pandemonium_engine/modules/gdnative/gdnative/pool_arrays.cpp

/**************************************************************************/
/*  pool_arrays.cpp                                                       */
/**************************************************************************/
/*                         This file is part of:                          */
/*                             PANDEMONIUM ENGINE                               */
/*                        https://pandemoniumengine.org                         */
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/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur.                  */
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#include "gdn/pool_arrays.h"

#include "core/containers/pool_vector.h"
#include "core/variant/array.h"
#include "core/variant/variant.h"

#include "core/math/color.h"
#include "core/math/vector2.h"
#include "core/math/vector2i.h"
#include "core/math/vector3.h"
#include "core/math/vector3i.h"
#include "core/math/vector4.h"
#include "core/math/vector4i.h"

#ifdef __cplusplus
extern "C" {
#endif

static_assert(sizeof(pandemonium_pool_byte_array) == sizeof(PoolVector<uint8_t>), "PoolVector<uint8_t> size mismatch");
static_assert(sizeof(pandemonium_pool_int_array) == sizeof(PoolVector<pandemonium_int>), "PoolVector<pandemonium_int> size mismatch");
static_assert(sizeof(pandemonium_pool_real_array) == sizeof(PoolVector<pandemonium_real>), "PoolVector<pandemonium_real> size mismatch");
static_assert(sizeof(pandemonium_pool_string_array) == sizeof(PoolVector<String>), "PoolVector<String> size mismatch");
static_assert(sizeof(pandemonium_pool_vector2_array) == sizeof(PoolVector<Vector2>), "PoolVector<Vector2> size mismatch");
static_assert(sizeof(pandemonium_pool_vector2i_array) == sizeof(PoolVector<Vector2i>), "PoolVector<Vector2i> size mismatch");
static_assert(sizeof(pandemonium_pool_vector3_array) == sizeof(PoolVector<Vector3>), "PoolVector<Vector3> size mismatch");
static_assert(sizeof(pandemonium_pool_vector3i_array) == sizeof(PoolVector<Vector3i>), "PoolVector<Vector3i> size mismatch");
static_assert(sizeof(pandemonium_pool_vector4_array) == sizeof(PoolVector<Vector4>), "PoolVector<Vector4> size mismatch");
static_assert(sizeof(pandemonium_pool_vector4i_array) == sizeof(PoolVector<Vector4i>), "PoolVector<Vector4i> size mismatch");
static_assert(sizeof(pandemonium_pool_color_array) == sizeof(PoolVector<Color>), "PoolVector<Color> size mismatch");

#define memnew_placement_custom(m_placement, m_class, m_constr) _post_initialize(new (m_placement, sizeof(m_class), "") m_constr)

// byte

pandemonium_pool_byte_array_read_access GDAPI *pandemonium_pool_byte_array_read(const pandemonium_pool_byte_array *p_self) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return (pandemonium_pool_byte_array_read_access *)memnew(PoolVector<uint8_t>::Read(self->read()));
}

pandemonium_pool_byte_array_write_access GDAPI *pandemonium_pool_byte_array_write(pandemonium_pool_byte_array *p_self) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	return (pandemonium_pool_byte_array_write_access *)memnew(PoolVector<uint8_t>::Write(self->write()));
}

void GDAPI pandemonium_pool_byte_array_remove(pandemonium_pool_byte_array *p_self, const pandemonium_int p_idx) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_byte_array_size(const pandemonium_pool_byte_array *p_self) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_byte_array_empty(const pandemonium_pool_byte_array *p_self) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_byte_array_set(pandemonium_pool_byte_array *p_self, const pandemonium_int p_idx, const uint8_t p_data) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->set(p_idx, p_data);
}

uint8_t GDAPI pandemonium_pool_byte_array_get(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->get(p_idx);
}

void GDAPI pandemonium_pool_byte_array_fill(pandemonium_pool_byte_array *p_self, const pandemonium_int p_val) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->fill(p_val);
}

void GDAPI pandemonium_pool_byte_array_push_back(pandemonium_pool_byte_array *p_self, const uint8_t p_data) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->push_back(p_data);
}

void GDAPI pandemonium_pool_byte_array_append(pandemonium_pool_byte_array *p_self, const uint8_t p_data) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->append(p_data);
}

void GDAPI pandemonium_pool_byte_array_append_array(pandemonium_pool_byte_array *p_self, const pandemonium_pool_byte_array *p_array) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	PoolVector<uint8_t> *array = (PoolVector<uint8_t> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_byte_array GDAPI pandemonium_pool_byte_array_subarray(const pandemonium_pool_byte_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_byte_array dest;
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	memnew_placement(&dest, PoolVector<uint8_t>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_byte_array_insert(pandemonium_pool_byte_array *p_self, const pandemonium_int p_idx, const uint8_t p_data) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	return (pandemonium_error)self->insert(p_idx, p_data);
}

pandemonium_bool GDAPI pandemonium_pool_byte_array_contains(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_val) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->contains(p_val);
}
pandemonium_int GDAPI pandemonium_pool_byte_array_find(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_val) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->find(p_val);
}
pandemonium_int GDAPI pandemonium_pool_byte_array_find_from(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_val, pandemonium_int p_from) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->find(p_val, p_from);
}
pandemonium_int GDAPI pandemonium_pool_byte_array_rfind(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_val) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->rfind(p_val);
}
pandemonium_int GDAPI pandemonium_pool_byte_array_rfind_from(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_val, pandemonium_int p_from) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->rfind(p_val, p_from);
}
pandemonium_int GDAPI pandemonium_pool_byte_array_count(const pandemonium_pool_byte_array *p_self, const pandemonium_int p_val) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->count(p_val);
}

pandemonium_bool GDAPI pandemonium_pool_byte_array_has(const pandemonium_pool_byte_array *p_self, const uint8_t p_data) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->has(p_data);
}

pandemonium_bool GDAPI pandemonium_pool_byte_array_is_locked(const pandemonium_pool_byte_array *p_self) {
	const PoolVector<uint8_t> *self = (const PoolVector<uint8_t> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_byte_array_resize(pandemonium_pool_byte_array *p_self, const pandemonium_int p_size) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_byte_array_clear(pandemonium_pool_byte_array *p_self) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_byte_array_invert(pandemonium_pool_byte_array *p_self) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_byte_array_sort(pandemonium_pool_byte_array *p_self) {
	PoolVector<uint8_t> *self = (PoolVector<uint8_t> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_byte_array_new(pandemonium_pool_byte_array *r_dest) {
	PoolVector<uint8_t> *dest = (PoolVector<uint8_t> *)r_dest;
	memnew_placement(dest, PoolVector<uint8_t>);
}

void GDAPI pandemonium_pool_byte_array_new_copy(pandemonium_pool_byte_array *r_dest, const pandemonium_pool_byte_array *p_src) {
	PoolVector<uint8_t> *dest = (PoolVector<uint8_t> *)r_dest;
	const PoolVector<uint8_t> *src = (const PoolVector<uint8_t> *)p_src;
	memnew_placement(dest, PoolVector<uint8_t>(*src));
}

void GDAPI pandemonium_pool_byte_array_new_with_array(pandemonium_pool_byte_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<uint8_t> *dest = (PoolVector<uint8_t> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<uint8_t>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_byte_array_destroy(pandemonium_pool_byte_array *p_self) {
	((PoolVector<uint8_t> *)p_self)->~PoolVector();
}

// int

pandemonium_pool_int_array_read_access GDAPI *pandemonium_pool_int_array_read(const pandemonium_pool_int_array *p_self) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return (pandemonium_pool_int_array_read_access *)memnew(PoolVector<pandemonium_int>::Read(self->read()));
}

pandemonium_pool_int_array_write_access GDAPI *pandemonium_pool_int_array_write(pandemonium_pool_int_array *p_self) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	return (pandemonium_pool_int_array_write_access *)memnew(PoolVector<pandemonium_int>::Write(self->write()));
}

void GDAPI pandemonium_pool_int_array_remove(pandemonium_pool_int_array *p_self, const pandemonium_int p_idx) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_int_array_size(const pandemonium_pool_int_array *p_self) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_int_array_empty(const pandemonium_pool_int_array *p_self) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_int_array_set(pandemonium_pool_int_array *p_self, const pandemonium_int p_idx, const pandemonium_int p_data) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->set(p_idx, p_data);
}

pandemonium_int GDAPI pandemonium_pool_int_array_get(const pandemonium_pool_int_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->get(p_idx);
}

void GDAPI pandemonium_pool_int_array_fill(pandemonium_pool_int_array *p_self, const pandemonium_int p_val) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->fill(p_val);
}

void GDAPI pandemonium_pool_int_array_push_back(pandemonium_pool_int_array *p_self, const pandemonium_int p_data) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->push_back(p_data);
}

void GDAPI pandemonium_pool_int_array_append(pandemonium_pool_int_array *p_self, const pandemonium_int p_data) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->append(p_data);
}

void GDAPI pandemonium_pool_int_array_append_array(pandemonium_pool_int_array *p_self, const pandemonium_pool_int_array *p_array) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	PoolVector<pandemonium_int> *array = (PoolVector<pandemonium_int> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_int_array GDAPI pandemonium_pool_int_array_subarray(const pandemonium_pool_int_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_int_array dest;
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_int>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_int_array_insert(pandemonium_pool_int_array *p_self, const pandemonium_int p_idx, const pandemonium_int p_data) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	return (pandemonium_error)self->insert(p_idx, p_data);
}

pandemonium_bool GDAPI pandemonium_pool_int_array_contains(const pandemonium_pool_int_array *p_self, const pandemonium_int p_val) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->contains(p_val);
}
pandemonium_int GDAPI pandemonium_pool_int_array_find(const pandemonium_pool_int_array *p_self, const pandemonium_int p_val) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->find(p_val);
}
pandemonium_int GDAPI pandemonium_pool_int_array_find_from(const pandemonium_pool_int_array *p_self, const pandemonium_int p_val, pandemonium_int p_from) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->find(p_val, p_from);
}
pandemonium_int GDAPI pandemonium_pool_int_array_rfind(const pandemonium_pool_int_array *p_self, const pandemonium_int p_val) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->rfind(p_val);
}
pandemonium_int GDAPI pandemonium_pool_int_array_rfind_from(const pandemonium_pool_int_array *p_self, const pandemonium_int p_val, pandemonium_int p_from) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->rfind(p_val, p_from);
}
pandemonium_int GDAPI pandemonium_pool_int_array_count(const pandemonium_pool_int_array *p_self, const pandemonium_int p_val) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->count(p_val);
}

pandemonium_bool GDAPI pandemonium_pool_int_array_has(const pandemonium_pool_int_array *p_self, const pandemonium_int p_data) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->has(p_data);
}

pandemonium_bool GDAPI pandemonium_pool_int_array_is_locked(const pandemonium_pool_int_array *p_self) {
	const PoolVector<pandemonium_int> *self = (const PoolVector<pandemonium_int> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_int_array_resize(pandemonium_pool_int_array *p_self, const pandemonium_int p_size) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_int_array_clear(pandemonium_pool_int_array *p_self) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_int_array_invert(pandemonium_pool_int_array *p_self) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_int_array_sort(pandemonium_pool_int_array *p_self) {
	PoolVector<pandemonium_int> *self = (PoolVector<pandemonium_int> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_int_array_new(pandemonium_pool_int_array *r_dest) {
	PoolVector<pandemonium_int> *dest = (PoolVector<pandemonium_int> *)r_dest;
	memnew_placement(dest, PoolVector<pandemonium_int>);
}

void GDAPI pandemonium_pool_int_array_new_copy(pandemonium_pool_int_array *r_dest, const pandemonium_pool_int_array *p_src) {
	PoolVector<pandemonium_int> *dest = (PoolVector<pandemonium_int> *)r_dest;
	const PoolVector<pandemonium_int> *src = (const PoolVector<pandemonium_int> *)p_src;
	memnew_placement(dest, PoolVector<pandemonium_int>(*src));
}

void GDAPI pandemonium_pool_int_array_new_with_array(pandemonium_pool_int_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<pandemonium_int> *dest = (PoolVector<pandemonium_int> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<pandemonium_int>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_int_array_destroy(pandemonium_pool_int_array *p_self) {
	((PoolVector<pandemonium_int> *)p_self)->~PoolVector();
}

// real

pandemonium_pool_real_array_read_access GDAPI *pandemonium_pool_real_array_read(const pandemonium_pool_real_array *p_self) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return (pandemonium_pool_real_array_read_access *)memnew(PoolVector<pandemonium_real>::Read(self->read()));
}

pandemonium_pool_real_array_write_access GDAPI *pandemonium_pool_real_array_write(pandemonium_pool_real_array *p_self) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	return (pandemonium_pool_real_array_write_access *)memnew(PoolVector<pandemonium_real>::Write(self->write()));
}

void GDAPI pandemonium_pool_real_array_remove(pandemonium_pool_real_array *p_self, const pandemonium_int p_idx) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_real_array_size(const pandemonium_pool_real_array *p_self) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_real_array_empty(const pandemonium_pool_real_array *p_self) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_real_array_set(pandemonium_pool_real_array *p_self, const pandemonium_int p_idx, const pandemonium_real p_data) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->set(p_idx, p_data);
}

pandemonium_real GDAPI pandemonium_pool_real_array_get(const pandemonium_pool_real_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->get(p_idx);
}

void GDAPI pandemonium_pool_real_array_fill(pandemonium_pool_real_array *p_self, const pandemonium_real p_val) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->fill(p_val);
}

void GDAPI pandemonium_pool_real_array_push_back(pandemonium_pool_real_array *p_self, const pandemonium_real p_data) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->push_back(p_data);
}

void GDAPI pandemonium_pool_real_array_append(pandemonium_pool_real_array *p_self, const pandemonium_real p_data) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->append(p_data);
}

void GDAPI pandemonium_pool_real_array_append_array(pandemonium_pool_real_array *p_self, const pandemonium_pool_real_array *p_array) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	PoolVector<pandemonium_real> *array = (PoolVector<pandemonium_real> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_real_array GDAPI pandemonium_pool_real_array_subarray(const pandemonium_pool_real_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_real_array dest;
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_real>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_real_array_insert(pandemonium_pool_real_array *p_self, const pandemonium_int p_idx, const pandemonium_real p_data) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	return (pandemonium_error)self->insert(p_idx, p_data);
}

pandemonium_bool GDAPI pandemonium_pool_real_array_contains(const pandemonium_pool_real_array *p_self, const pandemonium_real p_val) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->contains(p_val);
}
pandemonium_int GDAPI pandemonium_pool_real_array_find(const pandemonium_pool_real_array *p_self, const pandemonium_real p_val) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->find(p_val);
}
pandemonium_int GDAPI pandemonium_pool_real_array_find_from(const pandemonium_pool_real_array *p_self, const pandemonium_real p_val, pandemonium_int p_from) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->find(p_val, p_from);
}
pandemonium_int GDAPI pandemonium_pool_real_array_rfind(const pandemonium_pool_real_array *p_self, const pandemonium_real p_val) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->rfind(p_val);
}
pandemonium_int GDAPI pandemonium_pool_real_array_rfind_from(const pandemonium_pool_real_array *p_self, const pandemonium_real p_val, pandemonium_int p_from) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->rfind(p_val, p_from);
}
pandemonium_int GDAPI pandemonium_pool_real_array_count(const pandemonium_pool_real_array *p_self, const pandemonium_real p_val) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->count(p_val);
}

pandemonium_bool GDAPI pandemonium_pool_real_array_has(const pandemonium_pool_real_array *p_self, const pandemonium_real p_data) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->has(p_data);
}

pandemonium_bool GDAPI pandemonium_pool_real_array_is_locked(const pandemonium_pool_real_array *p_self) {
	const PoolVector<pandemonium_real> *self = (const PoolVector<pandemonium_real> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_real_array_resize(pandemonium_pool_real_array *p_self, const pandemonium_int p_size) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_real_array_clear(pandemonium_pool_real_array *p_self) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_real_array_invert(pandemonium_pool_real_array *p_self) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_real_array_sort(pandemonium_pool_real_array *p_self) {
	PoolVector<pandemonium_real> *self = (PoolVector<pandemonium_real> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_real_array_new(pandemonium_pool_real_array *r_dest) {
	PoolVector<pandemonium_real> *dest = (PoolVector<pandemonium_real> *)r_dest;
	memnew_placement(dest, PoolVector<pandemonium_real>);
}

void GDAPI pandemonium_pool_real_array_new_copy(pandemonium_pool_real_array *r_dest, const pandemonium_pool_real_array *p_src) {
	PoolVector<pandemonium_real> *dest = (PoolVector<pandemonium_real> *)r_dest;
	const PoolVector<pandemonium_real> *src = (const PoolVector<pandemonium_real> *)p_src;
	memnew_placement(dest, PoolVector<pandemonium_real>(*src));
}

void GDAPI pandemonium_pool_real_array_new_with_array(pandemonium_pool_real_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<pandemonium_real> *dest = (PoolVector<pandemonium_real> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<pandemonium_real>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_real_array_destroy(pandemonium_pool_real_array *p_self) {
	((PoolVector<pandemonium_real> *)p_self)->~PoolVector();
}

// String

pandemonium_pool_string_array_read_access GDAPI *pandemonium_pool_string_array_read(const pandemonium_pool_string_array *p_self) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	return (pandemonium_pool_string_array_read_access *)memnew(PoolVector<String>::Read(self->read()));
}

pandemonium_pool_string_array_write_access GDAPI *pandemonium_pool_string_array_write(pandemonium_pool_string_array *p_self) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	return (pandemonium_pool_string_array_write_access *)memnew(PoolVector<String>::Write(self->write()));
}

void GDAPI pandemonium_pool_string_array_remove(pandemonium_pool_string_array *p_self, const pandemonium_int p_idx) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_string_array_size(const pandemonium_pool_string_array *p_self) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_string_array_empty(const pandemonium_pool_string_array *p_self) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_string_array_set(pandemonium_pool_string_array *p_self, const pandemonium_int p_idx, const pandemonium_string *p_data) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	String &s = *(String *)p_data;
	self->set(p_idx, s);
}

pandemonium_string GDAPI pandemonium_pool_string_array_get(const pandemonium_pool_string_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	pandemonium_string str;
	String *s = (String *)&str;
	memnew_placement(s, String);
	*s = self->get(p_idx);
	return str;
}

void GDAPI pandemonium_pool_string_array_fill(pandemonium_pool_string_array *p_self, const pandemonium_string *p_val) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_string_array_push_back(pandemonium_pool_string_array *p_self, const pandemonium_string *p_data) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	String &s = *(String *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_string_array_append(pandemonium_pool_string_array *p_self, const pandemonium_string *p_data) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	String &s = *(String *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_string_array_append_array(pandemonium_pool_string_array *p_self, const pandemonium_pool_string_array *p_array) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	PoolVector<String> *array = (PoolVector<String> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_string_array GDAPI pandemonium_pool_string_array_subarray(const pandemonium_pool_string_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_string_array dest;
	const PoolVector<pandemonium_string> *self = (const PoolVector<pandemonium_string> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_string>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_string_array_insert(pandemonium_pool_string_array *p_self, const pandemonium_int p_idx, const pandemonium_string *p_data) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	String &s = *(String *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_string GDAPI pandemonium_pool_string_array_join(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_delimiter) {
	const PoolVector<String> *self = (PoolVector<String> *)p_self;
	String &delimiter = *(String *)p_delimiter;

	pandemonium_string str;
	String *s = (String *)&str;
	memnew_placement(s, String);
	*s = self->join(delimiter);
	return str;
}

pandemonium_bool GDAPI pandemonium_pool_string_array_contains(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_val) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_string_array_find(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_val) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_string_array_find_from(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_val, pandemonium_int p_from) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_string_array_rfind(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_val) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_string_array_rfind_from(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_val, pandemonium_int p_from) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_string_array_count(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_val) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_string_array_has(const pandemonium_pool_string_array *p_self, const pandemonium_string *p_data) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	String &s = *(String *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_string_array_is_locked(const pandemonium_pool_string_array *p_self) {
	const PoolVector<String> *self = (const PoolVector<String> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_string_array_resize(pandemonium_pool_string_array *p_self, const pandemonium_int p_size) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_string_array_clear(pandemonium_pool_string_array *p_self) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_string_array_invert(pandemonium_pool_string_array *p_self) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_string_array_sort(pandemonium_pool_string_array *p_self) {
	PoolVector<String> *self = (PoolVector<String> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_string_array_new(pandemonium_pool_string_array *r_dest) {
	PoolVector<String> *dest = (PoolVector<String> *)r_dest;
	memnew_placement(dest, PoolVector<String>);
}

void GDAPI pandemonium_pool_string_array_new_copy(pandemonium_pool_string_array *r_dest, const pandemonium_pool_string_array *p_src) {
	PoolVector<String> *dest = (PoolVector<String> *)r_dest;
	const PoolVector<String> *src = (const PoolVector<String> *)p_src;
	memnew_placement(dest, PoolVector<String>(*src));
}

void GDAPI pandemonium_pool_string_array_new_with_array(pandemonium_pool_string_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<String> *dest = (PoolVector<String> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<String>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_string_array_destroy(pandemonium_pool_string_array *p_self) {
	((PoolVector<String> *)p_self)->~PoolVector();
}

// vector2

pandemonium_pool_vector2_array_read_access GDAPI *pandemonium_pool_vector2_array_read(const pandemonium_pool_vector2_array *p_self) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	return (pandemonium_pool_vector2_array_read_access *)memnew(PoolVector<Vector2>::Read(self->read()));
}

pandemonium_pool_vector2_array_write_access GDAPI *pandemonium_pool_vector2_array_write(pandemonium_pool_vector2_array *p_self) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	return (pandemonium_pool_vector2_array_write_access *)memnew(PoolVector<Vector2>::Write(self->write()));
}

void GDAPI pandemonium_pool_vector2_array_remove(pandemonium_pool_vector2_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_vector2_array_size(const pandemonium_pool_vector2_array *p_self) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_vector2_array_empty(const pandemonium_pool_vector2_array *p_self) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_vector2_array_set(pandemonium_pool_vector2_array *p_self, const pandemonium_int p_idx, const pandemonium_vector2 *p_data) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_data;
	self->set(p_idx, s);
}

pandemonium_vector2 GDAPI pandemonium_pool_vector2_array_get(const pandemonium_pool_vector2_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	pandemonium_vector2 v;
	Vector2 *s = (Vector2 *)&v;
	*s = self->get(p_idx);
	return v;
}

void GDAPI pandemonium_pool_vector2_array_fill(pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_vector2_array_push_back(pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_data) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_vector2_array_append(pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_data) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_vector2_array_append_array(pandemonium_pool_vector2_array *p_self, const pandemonium_pool_vector2_array *p_array) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	PoolVector<Vector2> *array = (PoolVector<Vector2> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_vector2_array GDAPI pandemonium_pool_vector2_array_subarray(const pandemonium_pool_vector2_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_vector2_array dest;
	const PoolVector<pandemonium_vector2> *self = (const PoolVector<pandemonium_vector2> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_vector2>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_vector2_array_insert(pandemonium_pool_vector2_array *p_self, const pandemonium_int p_idx, const pandemonium_vector2 *p_data) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_bool GDAPI pandemonium_pool_vector2_array_contains(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_vector2_array_find(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_vector2_array_find_from(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val, pandemonium_int p_from) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector2_array_rfind(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_vector2_array_rfind_from(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val, pandemonium_int p_from) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector2_array_count(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_val) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector2_array_has(const pandemonium_pool_vector2_array *p_self, const pandemonium_vector2 *p_data) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	Vector2 &s = *(Vector2 *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector2_array_is_locked(const pandemonium_pool_vector2_array *p_self) {
	const PoolVector<Vector2> *self = (const PoolVector<Vector2> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_vector2_array_resize(pandemonium_pool_vector2_array *p_self, const pandemonium_int p_size) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_vector2_array_clear(pandemonium_pool_vector2_array *p_self) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_vector2_array_invert(pandemonium_pool_vector2_array *p_self) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_vector2_array_sort(pandemonium_pool_vector2_array *p_self) {
	PoolVector<Vector2> *self = (PoolVector<Vector2> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_vector2_array_new(pandemonium_pool_vector2_array *r_dest) {
	PoolVector<Vector2> *dest = (PoolVector<Vector2> *)r_dest;
	memnew_placement(dest, PoolVector<Vector2>);
}

void GDAPI pandemonium_pool_vector2_array_new_copy(pandemonium_pool_vector2_array *r_dest, const pandemonium_pool_vector2_array *p_src) {
	PoolVector<Vector2> *dest = (PoolVector<Vector2> *)r_dest;
	const PoolVector<Vector2> *src = (const PoolVector<Vector2> *)p_src;
	memnew_placement(dest, PoolVector<Vector2>(*src));
}

void GDAPI pandemonium_pool_vector2_array_new_with_array(pandemonium_pool_vector2_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Vector2> *dest = (PoolVector<Vector2> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Vector2>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_vector2_array_destroy(pandemonium_pool_vector2_array *p_self) {
	((PoolVector<Vector2> *)p_self)->~PoolVector();
}

// Vector2i

pandemonium_pool_vector2i_array_read_access GDAPI *pandemonium_pool_vector2i_array_read(const pandemonium_pool_vector2i_array *p_self) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	return (pandemonium_pool_vector2i_array_read_access *)memnew(PoolVector<Vector2i>::Read(self->read()));
}

pandemonium_pool_vector2i_array_write_access GDAPI *pandemonium_pool_vector2i_array_write(pandemonium_pool_vector2i_array *p_self) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	return (pandemonium_pool_vector2i_array_write_access *)memnew(PoolVector<Vector2i>::Write(self->write()));
}

void GDAPI pandemonium_pool_vector2i_array_remove(pandemonium_pool_vector2i_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_vector2i_array_size(const pandemonium_pool_vector2i_array *p_self) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_vector2i_array_empty(const pandemonium_pool_vector2i_array *p_self) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_vector2i_array_set(pandemonium_pool_vector2i_array *p_self, const pandemonium_int p_idx, const pandemonium_vector2i *p_data) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_data;
	self->set(p_idx, s);
}

pandemonium_vector2i GDAPI pandemonium_pool_vector2i_array_get(const pandemonium_pool_vector2i_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	pandemonium_vector2i v;
	Vector2i *s = (Vector2i *)&v;
	*s = self->get(p_idx);
	return v;
}

void GDAPI pandemonium_pool_vector2i_array_fill(pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_vector2i_array_push_back(pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_data) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_vector2i_array_append(pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_data) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_vector2i_array_append_array(pandemonium_pool_vector2i_array *p_self, const pandemonium_pool_vector2i_array *p_array) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	PoolVector<Vector2i> *array = (PoolVector<Vector2i> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_vector2i_array GDAPI pandemonium_pool_vector2i_array_subarray(const pandemonium_pool_vector2i_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_vector2i_array dest;
	const PoolVector<pandemonium_vector2i> *self = (const PoolVector<pandemonium_vector2i> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_vector2i>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_vector2i_array_insert(pandemonium_pool_vector2i_array *p_self, const pandemonium_int p_idx, const pandemonium_vector2i *p_data) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_bool GDAPI pandemonium_pool_vector2i_array_contains(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_vector2i_array_find(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_vector2i_array_find_from(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val, pandemonium_int p_from) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector2i_array_rfind(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_vector2i_array_rfind_from(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val, pandemonium_int p_from) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector2i_array_count(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_val) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector2i_array_has(const pandemonium_pool_vector2i_array *p_self, const pandemonium_vector2i *p_data) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	Vector2i &s = *(Vector2i *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector2i_array_is_locked(const pandemonium_pool_vector2i_array *p_self) {
	const PoolVector<Vector2i> *self = (const PoolVector<Vector2i> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_vector2i_array_resize(pandemonium_pool_vector2i_array *p_self, const pandemonium_int p_size) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_vector2i_array_clear(pandemonium_pool_vector2i_array *p_self) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_vector2i_array_invert(pandemonium_pool_vector2i_array *p_self) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_vector2i_array_sort(pandemonium_pool_vector2i_array *p_self) {
	PoolVector<Vector2i> *self = (PoolVector<Vector2i> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_vector2i_array_new(pandemonium_pool_vector2i_array *r_dest) {
	PoolVector<Vector2i> *dest = (PoolVector<Vector2i> *)r_dest;
	memnew_placement(dest, PoolVector<Vector2i>);
}

void GDAPI pandemonium_pool_vector2i_array_new_copy(pandemonium_pool_vector2i_array *r_dest, const pandemonium_pool_vector2i_array *p_src) {
	PoolVector<Vector2i> *dest = (PoolVector<Vector2i> *)r_dest;
	const PoolVector<Vector2i> *src = (const PoolVector<Vector2i> *)p_src;
	memnew_placement(dest, PoolVector<Vector2i>(*src));
}

void GDAPI pandemonium_pool_vector2i_array_new_with_array(pandemonium_pool_vector2i_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Vector2i> *dest = (PoolVector<Vector2i> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Vector2i>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_vector2i_array_destroy(pandemonium_pool_vector2i_array *p_self) {
	((PoolVector<Vector2i> *)p_self)->~PoolVector();
}

// vector3

pandemonium_pool_vector3_array_read_access GDAPI *pandemonium_pool_vector3_array_read(const pandemonium_pool_vector3_array *p_self) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	return (pandemonium_pool_vector3_array_read_access *)memnew(PoolVector<Vector3>::Read(self->read()));
}

pandemonium_pool_vector3_array_write_access GDAPI *pandemonium_pool_vector3_array_write(pandemonium_pool_vector3_array *p_self) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	return (pandemonium_pool_vector3_array_write_access *)memnew(PoolVector<Vector3>::Write(self->write()));
}

void GDAPI pandemonium_pool_vector3_array_remove(pandemonium_pool_vector3_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_vector3_array_size(const pandemonium_pool_vector3_array *p_self) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_vector3_array_empty(const pandemonium_pool_vector3_array *p_self) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_vector3_array_set(pandemonium_pool_vector3_array *p_self, const pandemonium_int p_idx, const pandemonium_vector3 *p_data) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_data;
	self->set(p_idx, s);
}

pandemonium_vector3 GDAPI pandemonium_pool_vector3_array_get(const pandemonium_pool_vector3_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	pandemonium_vector3 v;
	Vector3 *s = (Vector3 *)&v;
	*s = self->get(p_idx);
	return v;
}

void GDAPI pandemonium_pool_vector3_array_fill(pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_vector3_array_push_back(pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_data) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_vector3_array_append(pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_data) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_vector3_array_append_array(pandemonium_pool_vector3_array *p_self, const pandemonium_pool_vector3_array *p_array) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	PoolVector<Vector3> *array = (PoolVector<Vector3> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_vector3_array GDAPI pandemonium_pool_vector3_array_subarray(const pandemonium_pool_vector3_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_vector3_array dest;
	const PoolVector<pandemonium_vector3> *self = (const PoolVector<pandemonium_vector3> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_vector3>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_vector3_array_insert(pandemonium_pool_vector3_array *p_self, const pandemonium_int p_idx, const pandemonium_vector3 *p_data) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_bool GDAPI pandemonium_pool_vector3_array_contains(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_vector3_array_find(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_vector3_array_find_from(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val, pandemonium_int p_from) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector3_array_rfind(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_vector3_array_rfind_from(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val, pandemonium_int p_from) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector3_array_count(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_val) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector3_array_has(const pandemonium_pool_vector3_array *p_self, const pandemonium_vector3 *p_data) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	Vector3 &s = *(Vector3 *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector3_array_is_locked(const pandemonium_pool_vector3_array *p_self) {
	const PoolVector<Vector3> *self = (const PoolVector<Vector3> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_vector3_array_resize(pandemonium_pool_vector3_array *p_self, const pandemonium_int p_size) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_vector3_array_clear(pandemonium_pool_vector3_array *p_self) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_vector3_array_invert(pandemonium_pool_vector3_array *p_self) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_vector3_array_sort(pandemonium_pool_vector3_array *p_self) {
	PoolVector<Vector3> *self = (PoolVector<Vector3> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_vector3_array_new(pandemonium_pool_vector3_array *r_dest) {
	PoolVector<Vector3> *dest = (PoolVector<Vector3> *)r_dest;
	memnew_placement(dest, PoolVector<Vector3>);
}

void GDAPI pandemonium_pool_vector3_array_new_copy(pandemonium_pool_vector3_array *r_dest, const pandemonium_pool_vector3_array *p_src) {
	PoolVector<Vector3> *dest = (PoolVector<Vector3> *)r_dest;
	const PoolVector<Vector3> *src = (const PoolVector<Vector3> *)p_src;
	memnew_placement(dest, PoolVector<Vector3>(*src));
}

void GDAPI pandemonium_pool_vector3_array_new_with_array(pandemonium_pool_vector3_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Vector3> *dest = (PoolVector<Vector3> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Vector3>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_vector3_array_destroy(pandemonium_pool_vector3_array *p_self) {
	((PoolVector<Vector3> *)p_self)->~PoolVector();
}

// vector3i

pandemonium_pool_vector3i_array_read_access GDAPI *pandemonium_pool_vector3i_array_read(const pandemonium_pool_vector3i_array *p_self) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	return (pandemonium_pool_vector3i_array_read_access *)memnew(PoolVector<Vector3i>::Read(self->read()));
}

pandemonium_pool_vector3i_array_write_access GDAPI *pandemonium_pool_vector3i_array_write(pandemonium_pool_vector3i_array *p_self) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	return (pandemonium_pool_vector3i_array_write_access *)memnew(PoolVector<Vector3i>::Write(self->write()));
}

void GDAPI pandemonium_pool_vector3i_array_remove(pandemonium_pool_vector3i_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_vector3i_array_size(const pandemonium_pool_vector3i_array *p_self) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_vector3i_array_empty(const pandemonium_pool_vector3i_array *p_self) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_vector3i_array_set(pandemonium_pool_vector3i_array *p_self, const pandemonium_int p_idx, const pandemonium_vector3i *p_data) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_data;
	self->set(p_idx, s);
}

pandemonium_vector3i GDAPI pandemonium_pool_vector3i_array_get(const pandemonium_pool_vector3i_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	pandemonium_vector3i v;
	Vector3i *s = (Vector3i *)&v;
	*s = self->get(p_idx);
	return v;
}

void GDAPI pandemonium_pool_vector3i_array_fill(pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_vector3i_array_push_back(pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_data) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_vector3i_array_append(pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_data) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_vector3i_array_append_array(pandemonium_pool_vector3i_array *p_self, const pandemonium_pool_vector3i_array *p_array) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	PoolVector<Vector3i> *array = (PoolVector<Vector3i> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_vector3i_array GDAPI pandemonium_pool_vector3i_array_subarray(const pandemonium_pool_vector3i_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_vector3i_array dest;
	const PoolVector<pandemonium_vector3i> *self = (const PoolVector<pandemonium_vector3i> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_vector3i>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_vector3i_array_insert(pandemonium_pool_vector3i_array *p_self, const pandemonium_int p_idx, const pandemonium_vector3i *p_data) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_bool GDAPI pandemonium_pool_vector3i_array_contains(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_vector3i_array_find(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_vector3i_array_find_from(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val, pandemonium_int p_from) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector3i_array_rfind(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_vector3i_array_rfind_from(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val, pandemonium_int p_from) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector3i_array_count(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_val) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector3i_array_has(const pandemonium_pool_vector3i_array *p_self, const pandemonium_vector3i *p_data) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	Vector3i &s = *(Vector3i *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector3i_array_is_locked(const pandemonium_pool_vector3i_array *p_self) {
	const PoolVector<Vector3i> *self = (const PoolVector<Vector3i> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_vector3i_array_resize(pandemonium_pool_vector3i_array *p_self, const pandemonium_int p_size) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_vector3i_array_clear(pandemonium_pool_vector3i_array *p_self) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_vector3i_array_invert(pandemonium_pool_vector3i_array *p_self) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_vector3i_array_sort(pandemonium_pool_vector3i_array *p_self) {
	PoolVector<Vector3i> *self = (PoolVector<Vector3i> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_vector3i_array_new(pandemonium_pool_vector3i_array *r_dest) {
	PoolVector<Vector3i> *dest = (PoolVector<Vector3i> *)r_dest;
	memnew_placement(dest, PoolVector<Vector3i>);
}

void GDAPI pandemonium_pool_vector3i_array_new_copy(pandemonium_pool_vector3i_array *r_dest, const pandemonium_pool_vector3i_array *p_src) {
	PoolVector<Vector3i> *dest = (PoolVector<Vector3i> *)r_dest;
	const PoolVector<Vector3i> *src = (const PoolVector<Vector3i> *)p_src;
	memnew_placement(dest, PoolVector<Vector3i>(*src));
}

void GDAPI pandemonium_pool_vector3i_array_new_with_array(pandemonium_pool_vector3i_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Vector3i> *dest = (PoolVector<Vector3i> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Vector3i>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_vector3i_array_destroy(pandemonium_pool_vector3i_array *p_self) {
	((PoolVector<Vector3i> *)p_self)->~PoolVector();
}

//vector4

pandemonium_pool_vector4_array_read_access GDAPI *pandemonium_pool_vector4_array_read(const pandemonium_pool_vector4_array *p_self) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	return (pandemonium_pool_vector4_array_read_access *)memnew(PoolVector<Vector4>::Read(self->read()));
}

pandemonium_pool_vector4_array_write_access GDAPI *pandemonium_pool_vector4_array_write(pandemonium_pool_vector4_array *p_self) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	return (pandemonium_pool_vector4_array_write_access *)memnew(PoolVector<Vector4>::Write(self->write()));
}

void GDAPI pandemonium_pool_vector4_array_remove(pandemonium_pool_vector4_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_vector4_array_size(const pandemonium_pool_vector4_array *p_self) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_vector4_array_empty(const pandemonium_pool_vector4_array *p_self) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_vector4_array_set(pandemonium_pool_vector4_array *p_self, const pandemonium_int p_idx, const pandemonium_vector4 *p_data) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_data;
	self->set(p_idx, s);
}

pandemonium_vector4 GDAPI pandemonium_pool_vector4_array_get(const pandemonium_pool_vector4_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	pandemonium_vector4 v;
	Vector4 *s = (Vector4 *)&v;
	*s = self->get(p_idx);
	return v;
}

void GDAPI pandemonium_pool_vector4_array_fill(pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_vector4_array_push_back(pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_data) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_vector4_array_append(pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_data) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_vector4_array_append_array(pandemonium_pool_vector4_array *p_self, const pandemonium_pool_vector4_array *p_array) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	PoolVector<Vector4> *array = (PoolVector<Vector4> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_vector4_array GDAPI pandemonium_pool_vector4_array_subarray(const pandemonium_pool_vector4_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_vector4_array dest;
	const PoolVector<pandemonium_vector4> *self = (const PoolVector<pandemonium_vector4> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_vector4>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_vector4_array_insert(pandemonium_pool_vector4_array *p_self, const pandemonium_int p_idx, const pandemonium_vector4 *p_data) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_bool GDAPI pandemonium_pool_vector4_array_contains(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_vector4_array_find(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_vector4_array_find_from(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val, pandemonium_int p_from) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector4_array_rfind(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_vector4_array_rfind_from(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val, pandemonium_int p_from) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector4_array_count(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_val) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector4_array_has(const pandemonium_pool_vector4_array *p_self, const pandemonium_vector4 *p_data) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	Vector4 &s = *(Vector4 *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector4_array_is_locked(const pandemonium_pool_vector4_array *p_self) {
	const PoolVector<Vector4> *self = (const PoolVector<Vector4> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_vector4_array_resize(pandemonium_pool_vector4_array *p_self, const pandemonium_int p_size) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_vector4_array_clear(pandemonium_pool_vector4_array *p_self) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_vector4_array_invert(pandemonium_pool_vector4_array *p_self) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_vector4_array_sort(pandemonium_pool_vector4_array *p_self) {
	PoolVector<Vector4> *self = (PoolVector<Vector4> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_vector4_array_new(pandemonium_pool_vector4_array *r_dest) {
	PoolVector<Vector4> *dest = (PoolVector<Vector4> *)r_dest;
	memnew_placement(dest, PoolVector<Vector4>);
}

void GDAPI pandemonium_pool_vector4_array_new_copy(pandemonium_pool_vector4_array *r_dest, const pandemonium_pool_vector4_array *p_src) {
	PoolVector<Vector4> *dest = (PoolVector<Vector4> *)r_dest;
	const PoolVector<Vector4> *src = (const PoolVector<Vector4> *)p_src;
	memnew_placement(dest, PoolVector<Vector4>(*src));
}

void GDAPI pandemonium_pool_vector4_array_new_with_array(pandemonium_pool_vector4_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Vector4> *dest = (PoolVector<Vector4> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Vector4>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_vector4_array_destroy(pandemonium_pool_vector4_array *p_self) {
	((PoolVector<Vector4> *)p_self)->~PoolVector();
}

// vector4i

pandemonium_pool_vector4i_array_read_access GDAPI *pandemonium_pool_vector4i_array_read(const pandemonium_pool_vector4i_array *p_self) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	return (pandemonium_pool_vector4i_array_read_access *)memnew(PoolVector<Vector4i>::Read(self->read()));
}

pandemonium_pool_vector4i_array_write_access GDAPI *pandemonium_pool_vector4i_array_write(pandemonium_pool_vector4i_array *p_self) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	return (pandemonium_pool_vector4i_array_write_access *)memnew(PoolVector<Vector4i>::Write(self->write()));
}

void GDAPI pandemonium_pool_vector4i_array_remove(pandemonium_pool_vector4i_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	self->remove(p_idx);
}

pandemonium_int GDAPI pandemonium_pool_vector4i_array_size(const pandemonium_pool_vector4i_array *p_self) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_vector4i_array_empty(const pandemonium_pool_vector4i_array *p_self) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	return self->empty();
}

void GDAPI pandemonium_pool_vector4i_array_set(pandemonium_pool_vector4i_array *p_self, const pandemonium_int p_idx, const pandemonium_vector4i *p_data) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_data;
	self->set(p_idx, s);
}

pandemonium_vector4i GDAPI pandemonium_pool_vector4i_array_get(const pandemonium_pool_vector4i_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	pandemonium_vector4i v;
	Vector4i *s = (Vector4i *)&v;
	*s = self->get(p_idx);
	return v;
}

void GDAPI pandemonium_pool_vector4i_array_fill(pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	self->fill(s);
}

void GDAPI pandemonium_pool_vector4i_array_push_back(pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_data) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_vector4i_array_append(pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_data) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_vector4i_array_append_array(pandemonium_pool_vector4i_array *p_self, const pandemonium_pool_vector4i_array *p_array) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	PoolVector<Vector4i> *array = (PoolVector<Vector4i> *)p_array;
	self->append_array(*array);
}

pandemonium_pool_vector4i_array GDAPI pandemonium_pool_vector4i_array_subarray(const pandemonium_pool_vector4i_array *p_self, pandemonium_int p_from, pandemonium_int p_to) {
	pandemonium_pool_vector4i_array dest;
	const PoolVector<pandemonium_vector4i> *self = (const PoolVector<pandemonium_vector4i> *)p_self;
	memnew_placement(&dest, PoolVector<pandemonium_vector4i>(self->subarray(p_from, p_to)));
	return dest;
}

pandemonium_error GDAPI pandemonium_pool_vector4i_array_insert(pandemonium_pool_vector4i_array *p_self, const pandemonium_int p_idx, const pandemonium_vector4i *p_data) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

pandemonium_bool GDAPI pandemonium_pool_vector4i_array_contains(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	return self->contains(s);
}
pandemonium_int GDAPI pandemonium_pool_vector4i_array_find(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	return self->find(s);
}
pandemonium_int GDAPI pandemonium_pool_vector4i_array_find_from(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val, pandemonium_int p_from) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	return self->find(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector4i_array_rfind(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	return self->rfind(s);
}
pandemonium_int GDAPI pandemonium_pool_vector4i_array_rfind_from(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val, pandemonium_int p_from) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	return self->rfind(s, p_from);
}
pandemonium_int GDAPI pandemonium_pool_vector4i_array_count(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_val) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_val;
	return self->count(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector4i_array_has(const pandemonium_pool_vector4i_array *p_self, const pandemonium_vector4i *p_data) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	Vector4i &s = *(Vector4i *)p_data;
	return self->has(s);
}

pandemonium_bool GDAPI pandemonium_pool_vector4i_array_is_locked(const pandemonium_pool_vector4i_array *p_self) {
	const PoolVector<Vector4i> *self = (const PoolVector<Vector4i> *)p_self;
	return self->is_locked();
}

void GDAPI pandemonium_pool_vector4i_array_resize(pandemonium_pool_vector4i_array *p_self, const pandemonium_int p_size) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	self->resize(p_size);
}

pandemonium_int GDAPI pandemonium_pool_vector4i_array_clear(pandemonium_pool_vector4i_array *p_self) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	return self->clear();
}

void GDAPI pandemonium_pool_vector4i_array_invert(pandemonium_pool_vector4i_array *p_self) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_vector4i_array_sort(pandemonium_pool_vector4i_array *p_self) {
	PoolVector<Vector4i> *self = (PoolVector<Vector4i> *)p_self;
	self->sort();
}

void GDAPI pandemonium_pool_vector4i_array_new(pandemonium_pool_vector4i_array *r_dest) {
	PoolVector<Vector4i> *dest = (PoolVector<Vector4i> *)r_dest;
	memnew_placement(dest, PoolVector<Vector4i>);
}

void GDAPI pandemonium_pool_vector4i_array_new_copy(pandemonium_pool_vector4i_array *r_dest, const pandemonium_pool_vector4i_array *p_src) {
	PoolVector<Vector4i> *dest = (PoolVector<Vector4i> *)r_dest;
	const PoolVector<Vector4i> *src = (const PoolVector<Vector4i> *)p_src;
	memnew_placement(dest, PoolVector<Vector4i>(*src));
}

void GDAPI pandemonium_pool_vector4i_array_new_with_array(pandemonium_pool_vector4i_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Vector4i> *dest = (PoolVector<Vector4i> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Vector4i>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_vector4i_array_destroy(pandemonium_pool_vector4i_array *p_self) {
	((PoolVector<Vector4i> *)p_self)->~PoolVector();
}

// color

void GDAPI pandemonium_pool_color_array_new(pandemonium_pool_color_array *r_dest) {
	PoolVector<Color> *dest = (PoolVector<Color> *)r_dest;
	memnew_placement(dest, PoolVector<Color>);
}

void GDAPI pandemonium_pool_color_array_new_copy(pandemonium_pool_color_array *r_dest, const pandemonium_pool_color_array *p_src) {
	PoolVector<Color> *dest = (PoolVector<Color> *)r_dest;
	const PoolVector<Color> *src = (const PoolVector<Color> *)p_src;
	memnew_placement(dest, PoolVector<Color>(*src));
}

void GDAPI pandemonium_pool_color_array_new_with_array(pandemonium_pool_color_array *r_dest, const pandemonium_array *p_a) {
	PoolVector<Color> *dest = (PoolVector<Color> *)r_dest;
	Array *a = (Array *)p_a;
	memnew_placement(dest, PoolVector<Color>);

	dest->resize(a->size());
	for (int i = 0; i < a->size(); i++) {
		dest->set(i, (*a)[i]);
	}
}

void GDAPI pandemonium_pool_color_array_append(pandemonium_pool_color_array *p_self, const pandemonium_color *p_data) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	Color &s = *(Color *)p_data;
	self->append(s);
}

void GDAPI pandemonium_pool_color_array_append_array(pandemonium_pool_color_array *p_self, const pandemonium_pool_color_array *p_array) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	PoolVector<Color> *array = (PoolVector<Color> *)p_array;
	self->append_array(*array);
}

pandemonium_error GDAPI pandemonium_pool_color_array_insert(pandemonium_pool_color_array *p_self, const pandemonium_int p_idx, const pandemonium_color *p_data) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	Color &s = *(Color *)p_data;
	return (pandemonium_error)self->insert(p_idx, s);
}

void GDAPI pandemonium_pool_color_array_invert(pandemonium_pool_color_array *p_self) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	self->invert();
}

void GDAPI pandemonium_pool_color_array_push_back(pandemonium_pool_color_array *p_self, const pandemonium_color *p_data) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	Color &s = *(Color *)p_data;
	self->push_back(s);
}

void GDAPI pandemonium_pool_color_array_remove(pandemonium_pool_color_array *p_self, const pandemonium_int p_idx) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	self->remove(p_idx);
}

void GDAPI pandemonium_pool_color_array_resize(pandemonium_pool_color_array *p_self, const pandemonium_int p_size) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	self->resize(p_size);
}

void GDAPI pandemonium_pool_color_array_sort(pandemonium_pool_color_array *p_self) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	self->sort();
}

pandemonium_pool_color_array_read_access GDAPI *pandemonium_pool_color_array_read(const pandemonium_pool_color_array *p_self) {
	const PoolVector<Color> *self = (const PoolVector<Color> *)p_self;
	return (pandemonium_pool_color_array_read_access *)memnew(PoolVector<Color>::Read(self->read()));
}

pandemonium_pool_color_array_write_access GDAPI *pandemonium_pool_color_array_write(pandemonium_pool_color_array *p_self) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	return (pandemonium_pool_color_array_write_access *)memnew(PoolVector<Color>::Write(self->write()));
}

void GDAPI pandemonium_pool_color_array_set(pandemonium_pool_color_array *p_self, const pandemonium_int p_idx, const pandemonium_color *p_data) {
	PoolVector<Color> *self = (PoolVector<Color> *)p_self;
	Color &s = *(Color *)p_data;
	self->set(p_idx, s);
}

pandemonium_color GDAPI pandemonium_pool_color_array_get(const pandemonium_pool_color_array *p_self, const pandemonium_int p_idx) {
	const PoolVector<Color> *self = (const PoolVector<Color> *)p_self;
	pandemonium_color v;
	Color *s = (Color *)&v;
	*s = self->get(p_idx);
	return v;
}

pandemonium_int GDAPI pandemonium_pool_color_array_size(const pandemonium_pool_color_array *p_self) {
	const PoolVector<Color> *self = (const PoolVector<Color> *)p_self;
	return self->size();
}

pandemonium_bool GDAPI pandemonium_pool_color_array_empty(const pandemonium_pool_color_array *p_self) {
	const PoolVector<Color> *self = (const PoolVector<Color> *)p_self;
	return self->empty();
}

pandemonium_bool GDAPI pandemonium_pool_color_array_has(const pandemonium_pool_color_array *p_self, const pandemonium_color *p_data) {
	const PoolVector<Color> *self = (const PoolVector<Color> *)p_self;
	Color &s = *(Color *)p_data;
	return self->has(s);
}

void GDAPI pandemonium_pool_color_array_destroy(pandemonium_pool_color_array *p_self) {
	((PoolVector<Color> *)p_self)->~PoolVector();
}

//
// read accessor functions
//

pandemonium_pool_byte_array_read_access GDAPI *pandemonium_pool_byte_array_read_access_copy(const pandemonium_pool_byte_array_read_access *p_other) {
	PoolVector<uint8_t>::Read *other = (PoolVector<uint8_t>::Read *)p_other;
	return (pandemonium_pool_byte_array_read_access *)memnew(PoolVector<uint8_t>::Read(*other));
}
const uint8_t GDAPI *pandemonium_pool_byte_array_read_access_ptr(const pandemonium_pool_byte_array_read_access *p_read) {
	const PoolVector<uint8_t>::Read *read = (const PoolVector<uint8_t>::Read *)p_read;
	return read->ptr();
}
void GDAPI pandemonium_pool_byte_array_read_access_operator_assign(pandemonium_pool_byte_array_read_access *p_read, pandemonium_pool_byte_array_read_access *p_other) {
	PoolVector<uint8_t>::Read *read = (PoolVector<uint8_t>::Read *)p_read;
	PoolVector<uint8_t>::Read *other = (PoolVector<uint8_t>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_byte_array_read_access_destroy(pandemonium_pool_byte_array_read_access *p_read) {
	memdelete((PoolVector<uint8_t>::Read *)p_read);
}

pandemonium_pool_int_array_read_access GDAPI *pandemonium_pool_int_array_read_access_copy(const pandemonium_pool_int_array_read_access *p_other) {
	PoolVector<pandemonium_int>::Read *other = (PoolVector<pandemonium_int>::Read *)p_other;
	return (pandemonium_pool_int_array_read_access *)memnew(PoolVector<pandemonium_int>::Read(*other));
}
const pandemonium_int GDAPI *pandemonium_pool_int_array_read_access_ptr(const pandemonium_pool_int_array_read_access *p_read) {
	const PoolVector<pandemonium_int>::Read *read = (const PoolVector<pandemonium_int>::Read *)p_read;
	return read->ptr();
}
void GDAPI pandemonium_pool_int_array_read_access_operator_assign(pandemonium_pool_int_array_read_access *p_read, pandemonium_pool_int_array_read_access *p_other) {
	PoolVector<pandemonium_int>::Read *read = (PoolVector<pandemonium_int>::Read *)p_read;
	PoolVector<pandemonium_int>::Read *other = (PoolVector<pandemonium_int>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_int_array_read_access_destroy(pandemonium_pool_int_array_read_access *p_read) {
	memdelete((PoolVector<pandemonium_int>::Read *)p_read);
}

pandemonium_pool_real_array_read_access GDAPI *pandemonium_pool_real_array_read_access_copy(const pandemonium_pool_real_array_read_access *p_other) {
	PoolVector<pandemonium_real>::Read *other = (PoolVector<pandemonium_real>::Read *)p_other;
	return (pandemonium_pool_real_array_read_access *)memnew(PoolVector<pandemonium_real>::Read(*other));
}
const pandemonium_real GDAPI *pandemonium_pool_real_array_read_access_ptr(const pandemonium_pool_real_array_read_access *p_read) {
	const PoolVector<pandemonium_real>::Read *read = (const PoolVector<pandemonium_real>::Read *)p_read;
	return read->ptr();
}
void GDAPI pandemonium_pool_real_array_read_access_operator_assign(pandemonium_pool_real_array_read_access *p_read, pandemonium_pool_real_array_read_access *p_other) {
	PoolVector<pandemonium_real>::Read *read = (PoolVector<pandemonium_real>::Read *)p_read;
	PoolVector<pandemonium_real>::Read *other = (PoolVector<pandemonium_real>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_real_array_read_access_destroy(pandemonium_pool_real_array_read_access *p_read) {
	memdelete((PoolVector<pandemonium_real>::Read *)p_read);
}

pandemonium_pool_string_array_read_access GDAPI *pandemonium_pool_string_array_read_access_copy(const pandemonium_pool_string_array_read_access *p_other) {
	PoolVector<String>::Read *other = (PoolVector<String>::Read *)p_other;
	return (pandemonium_pool_string_array_read_access *)memnew(PoolVector<String>::Read(*other));
}
const pandemonium_string GDAPI *pandemonium_pool_string_array_read_access_ptr(const pandemonium_pool_string_array_read_access *p_read) {
	const PoolVector<String>::Read *read = (const PoolVector<String>::Read *)p_read;
	return (const pandemonium_string *)read->ptr();
}
void GDAPI pandemonium_pool_string_array_read_access_operator_assign(pandemonium_pool_string_array_read_access *p_read, pandemonium_pool_string_array_read_access *p_other) {
	PoolVector<String>::Read *read = (PoolVector<String>::Read *)p_read;
	PoolVector<String>::Read *other = (PoolVector<String>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_string_array_read_access_destroy(pandemonium_pool_string_array_read_access *p_read) {
	memdelete((PoolVector<String>::Read *)p_read);
}

pandemonium_pool_vector2_array_read_access GDAPI *pandemonium_pool_vector2_array_read_access_copy(const pandemonium_pool_vector2_array_read_access *p_other) {
	PoolVector<Vector2>::Read *other = (PoolVector<Vector2>::Read *)p_other;
	return (pandemonium_pool_vector2_array_read_access *)memnew(PoolVector<Vector2>::Read(*other));
}
const pandemonium_vector2 GDAPI *pandemonium_pool_vector2_array_read_access_ptr(const pandemonium_pool_vector2_array_read_access *p_read) {
	const PoolVector<Vector2>::Read *read = (const PoolVector<Vector2>::Read *)p_read;
	return (const pandemonium_vector2 *)read->ptr();
}
void GDAPI pandemonium_pool_vector2_array_read_access_operator_assign(pandemonium_pool_vector2_array_read_access *p_read, pandemonium_pool_vector2_array_read_access *p_other) {
	PoolVector<Vector2>::Read *read = (PoolVector<Vector2>::Read *)p_read;
	PoolVector<Vector2>::Read *other = (PoolVector<Vector2>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_vector2_array_read_access_destroy(pandemonium_pool_vector2_array_read_access *p_read) {
	memdelete((PoolVector<Vector2>::Read *)p_read);
}

pandemonium_pool_vector2i_array_read_access GDAPI *pandemonium_pool_vector2i_array_read_access_copy(const pandemonium_pool_vector2i_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	return (pandemonium_pool_vector2i_array_read_access *)memnew(PoolVector<Vector2i>::Read(*other));
}
const pandemonium_vector2i GDAPI *pandemonium_pool_vector2i_array_read_access_ptr(const pandemonium_pool_vector2i_array_read_access *p_read) {
	const PoolVector<Vector2i>::Read *read = (const PoolVector<Vector2i>::Read *)p_read;
	return (const pandemonium_vector2i *)read->ptr();
}
void GDAPI pandemonium_pool_vector2i_array_read_access_operator_assign(pandemonium_pool_vector2i_array_read_access *p_read, pandemonium_pool_vector2i_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *read = (PoolVector<Vector2i>::Read *)p_read;
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_vector2i_array_read_access_destroy(pandemonium_pool_vector2i_array_read_access *p_read) {
	memdelete((PoolVector<Vector2i>::Read *)p_read);
}

pandemonium_pool_vector3_array_read_access GDAPI *pandemonium_pool_vector3_array_read_access_copy(const pandemonium_pool_vector3_array_read_access *p_other) {
	PoolVector<Vector3>::Read *other = (PoolVector<Vector3>::Read *)p_other;
	return (pandemonium_pool_vector3_array_read_access *)memnew(PoolVector<Vector3>::Read(*other));
}
const pandemonium_vector3 GDAPI *pandemonium_pool_vector3_array_read_access_ptr(const pandemonium_pool_vector3_array_read_access *p_read) {
	const PoolVector<Vector3>::Read *read = (const PoolVector<Vector3>::Read *)p_read;
	return (const pandemonium_vector3 *)read->ptr();
}
void GDAPI pandemonium_pool_vector3_array_read_access_operator_assign(pandemonium_pool_vector3_array_read_access *p_read, pandemonium_pool_vector3_array_read_access *p_other) {
	PoolVector<Vector3>::Read *read = (PoolVector<Vector3>::Read *)p_read;
	PoolVector<Vector3>::Read *other = (PoolVector<Vector3>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_vector3_array_read_access_destroy(pandemonium_pool_vector3_array_read_access *p_read) {
	memdelete((PoolVector<Vector2>::Read *)p_read);
}

pandemonium_pool_vector3i_array_read_access GDAPI *pandemonium_pool_vector3i_array_read_access_copy(const pandemonium_pool_vector3i_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	return (pandemonium_pool_vector3i_array_read_access *)memnew(PoolVector<Vector2i>::Read(*other));
}
const pandemonium_vector3i GDAPI *pandemonium_pool_vector3i_array_read_access_ptr(const pandemonium_pool_vector3i_array_read_access *p_read) {
	const PoolVector<Vector2i>::Read *read = (const PoolVector<Vector2i>::Read *)p_read;
	return (const pandemonium_vector3i *)read->ptr();
}
void GDAPI pandemonium_pool_vector3i_array_read_access_operator_assign(pandemonium_pool_vector3i_array_read_access *p_read, pandemonium_pool_vector3i_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *read = (PoolVector<Vector2i>::Read *)p_read;
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_vector3i_array_read_access_destroy(pandemonium_pool_vector3i_array_read_access *p_read) {
	memdelete((PoolVector<Vector2i>::Read *)p_read);
}

pandemonium_pool_vector4_array_read_access GDAPI *pandemonium_pool_vector4_array_read_access_copy(const pandemonium_pool_vector4_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	return (pandemonium_pool_vector4_array_read_access *)memnew(PoolVector<Vector2i>::Read(*other));
}
const pandemonium_vector4 GDAPI *pandemonium_pool_vector4_array_read_access_ptr(const pandemonium_pool_vector4_array_read_access *p_read) {
	const PoolVector<Vector2i>::Read *read = (const PoolVector<Vector2i>::Read *)p_read;
	return (const pandemonium_vector4 *)read->ptr();
}
void GDAPI pandemonium_pool_vector4_array_read_access_operator_assign(pandemonium_pool_vector4_array_read_access *p_read, pandemonium_pool_vector4_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *read = (PoolVector<Vector2i>::Read *)p_read;
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_vector4_array_read_access_destroy(pandemonium_pool_vector4_array_read_access *p_read) {
	memdelete((PoolVector<Vector2i>::Read *)p_read);
}

pandemonium_pool_vector4i_array_read_access GDAPI *pandemonium_pool_vector4i_array_read_access_copy(const pandemonium_pool_vector4i_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	return (pandemonium_pool_vector4i_array_read_access *)memnew(PoolVector<Vector2i>::Read(*other));
}
const pandemonium_vector4i GDAPI *pandemonium_pool_vector4i_array_read_access_ptr(const pandemonium_pool_vector4i_array_read_access *p_read) {
	const PoolVector<Vector2i>::Read *read = (const PoolVector<Vector2i>::Read *)p_read;
	return (const pandemonium_vector4i *)read->ptr();
}
void GDAPI pandemonium_pool_vector4i_array_read_access_operator_assign(pandemonium_pool_vector4i_array_read_access *p_read, pandemonium_pool_vector4i_array_read_access *p_other) {
	PoolVector<Vector2i>::Read *read = (PoolVector<Vector2i>::Read *)p_read;
	PoolVector<Vector2i>::Read *other = (PoolVector<Vector2i>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_vector4i_array_read_access_destroy(pandemonium_pool_vector4i_array_read_access *p_read) {
	memdelete((PoolVector<Vector2i>::Read *)p_read);
}

pandemonium_pool_color_array_read_access GDAPI *pandemonium_pool_color_array_read_access_copy(const pandemonium_pool_color_array_read_access *p_other) {
	PoolVector<Color>::Read *other = (PoolVector<Color>::Read *)p_other;
	return (pandemonium_pool_color_array_read_access *)memnew(PoolVector<Color>::Read(*other));
}
const pandemonium_color GDAPI *pandemonium_pool_color_array_read_access_ptr(const pandemonium_pool_color_array_read_access *p_read) {
	const PoolVector<Color>::Read *read = (const PoolVector<Color>::Read *)p_read;
	return (const pandemonium_color *)read->ptr();
}
void GDAPI pandemonium_pool_color_array_read_access_operator_assign(pandemonium_pool_color_array_read_access *p_read, pandemonium_pool_color_array_read_access *p_other) {
	PoolVector<Color>::Read *read = (PoolVector<Color>::Read *)p_read;
	PoolVector<Color>::Read *other = (PoolVector<Color>::Read *)p_other;
	read->operator=(*other);
}
void GDAPI pandemonium_pool_color_array_read_access_destroy(pandemonium_pool_color_array_read_access *p_read) {
	memdelete((PoolVector<Color>::Read *)p_read);
}

//
// write accessor functions
//

pandemonium_pool_byte_array_write_access GDAPI *pandemonium_pool_byte_array_write_access_copy(const pandemonium_pool_byte_array_write_access *p_other) {
	PoolVector<uint8_t>::Write *other = (PoolVector<uint8_t>::Write *)p_other;
	return (pandemonium_pool_byte_array_write_access *)memnew(PoolVector<uint8_t>::Write(*other));
}
uint8_t GDAPI *pandemonium_pool_byte_array_write_access_ptr(const pandemonium_pool_byte_array_write_access *p_write) {
	PoolVector<uint8_t>::Write *write = (PoolVector<uint8_t>::Write *)p_write;
	return write->ptr();
}
void GDAPI pandemonium_pool_byte_array_write_access_operator_assign(pandemonium_pool_byte_array_write_access *p_write, pandemonium_pool_byte_array_write_access *p_other) {
	PoolVector<uint8_t>::Write *write = (PoolVector<uint8_t>::Write *)p_write;
	PoolVector<uint8_t>::Write *other = (PoolVector<uint8_t>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_byte_array_write_access_destroy(pandemonium_pool_byte_array_write_access *p_write) {
	memdelete((PoolVector<uint8_t>::Write *)p_write);
}

pandemonium_pool_int_array_write_access GDAPI *pandemonium_pool_int_array_write_access_copy(const pandemonium_pool_int_array_write_access *p_other) {
	PoolVector<pandemonium_int>::Write *other = (PoolVector<pandemonium_int>::Write *)p_other;
	return (pandemonium_pool_int_array_write_access *)memnew(PoolVector<pandemonium_int>::Write(*other));
}
pandemonium_int GDAPI *pandemonium_pool_int_array_write_access_ptr(const pandemonium_pool_int_array_write_access *p_write) {
	PoolVector<pandemonium_int>::Write *write = (PoolVector<pandemonium_int>::Write *)p_write;
	return write->ptr();
}
void GDAPI pandemonium_pool_int_array_write_access_operator_assign(pandemonium_pool_int_array_write_access *p_write, pandemonium_pool_int_array_write_access *p_other) {
	PoolVector<pandemonium_int>::Write *write = (PoolVector<pandemonium_int>::Write *)p_write;
	PoolVector<pandemonium_int>::Write *other = (PoolVector<pandemonium_int>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_int_array_write_access_destroy(pandemonium_pool_int_array_write_access *p_write) {
	memdelete((PoolVector<pandemonium_int>::Write *)p_write);
}

pandemonium_pool_real_array_write_access GDAPI *pandemonium_pool_real_array_write_access_copy(const pandemonium_pool_real_array_write_access *p_other) {
	PoolVector<pandemonium_real>::Write *other = (PoolVector<pandemonium_real>::Write *)p_other;
	return (pandemonium_pool_real_array_write_access *)memnew(PoolVector<pandemonium_real>::Write(*other));
}
pandemonium_real GDAPI *pandemonium_pool_real_array_write_access_ptr(const pandemonium_pool_real_array_write_access *p_write) {
	PoolVector<pandemonium_real>::Write *write = (PoolVector<pandemonium_real>::Write *)p_write;
	return write->ptr();
}
void GDAPI pandemonium_pool_real_array_write_access_operator_assign(pandemonium_pool_real_array_write_access *p_write, pandemonium_pool_real_array_write_access *p_other) {
	PoolVector<pandemonium_real>::Write *write = (PoolVector<pandemonium_real>::Write *)p_write;
	PoolVector<pandemonium_real>::Write *other = (PoolVector<pandemonium_real>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_real_array_write_access_destroy(pandemonium_pool_real_array_write_access *p_write) {
	memdelete((PoolVector<pandemonium_real>::Write *)p_write);
}

pandemonium_pool_string_array_write_access GDAPI *pandemonium_pool_string_array_write_access_copy(const pandemonium_pool_string_array_write_access *p_other) {
	PoolVector<String>::Write *other = (PoolVector<String>::Write *)p_other;
	return (pandemonium_pool_string_array_write_access *)memnew(PoolVector<String>::Write(*other));
}
pandemonium_string GDAPI *pandemonium_pool_string_array_write_access_ptr(const pandemonium_pool_string_array_write_access *p_write) {
	PoolVector<String>::Write *write = (PoolVector<String>::Write *)p_write;
	return (pandemonium_string *)write->ptr();
}
void GDAPI pandemonium_pool_string_array_write_access_operator_assign(pandemonium_pool_string_array_write_access *p_write, pandemonium_pool_string_array_write_access *p_other) {
	PoolVector<String>::Write *write = (PoolVector<String>::Write *)p_write;
	PoolVector<String>::Write *other = (PoolVector<String>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_string_array_write_access_destroy(pandemonium_pool_string_array_write_access *p_write) {
	memdelete((PoolVector<String>::Write *)p_write);
}

pandemonium_pool_vector2_array_write_access GDAPI *pandemonium_pool_vector2_array_write_access_copy(const pandemonium_pool_vector2_array_write_access *p_other) {
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	return (pandemonium_pool_vector2_array_write_access *)memnew(PoolVector<Vector2>::Write(*other));
}
pandemonium_vector2 GDAPI *pandemonium_pool_vector2_array_write_access_ptr(const pandemonium_pool_vector2_array_write_access *p_write) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	return (pandemonium_vector2 *)write->ptr();
}
void GDAPI pandemonium_pool_vector2_array_write_access_operator_assign(pandemonium_pool_vector2_array_write_access *p_write, pandemonium_pool_vector2_array_write_access *p_other) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_vector2_array_write_access_destroy(pandemonium_pool_vector2_array_write_access *p_write) {
	memdelete((PoolVector<Vector2>::Write *)p_write);
}

pandemonium_pool_vector2i_array_write_access GDAPI *pandemonium_pool_vector2i_array_write_access_copy(const pandemonium_pool_vector2i_array_write_access *p_other) {
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	return (pandemonium_pool_vector2i_array_write_access *)memnew(PoolVector<Vector2>::Write(*other));
}
pandemonium_vector2i GDAPI *pandemonium_pool_vector2i_array_write_access_ptr(const pandemonium_pool_vector2i_array_write_access *p_write) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	return (pandemonium_vector2i *)write->ptr();
}
void GDAPI pandemonium_pool_vector2i_array_write_access_operator_assign(pandemonium_pool_vector2i_array_write_access *p_write, pandemonium_pool_vector2i_array_write_access *p_other) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_vector2i_array_write_access_destroy(pandemonium_pool_vector2i_array_write_access *p_write) {
	memdelete((PoolVector<Vector2>::Write *)p_write);
}

pandemonium_pool_vector3_array_write_access GDAPI *pandemonium_pool_vector3_array_write_access_copy(const pandemonium_pool_vector3_array_write_access *p_other) {
	PoolVector<Vector3>::Write *other = (PoolVector<Vector3>::Write *)p_other;
	return (pandemonium_pool_vector3_array_write_access *)memnew(PoolVector<Vector3>::Write(*other));
}
pandemonium_vector3 GDAPI *pandemonium_pool_vector3_array_write_access_ptr(const pandemonium_pool_vector3_array_write_access *p_write) {
	PoolVector<Vector3>::Write *write = (PoolVector<Vector3>::Write *)p_write;
	return (pandemonium_vector3 *)write->ptr();
}
void GDAPI pandemonium_pool_vector3_array_write_access_operator_assign(pandemonium_pool_vector3_array_write_access *p_write, pandemonium_pool_vector3_array_write_access *p_other) {
	PoolVector<Vector3>::Write *write = (PoolVector<Vector3>::Write *)p_write;
	PoolVector<Vector3>::Write *other = (PoolVector<Vector3>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_vector3_array_write_access_destroy(pandemonium_pool_vector3_array_write_access *p_write) {
	memdelete((PoolVector<Vector3>::Write *)p_write);
}

pandemonium_pool_vector3i_array_write_access GDAPI *pandemonium_pool_vector3i_array_write_access_copy(const pandemonium_pool_vector3i_array_write_access *p_other) {
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	return (pandemonium_pool_vector3i_array_write_access *)memnew(PoolVector<Vector2>::Write(*other));
}
pandemonium_vector3i GDAPI *pandemonium_pool_vector3i_array_write_access_ptr(const pandemonium_pool_vector3i_array_write_access *p_write) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	return (pandemonium_vector3i *)write->ptr();
}
void GDAPI pandemonium_pool_vector3i_array_write_access_operator_assign(pandemonium_pool_vector3i_array_write_access *p_write, pandemonium_pool_vector3i_array_write_access *p_other) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_vector3i_array_write_access_destroy(pandemonium_pool_vector3i_array_write_access *p_write) {
	memdelete((PoolVector<Vector2>::Write *)p_write);
}

pandemonium_pool_vector4_array_write_access GDAPI *pandemonium_pool_vector4_array_write_access_copy(const pandemonium_pool_vector4_array_write_access *p_other) {
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	return (pandemonium_pool_vector4_array_write_access *)memnew(PoolVector<Vector2>::Write(*other));
}
pandemonium_vector4 GDAPI *pandemonium_pool_vector4_array_write_access_ptr(const pandemonium_pool_vector4_array_write_access *p_write) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	return (pandemonium_vector4 *)write->ptr();
}
void GDAPI pandemonium_pool_vector4_array_write_access_operator_assign(pandemonium_pool_vector4_array_write_access *p_write, pandemonium_pool_vector4_array_write_access *p_other) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_vector4_array_write_access_destroy(pandemonium_pool_vector4_array_write_access *p_write) {
	memdelete((PoolVector<Vector2>::Write *)p_write);
}

pandemonium_pool_vector4i_array_write_access GDAPI *pandemonium_pool_vector4i_array_write_access_copy(const pandemonium_pool_vector4i_array_write_access *p_other) {
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	return (pandemonium_pool_vector4i_array_write_access *)memnew(PoolVector<Vector2>::Write(*other));
}
pandemonium_vector4i GDAPI *pandemonium_pool_vector4i_array_write_access_ptr(const pandemonium_pool_vector4i_array_write_access *p_write) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	return (pandemonium_vector4i *)write->ptr();
}
void GDAPI pandemonium_pool_vector4i_array_write_access_operator_assign(pandemonium_pool_vector4i_array_write_access *p_write, pandemonium_pool_vector4i_array_write_access *p_other) {
	PoolVector<Vector2>::Write *write = (PoolVector<Vector2>::Write *)p_write;
	PoolVector<Vector2>::Write *other = (PoolVector<Vector2>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_vector4i_array_write_access_destroy(pandemonium_pool_vector4i_array_write_access *p_write) {
	memdelete((PoolVector<Vector2>::Write *)p_write);
}

pandemonium_pool_color_array_write_access GDAPI *pandemonium_pool_color_array_write_access_copy(const pandemonium_pool_color_array_write_access *p_other) {
	PoolVector<Color>::Write *other = (PoolVector<Color>::Write *)p_other;
	return (pandemonium_pool_color_array_write_access *)memnew(PoolVector<Color>::Write(*other));
}
pandemonium_color GDAPI *pandemonium_pool_color_array_write_access_ptr(const pandemonium_pool_color_array_write_access *p_write) {
	PoolVector<Color>::Write *write = (PoolVector<Color>::Write *)p_write;
	return (pandemonium_color *)write->ptr();
}
void GDAPI pandemonium_pool_color_array_write_access_operator_assign(pandemonium_pool_color_array_write_access *p_write, pandemonium_pool_color_array_write_access *p_other) {
	PoolVector<Color>::Write *write = (PoolVector<Color>::Write *)p_write;
	PoolVector<Color>::Write *other = (PoolVector<Color>::Write *)p_other;
	write->operator=(*other);
}
void GDAPI pandemonium_pool_color_array_write_access_destroy(pandemonium_pool_color_array_write_access *p_write) {
	memdelete((PoolVector<Color>::Write *)p_write);
}

#ifdef __cplusplus
}
#endif