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3b11e33a09
Sets `AlignOperands` to `DontAlign`. `clang-format` developers seem to mostly care about space-based indentation and every other version of clang-format breaks the bad mismatch of tabs and spaces that it seems to use for operand alignment. So it's better without, so that it respects our two-tabs `ContinuationIndentWidth`.
547 lines
21 KiB
C++
547 lines
21 KiB
C++
/*************************************************************************/
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/* gd_mono_marshal.h */
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/*************************************************************************/
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/* This file is part of: */
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/* GODOT ENGINE */
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/* https://godotengine.org */
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/*************************************************************************/
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/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
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/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
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/* */
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/* Permission is hereby granted, free of charge, to any person obtaining */
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/* a copy of this software and associated documentation files (the */
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/* "Software"), to deal in the Software without restriction, including */
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/* without limitation the rights to use, copy, modify, merge, publish, */
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/* distribute, sublicense, and/or sell copies of the Software, and to */
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/* permit persons to whom the Software is furnished to do so, subject to */
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/* the following conditions: */
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/* */
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/* The above copyright notice and this permission notice shall be */
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/* included in all copies or substantial portions of the Software. */
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/* */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
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/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
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/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
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/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
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/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
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/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
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/*************************************************************************/
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#ifndef GDMONOMARSHAL_H
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#define GDMONOMARSHAL_H
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#include "core/variant/variant.h"
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#include "../managed_callable.h"
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#include "gd_mono.h"
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#include "gd_mono_utils.h"
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namespace GDMonoMarshal {
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template <typename T>
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T unbox(MonoObject *p_obj) {
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return *(T *)mono_object_unbox(p_obj);
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}
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template <typename T>
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T *unbox_addr(MonoObject *p_obj) {
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return (T *)mono_object_unbox(p_obj);
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}
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#define BOX_DOUBLE(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(double), &x)
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#define BOX_FLOAT(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(float), &x)
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#define BOX_INT64(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(int64_t), &x)
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#define BOX_INT32(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(int32_t), &x)
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#define BOX_INT16(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(int16_t), &x)
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#define BOX_INT8(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(int8_t), &x)
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#define BOX_UINT64(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(uint64_t), &x)
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#define BOX_UINT32(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(uint32_t), &x)
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#define BOX_UINT16(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(uint16_t), &x)
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#define BOX_UINT8(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(uint8_t), &x)
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#define BOX_BOOLEAN(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(bool), &x)
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#define BOX_PTR(x) mono_value_box(mono_domain_get(), CACHED_CLASS_RAW(IntPtr), x)
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#define BOX_ENUM(m_enum_class, x) mono_value_box(mono_domain_get(), m_enum_class, &x)
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Variant::Type managed_to_variant_type(const ManagedType &p_type, bool *r_nil_is_variant = nullptr);
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bool try_get_array_element_type(const ManagedType &p_array_type, ManagedType &r_elem_type);
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// String
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_FORCE_INLINE_ String mono_string_to_godot_not_null(MonoString *p_mono_string) {
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char32_t *utf32 = (char32_t *)mono_string_to_utf32(p_mono_string);
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String ret = String(utf32);
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mono_free(utf32);
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return ret;
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}
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_FORCE_INLINE_ String mono_string_to_godot(MonoString *p_mono_string) {
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if (p_mono_string == nullptr) {
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return String();
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}
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return mono_string_to_godot_not_null(p_mono_string);
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}
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_FORCE_INLINE_ MonoString *mono_string_from_godot(const String &p_string) {
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return mono_string_from_utf32((mono_unichar4 *)(p_string.get_data()));
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}
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// Variant
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size_t variant_get_managed_unboxed_size(const ManagedType &p_type);
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void *variant_to_managed_unboxed(const Variant &p_var, const ManagedType &p_type, void *r_buffer, unsigned int &r_offset);
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MonoObject *variant_to_mono_object(const Variant &p_var, const ManagedType &p_type);
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MonoObject *variant_to_mono_object(const Variant &p_var);
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MonoArray *variant_to_mono_array(const Variant &p_var, GDMonoClass *p_type_class);
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MonoObject *variant_to_mono_object_of_class(const Variant &p_var, GDMonoClass *p_type_class);
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MonoObject *variant_to_mono_object_of_genericinst(const Variant &p_var, GDMonoClass *p_type_class);
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MonoString *variant_to_mono_string(const Variant &p_var);
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// These overloads were added to avoid passing a `const Variant *` to the `const Variant &`
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// parameter. That would result in the `Variant(bool)` copy constructor being called as
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// pointers are implicitly converted to bool. Implicit conversions are f-ing evil.
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_FORCE_INLINE_ void *variant_to_managed_unboxed(const Variant *p_var, const ManagedType &p_type, void *r_buffer, unsigned int &r_offset) {
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return variant_to_managed_unboxed(*p_var, p_type, r_buffer, r_offset);
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}
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_FORCE_INLINE_ MonoObject *variant_to_mono_object(const Variant *p_var, const ManagedType &p_type) {
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return variant_to_mono_object(*p_var, p_type);
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}
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_FORCE_INLINE_ MonoObject *variant_to_mono_object(const Variant *p_var) {
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return variant_to_mono_object(*p_var);
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}
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_FORCE_INLINE_ MonoArray *variant_to_mono_array(const Variant *p_var, GDMonoClass *p_type_class) {
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return variant_to_mono_array(*p_var, p_type_class);
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}
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_FORCE_INLINE_ MonoObject *variant_to_mono_object_of_class(const Variant *p_var, GDMonoClass *p_type_class) {
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return variant_to_mono_object_of_class(*p_var, p_type_class);
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}
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_FORCE_INLINE_ MonoObject *variant_to_mono_object_of_genericinst(const Variant *p_var, GDMonoClass *p_type_class) {
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return variant_to_mono_object_of_genericinst(*p_var, p_type_class);
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}
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_FORCE_INLINE_ MonoString *variant_to_mono_string(const Variant *p_var) {
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return variant_to_mono_string(*p_var);
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}
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Variant mono_object_to_variant(MonoObject *p_obj);
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Variant mono_object_to_variant(MonoObject *p_obj, const ManagedType &p_type);
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Variant mono_object_to_variant_no_err(MonoObject *p_obj, const ManagedType &p_type);
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/// Tries to convert the MonoObject* to Variant and then convert the Variant to String.
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/// If the MonoObject* cannot be converted to Variant, then 'ToString()' is called instead.
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String mono_object_to_variant_string(MonoObject *p_obj, MonoException **r_exc);
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// System.Collections.Generic
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MonoObject *Dictionary_to_system_generic_dict(const Dictionary &p_dict, GDMonoClass *p_class, MonoReflectionType *p_key_reftype, MonoReflectionType *p_value_reftype);
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Dictionary system_generic_dict_to_Dictionary(MonoObject *p_obj, GDMonoClass *p_class, MonoReflectionType *p_key_reftype, MonoReflectionType *p_value_reftype);
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MonoObject *Array_to_system_generic_list(const Array &p_array, GDMonoClass *p_class, MonoReflectionType *p_elem_reftype);
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Variant system_generic_list_to_Array_variant(MonoObject *p_obj, GDMonoClass *p_class, MonoReflectionType *p_elem_reftype);
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// Array
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MonoArray *Array_to_mono_array(const Array &p_array);
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MonoArray *Array_to_mono_array(const Array &p_array, MonoClass *p_array_type_class);
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Array mono_array_to_Array(MonoArray *p_array);
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// PackedInt32Array
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MonoArray *PackedInt32Array_to_mono_array(const PackedInt32Array &p_array);
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PackedInt32Array mono_array_to_PackedInt32Array(MonoArray *p_array);
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// PackedInt64Array
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MonoArray *PackedInt64Array_to_mono_array(const PackedInt64Array &p_array);
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PackedInt64Array mono_array_to_PackedInt64Array(MonoArray *p_array);
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// PackedByteArray
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MonoArray *PackedByteArray_to_mono_array(const PackedByteArray &p_array);
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PackedByteArray mono_array_to_PackedByteArray(MonoArray *p_array);
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// PackedFloat32Array
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MonoArray *PackedFloat32Array_to_mono_array(const PackedFloat32Array &p_array);
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PackedFloat32Array mono_array_to_PackedFloat32Array(MonoArray *p_array);
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// PackedFloat64Array
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MonoArray *PackedFloat64Array_to_mono_array(const PackedFloat64Array &p_array);
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PackedFloat64Array mono_array_to_PackedFloat64Array(MonoArray *p_array);
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// PackedStringArray
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MonoArray *PackedStringArray_to_mono_array(const PackedStringArray &p_array);
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PackedStringArray mono_array_to_PackedStringArray(MonoArray *p_array);
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// PackedColorArray
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MonoArray *PackedColorArray_to_mono_array(const PackedColorArray &p_array);
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PackedColorArray mono_array_to_PackedColorArray(MonoArray *p_array);
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// PackedVector2Array
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MonoArray *PackedVector2Array_to_mono_array(const PackedVector2Array &p_array);
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PackedVector2Array mono_array_to_PackedVector2Array(MonoArray *p_array);
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// PackedVector3Array
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MonoArray *PackedVector3Array_to_mono_array(const PackedVector3Array &p_array);
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PackedVector3Array mono_array_to_PackedVector3Array(MonoArray *p_array);
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#pragma pack(push, 1)
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struct M_Callable {
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MonoObject *target;
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MonoObject *method_string_name;
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MonoDelegate *delegate;
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};
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struct M_SignalInfo {
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MonoObject *owner;
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MonoObject *name_string_name;
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};
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#pragma pack(pop)
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// Callable
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Callable managed_to_callable(const M_Callable &p_managed_callable);
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M_Callable callable_to_managed(const Callable &p_callable);
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// SignalInfo
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Signal managed_to_signal_info(const M_SignalInfo &p_managed_signal);
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M_SignalInfo signal_info_to_managed(const Signal &p_signal);
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// Structures
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namespace InteropLayout {
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enum {
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MATCHES_int = (sizeof(int32_t) == sizeof(uint32_t)),
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MATCHES_float = (sizeof(float) == sizeof(uint32_t)),
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MATCHES_double = (sizeof(double) == sizeof(uint64_t)),
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#ifdef REAL_T_IS_DOUBLE
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MATCHES_real_t = (sizeof(real_t) == sizeof(uint64_t)),
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#else
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MATCHES_real_t = (sizeof(real_t) == sizeof(uint32_t)),
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#endif
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MATCHES_Vector2 = (MATCHES_real_t && (sizeof(Vector2) == (sizeof(real_t) * 2)) &&
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offsetof(Vector2, x) == (sizeof(real_t) * 0) &&
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offsetof(Vector2, y) == (sizeof(real_t) * 1)),
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MATCHES_Vector2i = (MATCHES_int && (sizeof(Vector2i) == (sizeof(int32_t) * 2)) &&
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offsetof(Vector2i, x) == (sizeof(int32_t) * 0) &&
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offsetof(Vector2i, y) == (sizeof(int32_t) * 1)),
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MATCHES_Rect2 = (MATCHES_Vector2 && (sizeof(Rect2) == (sizeof(Vector2) * 2)) &&
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offsetof(Rect2, position) == (sizeof(Vector2) * 0) &&
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offsetof(Rect2, size) == (sizeof(Vector2) * 1)),
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MATCHES_Rect2i = (MATCHES_Vector2i && (sizeof(Rect2i) == (sizeof(Vector2i) * 2)) &&
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offsetof(Rect2i, position) == (sizeof(Vector2i) * 0) &&
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offsetof(Rect2i, size) == (sizeof(Vector2i) * 1)),
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MATCHES_Transform2D = (MATCHES_Vector2 && (sizeof(Transform2D) == (sizeof(Vector2) * 3))), // No field offset required, it stores an array
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MATCHES_Vector3 = (MATCHES_real_t && (sizeof(Vector3) == (sizeof(real_t) * 3)) &&
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offsetof(Vector3, x) == (sizeof(real_t) * 0) &&
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offsetof(Vector3, y) == (sizeof(real_t) * 1) &&
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offsetof(Vector3, z) == (sizeof(real_t) * 2)),
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MATCHES_Vector3i = (MATCHES_int && (sizeof(Vector3i) == (sizeof(int32_t) * 3)) &&
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offsetof(Vector3i, x) == (sizeof(int32_t) * 0) &&
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offsetof(Vector3i, y) == (sizeof(int32_t) * 1) &&
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offsetof(Vector3i, z) == (sizeof(int32_t) * 2)),
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MATCHES_Basis = (MATCHES_Vector3 && (sizeof(Basis) == (sizeof(Vector3) * 3))), // No field offset required, it stores an array
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MATCHES_Quaternion = (MATCHES_real_t && (sizeof(Quaternion) == (sizeof(real_t) * 4)) &&
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offsetof(Quaternion, x) == (sizeof(real_t) * 0) &&
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offsetof(Quaternion, y) == (sizeof(real_t) * 1) &&
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offsetof(Quaternion, z) == (sizeof(real_t) * 2) &&
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offsetof(Quaternion, w) == (sizeof(real_t) * 3)),
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MATCHES_Transform3D = (MATCHES_Basis && MATCHES_Vector3 && (sizeof(Transform3D) == (sizeof(Basis) + sizeof(Vector3))) &&
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offsetof(Transform3D, basis) == 0 &&
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offsetof(Transform3D, origin) == sizeof(Basis)),
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MATCHES_AABB = (MATCHES_Vector3 && (sizeof(AABB) == (sizeof(Vector3) * 2)) &&
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offsetof(AABB, position) == (sizeof(Vector3) * 0) &&
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offsetof(AABB, size) == (sizeof(Vector3) * 1)),
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MATCHES_Color = (MATCHES_float && (sizeof(Color) == (sizeof(float) * 4)) &&
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offsetof(Color, r) == (sizeof(float) * 0) &&
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offsetof(Color, g) == (sizeof(float) * 1) &&
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offsetof(Color, b) == (sizeof(float) * 2) &&
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offsetof(Color, a) == (sizeof(float) * 3)),
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MATCHES_Plane = (MATCHES_Vector3 && MATCHES_real_t && (sizeof(Plane) == (sizeof(Vector3) + sizeof(real_t))) &&
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offsetof(Plane, normal) == 0 &&
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offsetof(Plane, d) == sizeof(Vector3))
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};
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// In the future we may force this if we want to ref return these structs
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#ifdef GD_MONO_FORCE_INTEROP_STRUCT_COPY
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/* clang-format off */
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static_assert(MATCHES_Vector2 && MATCHES_Rect2 && MATCHES_Transform2D && MATCHES_Vector3 &&
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MATCHES_Basis && MATCHES_Quaternion && MATCHES_Transform3D && MATCHES_AABB && MATCHES_Color &&
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MATCHES_Plane && MATCHES_Vector2i && MATCHES_Rect2i && MATCHES_Vector3i);
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/* clang-format on */
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#endif
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} // namespace InteropLayout
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#pragma pack(push, 1)
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struct M_Vector2 {
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real_t x, y;
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static _FORCE_INLINE_ Vector2 convert_to(const M_Vector2 &p_from) {
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return Vector2(p_from.x, p_from.y);
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}
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static _FORCE_INLINE_ M_Vector2 convert_from(const Vector2 &p_from) {
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M_Vector2 ret = { p_from.x, p_from.y };
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return ret;
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}
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};
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struct M_Vector2i {
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int32_t x, y;
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static _FORCE_INLINE_ Vector2i convert_to(const M_Vector2i &p_from) {
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return Vector2i(p_from.x, p_from.y);
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}
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static _FORCE_INLINE_ M_Vector2i convert_from(const Vector2i &p_from) {
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M_Vector2i ret = { p_from.x, p_from.y };
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return ret;
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}
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};
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struct M_Rect2 {
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M_Vector2 position;
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M_Vector2 size;
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static _FORCE_INLINE_ Rect2 convert_to(const M_Rect2 &p_from) {
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return Rect2(M_Vector2::convert_to(p_from.position),
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M_Vector2::convert_to(p_from.size));
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}
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static _FORCE_INLINE_ M_Rect2 convert_from(const Rect2 &p_from) {
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M_Rect2 ret = { M_Vector2::convert_from(p_from.position), M_Vector2::convert_from(p_from.size) };
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return ret;
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}
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};
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struct M_Rect2i {
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M_Vector2i position;
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M_Vector2i size;
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static _FORCE_INLINE_ Rect2i convert_to(const M_Rect2i &p_from) {
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return Rect2i(M_Vector2i::convert_to(p_from.position),
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M_Vector2i::convert_to(p_from.size));
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}
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static _FORCE_INLINE_ M_Rect2i convert_from(const Rect2i &p_from) {
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M_Rect2i ret = { M_Vector2i::convert_from(p_from.position), M_Vector2i::convert_from(p_from.size) };
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return ret;
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}
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};
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struct M_Transform2D {
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M_Vector2 elements[3];
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static _FORCE_INLINE_ Transform2D convert_to(const M_Transform2D &p_from) {
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return Transform2D(p_from.elements[0].x, p_from.elements[0].y,
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p_from.elements[1].x, p_from.elements[1].y,
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p_from.elements[2].x, p_from.elements[2].y);
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}
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static _FORCE_INLINE_ M_Transform2D convert_from(const Transform2D &p_from) {
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M_Transform2D ret = {
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M_Vector2::convert_from(p_from.elements[0]),
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M_Vector2::convert_from(p_from.elements[1]),
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M_Vector2::convert_from(p_from.elements[2])
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};
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return ret;
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}
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};
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struct M_Vector3 {
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real_t x, y, z;
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static _FORCE_INLINE_ Vector3 convert_to(const M_Vector3 &p_from) {
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return Vector3(p_from.x, p_from.y, p_from.z);
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}
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static _FORCE_INLINE_ M_Vector3 convert_from(const Vector3 &p_from) {
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M_Vector3 ret = { p_from.x, p_from.y, p_from.z };
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return ret;
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}
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|
};
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|
|
|
struct M_Vector3i {
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|
int32_t x, y, z;
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|
|
|
static _FORCE_INLINE_ Vector3i convert_to(const M_Vector3i &p_from) {
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|
return Vector3i(p_from.x, p_from.y, p_from.z);
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_Vector3i convert_from(const Vector3i &p_from) {
|
|
M_Vector3i ret = { p_from.x, p_from.y, p_from.z };
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
struct M_Basis {
|
|
M_Vector3 elements[3];
|
|
|
|
static _FORCE_INLINE_ Basis convert_to(const M_Basis &p_from) {
|
|
return Basis(M_Vector3::convert_to(p_from.elements[0]),
|
|
M_Vector3::convert_to(p_from.elements[1]),
|
|
M_Vector3::convert_to(p_from.elements[2]));
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_Basis convert_from(const Basis &p_from) {
|
|
M_Basis ret = {
|
|
M_Vector3::convert_from(p_from.elements[0]),
|
|
M_Vector3::convert_from(p_from.elements[1]),
|
|
M_Vector3::convert_from(p_from.elements[2])
|
|
};
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
struct M_Quaternion {
|
|
real_t x, y, z, w;
|
|
|
|
static _FORCE_INLINE_ Quaternion convert_to(const M_Quaternion &p_from) {
|
|
return Quaternion(p_from.x, p_from.y, p_from.z, p_from.w);
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_Quaternion convert_from(const Quaternion &p_from) {
|
|
M_Quaternion ret = { p_from.x, p_from.y, p_from.z, p_from.w };
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
struct M_Transform3D {
|
|
M_Basis basis;
|
|
M_Vector3 origin;
|
|
|
|
static _FORCE_INLINE_ Transform3D convert_to(const M_Transform3D &p_from) {
|
|
return Transform3D(M_Basis::convert_to(p_from.basis), M_Vector3::convert_to(p_from.origin));
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_Transform3D convert_from(const Transform3D &p_from) {
|
|
M_Transform3D ret = { M_Basis::convert_from(p_from.basis), M_Vector3::convert_from(p_from.origin) };
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
struct M_AABB {
|
|
M_Vector3 position;
|
|
M_Vector3 size;
|
|
|
|
static _FORCE_INLINE_ AABB convert_to(const M_AABB &p_from) {
|
|
return AABB(M_Vector3::convert_to(p_from.position), M_Vector3::convert_to(p_from.size));
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_AABB convert_from(const AABB &p_from) {
|
|
M_AABB ret = { M_Vector3::convert_from(p_from.position), M_Vector3::convert_from(p_from.size) };
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
struct M_Color {
|
|
float r, g, b, a;
|
|
|
|
static _FORCE_INLINE_ Color convert_to(const M_Color &p_from) {
|
|
return Color(p_from.r, p_from.g, p_from.b, p_from.a);
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_Color convert_from(const Color &p_from) {
|
|
M_Color ret = { p_from.r, p_from.g, p_from.b, p_from.a };
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
struct M_Plane {
|
|
M_Vector3 normal;
|
|
real_t d;
|
|
|
|
static _FORCE_INLINE_ Plane convert_to(const M_Plane &p_from) {
|
|
return Plane(M_Vector3::convert_to(p_from.normal), p_from.d);
|
|
}
|
|
|
|
static _FORCE_INLINE_ M_Plane convert_from(const Plane &p_from) {
|
|
M_Plane ret = { M_Vector3::convert_from(p_from.normal), p_from.d };
|
|
return ret;
|
|
}
|
|
};
|
|
|
|
#pragma pack(pop)
|
|
|
|
#define DECL_TYPE_MARSHAL_TEMPLATES(m_type) \
|
|
template <int> \
|
|
_FORCE_INLINE_ m_type marshalled_in_##m_type##_impl(const M_##m_type *p_from); \
|
|
\
|
|
template <> \
|
|
_FORCE_INLINE_ m_type marshalled_in_##m_type##_impl<0>(const M_##m_type *p_from) { \
|
|
return M_##m_type::convert_to(*p_from); \
|
|
} \
|
|
\
|
|
template <> \
|
|
_FORCE_INLINE_ m_type marshalled_in_##m_type##_impl<1>(const M_##m_type *p_from) { \
|
|
return *reinterpret_cast<const m_type *>(p_from); \
|
|
} \
|
|
\
|
|
_FORCE_INLINE_ m_type marshalled_in_##m_type(const M_##m_type *p_from) { \
|
|
return marshalled_in_##m_type##_impl<InteropLayout::MATCHES_##m_type>(p_from); \
|
|
} \
|
|
\
|
|
template <int> \
|
|
_FORCE_INLINE_ M_##m_type marshalled_out_##m_type##_impl(const m_type &p_from); \
|
|
\
|
|
template <> \
|
|
_FORCE_INLINE_ M_##m_type marshalled_out_##m_type##_impl<0>(const m_type &p_from) { \
|
|
return M_##m_type::convert_from(p_from); \
|
|
} \
|
|
\
|
|
template <> \
|
|
_FORCE_INLINE_ M_##m_type marshalled_out_##m_type##_impl<1>(const m_type &p_from) { \
|
|
return *reinterpret_cast<const M_##m_type *>(&p_from); \
|
|
} \
|
|
\
|
|
_FORCE_INLINE_ M_##m_type marshalled_out_##m_type(const m_type &p_from) { \
|
|
return marshalled_out_##m_type##_impl<InteropLayout::MATCHES_##m_type>(p_from); \
|
|
}
|
|
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Vector2)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Vector2i)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Rect2)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Rect2i)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Transform2D)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Vector3)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Vector3i)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Basis)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Quaternion)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Transform3D)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(AABB)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Color)
|
|
DECL_TYPE_MARSHAL_TEMPLATES(Plane)
|
|
|
|
#define MARSHALLED_IN(m_type, m_from_ptr) (GDMonoMarshal::marshalled_in_##m_type(m_from_ptr))
|
|
#define MARSHALLED_OUT(m_type, m_from) (GDMonoMarshal::marshalled_out_##m_type(m_from))
|
|
} // namespace GDMonoMarshal
|
|
|
|
#endif // GDMONOMARSHAL_H
|