ) {
accessor_methods [ prop . getter ] = prop . name ;
}
bool valid = false ;
prop . index = ClassDB : : get_property_index ( class_name , prop . name , & valid ) ;
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TEST_FAIL_COND ( ! valid , " Invalid property: ' " , exposed_class . name , " . " , String ( prop . name ) , " '. " ) ;
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exposed_class . properties . push_back ( prop ) ;
}
// Add methods
List < MethodInfo > virtual_method_list ;
ClassDB : : get_virtual_methods ( class_name , & virtual_method_list , true ) ;
List < MethodInfo > method_list ;
ClassDB : : get_method_list ( class_name , & method_list , true ) ;
method_list . sort ( ) ;
for ( List < MethodInfo > : : Element * E = method_list . front ( ) ; E ; E = E - > next ( ) ) {
const MethodInfo & method_info = E - > get ( ) ;
int argc = method_info . arguments . size ( ) ;
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if ( method_info . name . is_empty ( ) ) {
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continue ;
}
MethodData method ;
method . name = method_info . name ;
if ( method_info . flags & METHOD_FLAG_VIRTUAL ) {
method . is_virtual = true ;
}
PropertyInfo return_info = method_info . return_val ;
MethodBind * m = method . is_virtual ? nullptr : ClassDB : : get_method ( class_name , method_info . name ) ;
method . is_vararg = m & & m - > is_vararg ( ) ;
if ( ! m & & ! method . is_virtual ) {
TEST_FAIL_COND ( ! virtual_method_list . find ( method_info ) ,
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" Missing MethodBind for non-virtual method: ' " , exposed_class . name , " . " , method . name , " '. " ) ;
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// A virtual method without the virtual flag. This is a special case.
// The method Object.free is registered as a virtual method, but without the virtual flag.
// This is because this method is not supposed to be overridden, but called.
// We assume the return type is void.
method . return_type . name = r_context . names_cache . void_type ;
// Actually, more methods like this may be added in the future, which could return
// something different. Let's put this check to notify us if that ever happens.
String warn_msg = vformat (
" Notification: New unexpected virtual non-overridable method found. "
" We only expected Object.free, but found '%s.%s'. " ,
exposed_class . name , method . name ) ;
TEST_FAIL_COND_WARN (
( exposed_class . name ! = r_context . names_cache . object_class | | String ( method . name ) ! = " free " ) ,
warn_msg . utf8 ( ) . get_data ( ) ) ;
} else if ( return_info . type = = Variant : : INT & & return_info . usage & PROPERTY_USAGE_CLASS_IS_ENUM ) {
method . return_type . name = return_info . class_name ;
method . return_type . is_enum = true ;
} else if ( return_info . class_name ! = StringName ( ) ) {
method . return_type . name = return_info . class_name ;
bool bad_reference_hint = ! method . is_virtual & & return_info . hint ! = PROPERTY_HINT_RESOURCE_TYPE & &
ClassDB : : is_parent_class ( return_info . class_name , r_context . names_cache . reference_class ) ;
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TEST_COND ( bad_reference_hint , " Return type is reference but hint is not ' " _STR ( PROPERTY_HINT_RESOURCE_TYPE ) " '. " , " Are you returning a reference type by pointer? Method: ' " ,
exposed_class . name , " . " , method . name , " '. " ) ;
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} else if ( return_info . hint = = PROPERTY_HINT_RESOURCE_TYPE ) {
method . return_type . name = return_info . hint_string ;
} else if ( return_info . type = = Variant : : NIL & & return_info . usage & PROPERTY_USAGE_NIL_IS_VARIANT ) {
method . return_type . name = r_context . names_cache . variant_type ;
} else if ( return_info . type = = Variant : : NIL ) {
method . return_type . name = r_context . names_cache . void_type ;
} else {
// NOTE: We don't care about the size and sign of int and float in these tests
method . return_type . name = Variant : : get_type_name ( return_info . type ) ;
}
for ( int i = 0 ; i < argc ; i + + ) {
PropertyInfo arg_info = method_info . arguments [ i ] ;
String orig_arg_name = arg_info . name ;
ArgumentData arg ;
arg . name = orig_arg_name ;
if ( arg_info . type = = Variant : : INT & & arg_info . usage & PROPERTY_USAGE_CLASS_IS_ENUM ) {
arg . type . name = arg_info . class_name ;
arg . type . is_enum = true ;
} else if ( arg_info . class_name ! = StringName ( ) ) {
arg . type . name = arg_info . class_name ;
} else if ( arg_info . hint = = PROPERTY_HINT_RESOURCE_TYPE ) {
arg . type . name = arg_info . hint_string ;
} else if ( arg_info . type = = Variant : : NIL ) {
arg . type . name = r_context . names_cache . variant_type ;
} else {
// NOTE: We don't care about the size and sign of int and float in these tests
arg . type . name = Variant : : get_type_name ( arg_info . type ) ;
}
if ( m & & m - > has_default_argument ( i ) ) {
arg . has_defval = true ;
arg . defval = m - > get_default_argument ( i ) ;
}
method . arguments . push_back ( arg ) ;
}
if ( method . is_vararg ) {
ArgumentData vararg ;
vararg . type . name = r_context . names_cache . vararg_stub_type ;
vararg . name = " @varargs@ " ;
method . arguments . push_back ( vararg ) ;
}
TEST_COND ( exposed_class . find_property_by_name ( method . name ) ,
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" Method name conflicts with property: ' " , String ( class_name ) , " . " , String ( method . name ) , " '. " ) ;
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// Classes starting with an underscore are ignored unless they're used as a property setter or getter
if ( ! method . is_virtual & & String ( method . name ) [ 0 ] = = ' _ ' ) {
for ( const List < PropertyData > : : Element * F = exposed_class . properties . front ( ) ; F ; F = F - > next ( ) ) {
const PropertyData & prop = F - > get ( ) ;
if ( prop . setter = = method . name | | prop . getter = = method . name ) {
exposed_class . methods . push_back ( method ) ;
break ;
}
}
} else {
exposed_class . methods . push_back ( method ) ;
}
}
// Add signals
const HashMap < StringName , MethodInfo > & signal_map = class_info - > signal_map ;
const StringName * k = nullptr ;
while ( ( k = signal_map . next ( k ) ) ) {
SignalData signal ;
const MethodInfo & method_info = signal_map . get ( * k ) ;
signal . name = method_info . name ;
int argc = method_info . arguments . size ( ) ;
for ( int i = 0 ; i < argc ; i + + ) {
PropertyInfo arg_info = method_info . arguments [ i ] ;
String orig_arg_name = arg_info . name ;
ArgumentData arg ;
arg . name = orig_arg_name ;
if ( arg_info . type = = Variant : : INT & & arg_info . usage & PROPERTY_USAGE_CLASS_IS_ENUM ) {
arg . type . name = arg_info . class_name ;
arg . type . is_enum = true ;
} else if ( arg_info . class_name ! = StringName ( ) ) {
arg . type . name = arg_info . class_name ;
} else if ( arg_info . hint = = PROPERTY_HINT_RESOURCE_TYPE ) {
arg . type . name = arg_info . hint_string ;
} else if ( arg_info . type = = Variant : : NIL ) {
arg . type . name = r_context . names_cache . variant_type ;
} else {
// NOTE: We don't care about the size and sign of int and float in these tests
arg . type . name = Variant : : get_type_name ( arg_info . type ) ;
}
signal . arguments . push_back ( arg ) ;
}
bool method_conflict = exposed_class . find_property_by_name ( signal . name ) ;
// TODO:
// ClassDB allows signal names that conflict with method or property names.
// However registering a signal with a conflicting name is still considered wrong.
// Unfortunately there are some existing cases that are yet to be fixed.
// Until those are fixed we will print a warning instead of failing the test.
String warn_msg = vformat (
" Signal name conflicts with %s: '%s.%s. " ,
method_conflict ? " method " : " property " , class_name , signal . name ) ;
TEST_FAIL_COND_WARN ( ( method_conflict | | exposed_class . find_method_by_name ( signal . name ) ) ,
warn_msg . utf8 ( ) . get_data ( ) ) ;
exposed_class . signals_ . push_back ( signal ) ;
}
// Add enums and constants
List < String > constants ;
ClassDB : : get_integer_constant_list ( class_name , & constants , true ) ;
const HashMap < StringName , List < StringName > > & enum_map = class_info - > enum_map ;
k = nullptr ;
while ( ( k = enum_map . next ( k ) ) ) {
EnumData enum_ ;
enum_ . name = * k ;
const List < StringName > & enum_constants = enum_map . get ( * k ) ;
for ( const List < StringName > : : Element * E = enum_constants . front ( ) ; E ; E = E - > next ( ) ) {
const StringName & constant_name = E - > get ( ) ;
int * value = class_info - > constant_map . getptr ( constant_name ) ;
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TEST_FAIL_COND ( ! value , " Missing enum constant value: ' " ,
String ( class_name ) , " . " , String ( enum_ . name ) , " . " , String ( constant_name ) , " '. " ) ;
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constants . erase ( constant_name ) ;
ConstantData constant ;
constant . name = constant_name ;
constant . value = * value ;
enum_ . constants . push_back ( constant ) ;
}
exposed_class . enums . push_back ( enum_ ) ;
r_context . enum_types . push_back ( String ( class_name ) + " . " + String ( * k ) ) ;
}
for ( const List < String > : : Element * E = constants . front ( ) ; E ; E = E - > next ( ) ) {
const String & constant_name = E - > get ( ) ;
int * value = class_info - > constant_map . getptr ( StringName ( E - > get ( ) ) ) ;
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TEST_FAIL_COND ( ! value , " Missing enum constant value: ' " , String ( class_name ) , " . " , String ( constant_name ) , " '. " ) ;
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ConstantData constant ;
constant . name = constant_name ;
constant . value = * value ;
exposed_class . constants . push_back ( constant ) ;
}
r_context . exposed_classes . insert ( class_name , exposed_class ) ;
class_list . pop_front ( ) ;
}
}
void add_builtin_types ( Context & r_context ) {
// NOTE: We don't care about the size and sign of int and float in these tests
for ( int i = 0 ; i < Variant : : VARIANT_MAX ; i + + ) {
r_context . builtin_types . push_back ( Variant : : get_type_name ( Variant : : Type ( i ) ) ) ;
}
r_context . builtin_types . push_back ( _STR ( Variant ) ) ;
r_context . builtin_types . push_back ( r_context . names_cache . vararg_stub_type ) ;
r_context . builtin_types . push_back ( " void " ) ;
}
void add_global_enums ( Context & r_context ) {
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int global_constants_count = CoreConstants : : get_global_constant_count ( ) ;
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if ( global_constants_count > 0 ) {
for ( int i = 0 ; i < global_constants_count ; i + + ) {
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StringName enum_name = CoreConstants : : get_global_constant_enum ( i ) ;
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if ( enum_name ! = StringName ( ) ) {
ConstantData constant ;
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constant . name = CoreConstants : : get_global_constant_name ( i ) ;
constant . value = CoreConstants : : get_global_constant_value ( i ) ;
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EnumData enum_ ;
enum_ . name = enum_name ;
List < EnumData > : : Element * enum_match = r_context . global_enums . find ( enum_ ) ;
if ( enum_match ) {
enum_match - > get ( ) . constants . push_back ( constant ) ;
} else {
enum_ . constants . push_back ( constant ) ;
r_context . global_enums . push_back ( enum_ ) ;
}
}
}
for ( List < EnumData > : : Element * E = r_context . global_enums . front ( ) ; E ; E = E - > next ( ) ) {
r_context . enum_types . push_back ( E - > get ( ) . name ) ;
}
}
// HARDCODED
List < StringName > hardcoded_enums ;
hardcoded_enums . push_back ( " Vector2.Axis " ) ;
hardcoded_enums . push_back ( " Vector2i.Axis " ) ;
hardcoded_enums . push_back ( " Vector3.Axis " ) ;
hardcoded_enums . push_back ( " Vector3i.Axis " ) ;
for ( List < StringName > : : Element * E = hardcoded_enums . front ( ) ; E ; E = E - > next ( ) ) {
// These enums are not generated and must be written manually (e.g.: Vector3.Axis)
// Here, we assume core types do not begin with underscore
r_context . enum_types . push_back ( E - > get ( ) ) ;
}
}
TEST_SUITE ( " [ClassDB] " ) {
TEST_CASE ( " [ClassDB] Add exposed classes, builtin types, and global enums " ) {
Context context ;
add_exposed_classes ( context ) ;
add_builtin_types ( context ) ;
add_global_enums ( context ) ;
SUBCASE ( " [ClassDB] Find exposed class " ) {
const ExposedClass * object_class = context . find_exposed_class ( context . names_cache . object_class ) ;
TEST_FAIL_COND ( ! object_class , " Object class not found. " ) ;
TEST_FAIL_COND ( object_class - > base ! = StringName ( ) ,
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" Object class derives from another class: ' " , object_class - > base , " '. " ) ;
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for ( ExposedClasses : : Element E = context . exposed_classes . front ( ) ; E ; E = E . next ( ) ) {
validate_class ( context , E . value ( ) ) ;
}
}
}
}
} // namespace TestClassDB
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# endif // TEST_CLASS_DB_H