virtualx-engine/core/variant_op.cpp

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/*************************************************************************/
/* variant_op.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
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/*************************************************************************/
/* Copyright (c) 2007-2019 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2019 Godot Engine contributors (cf. AUTHORS.md) */
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/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
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#include "variant.h"
#include "core/core_string_names.h"
#include "core/object.h"
#include "core/script_language.h"
#define CASE_TYPE_ALL(PREFIX, OP) \
CASE_TYPE(PREFIX, OP, INT) \
CASE_TYPE_ALL_BUT_INT(PREFIX, OP)
#define CASE_TYPE_ALL_BUT_INT(PREFIX, OP) \
CASE_TYPE(PREFIX, OP, NIL) \
CASE_TYPE(PREFIX, OP, BOOL) \
CASE_TYPE(PREFIX, OP, REAL) \
CASE_TYPE(PREFIX, OP, STRING) \
CASE_TYPE(PREFIX, OP, VECTOR2) \
CASE_TYPE(PREFIX, OP, RECT2) \
CASE_TYPE(PREFIX, OP, VECTOR3) \
CASE_TYPE(PREFIX, OP, TRANSFORM2D) \
CASE_TYPE(PREFIX, OP, PLANE) \
CASE_TYPE(PREFIX, OP, QUAT) \
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CASE_TYPE(PREFIX, OP, AABB) \
CASE_TYPE(PREFIX, OP, BASIS) \
CASE_TYPE(PREFIX, OP, TRANSFORM) \
CASE_TYPE(PREFIX, OP, COLOR) \
CASE_TYPE(PREFIX, OP, NODE_PATH) \
CASE_TYPE(PREFIX, OP, _RID) \
CASE_TYPE(PREFIX, OP, OBJECT) \
CASE_TYPE(PREFIX, OP, DICTIONARY) \
CASE_TYPE(PREFIX, OP, ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_BYTE_ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_INT_ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_REAL_ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_STRING_ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_VECTOR2_ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_VECTOR3_ARRAY) \
CASE_TYPE(PREFIX, OP, POOL_COLOR_ARRAY)
#ifdef __GNUC__
#define TYPE(PREFIX, OP, TYPE) &&PREFIX##_##OP##_##TYPE
/* clang-format off */
#define TYPES(PREFIX, OP) { \
TYPE(PREFIX, OP, NIL), \
TYPE(PREFIX, OP, BOOL), \
TYPE(PREFIX, OP, INT), \
TYPE(PREFIX, OP, REAL), \
TYPE(PREFIX, OP, STRING), \
TYPE(PREFIX, OP, VECTOR2), \
TYPE(PREFIX, OP, RECT2), \
TYPE(PREFIX, OP, VECTOR3), \
TYPE(PREFIX, OP, TRANSFORM2D), \
TYPE(PREFIX, OP, PLANE), \
TYPE(PREFIX, OP, QUAT), \
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TYPE(PREFIX, OP, AABB), \
TYPE(PREFIX, OP, BASIS), \
TYPE(PREFIX, OP, TRANSFORM), \
TYPE(PREFIX, OP, COLOR), \
TYPE(PREFIX, OP, NODE_PATH), \
TYPE(PREFIX, OP, _RID), \
TYPE(PREFIX, OP, OBJECT), \
TYPE(PREFIX, OP, DICTIONARY), \
TYPE(PREFIX, OP, ARRAY), \
TYPE(PREFIX, OP, POOL_BYTE_ARRAY), \
TYPE(PREFIX, OP, POOL_INT_ARRAY), \
TYPE(PREFIX, OP, POOL_REAL_ARRAY), \
TYPE(PREFIX, OP, POOL_STRING_ARRAY), \
TYPE(PREFIX, OP, POOL_VECTOR2_ARRAY), \
TYPE(PREFIX, OP, POOL_VECTOR3_ARRAY), \
TYPE(PREFIX, OP, POOL_COLOR_ARRAY), \
}
/* clang-format on */
#define CASES(PREFIX) static const void *switch_table_##PREFIX[25][27] = { \
TYPES(PREFIX, OP_EQUAL), \
TYPES(PREFIX, OP_NOT_EQUAL), \
TYPES(PREFIX, OP_LESS), \
TYPES(PREFIX, OP_LESS_EQUAL), \
TYPES(PREFIX, OP_GREATER), \
TYPES(PREFIX, OP_GREATER_EQUAL), \
TYPES(PREFIX, OP_ADD), \
TYPES(PREFIX, OP_SUBTRACT), \
TYPES(PREFIX, OP_MULTIPLY), \
TYPES(PREFIX, OP_DIVIDE), \
TYPES(PREFIX, OP_NEGATE), \
TYPES(PREFIX, OP_POSITIVE), \
TYPES(PREFIX, OP_MODULE), \
TYPES(PREFIX, OP_STRING_CONCAT), \
TYPES(PREFIX, OP_SHIFT_LEFT), \
TYPES(PREFIX, OP_SHIFT_RIGHT), \
TYPES(PREFIX, OP_BIT_AND), \
TYPES(PREFIX, OP_BIT_OR), \
TYPES(PREFIX, OP_BIT_XOR), \
TYPES(PREFIX, OP_BIT_NEGATE), \
TYPES(PREFIX, OP_AND), \
TYPES(PREFIX, OP_OR), \
TYPES(PREFIX, OP_XOR), \
TYPES(PREFIX, OP_NOT), \
TYPES(PREFIX, OP_IN), \
}
#define SWITCH(PREFIX, op, val) goto *switch_table_##PREFIX[op][val];
#define SWITCH_OP(PREFIX, OP, val)
#define CASE_TYPE(PREFIX, OP, TYPE) PREFIX##_##OP##_##TYPE:
#else
#define CASES(PREFIX)
#define SWITCH(PREFIX, op, val) switch (op)
#define SWITCH_OP(PREFIX, OP, val) \
case OP: \
switch (val)
#define CASE_TYPE(PREFIX, OP, TYPE) case TYPE:
#endif
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Variant::operator bool() const {
return booleanize();
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}
// We consider all uninitialized or empty types to be false based on the type's
// zeroiness.
bool Variant::booleanize() const {
return !is_zero();
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}
#define _RETURN(m_what) \
{ \
r_ret = m_what; \
return; \
}
#define _RETURN_FAIL \
{ \
r_valid = false; \
return; \
}
#define DEFAULT_OP_NUM(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == INT) _RETURN(p_a._data.m_type m_op p_b._data._int); \
if (p_b.type == REAL) _RETURN(p_a._data.m_type m_op p_b._data._real); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_NUM_NULL(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == INT) _RETURN(p_a._data.m_type m_op p_b._data._int); \
if (p_b.type == REAL) _RETURN(p_a._data.m_type m_op p_b._data._real); \
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if (p_b.type == NIL) _RETURN(!(p_b.type m_op NIL)); \
\
_RETURN_FAIL \
};
#ifdef DEBUG_ENABLED
#define DEFAULT_OP_NUM_DIV(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == INT) { \
if (p_b._data._int == 0) { \
r_valid = false; \
_RETURN("Division By Zero"); \
} \
_RETURN(p_a._data.m_type / p_b._data._int); \
} \
if (p_b.type == REAL) { \
if (p_b._data._real == 0) { \
r_valid = false; \
_RETURN("Division By Zero"); \
} \
_RETURN(p_a._data.m_type / p_b._data._real); \
} \
\
_RETURN_FAIL \
};
#else
#define DEFAULT_OP_NUM_DIV(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == INT) _RETURN(p_a._data.m_type / p_b._data._int); \
if (p_b.type == REAL) _RETURN(p_a._data.m_type / p_b._data._real); \
\
_RETURN_FAIL \
};
#endif
#define DEFAULT_OP_NUM_NEG(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
_RETURN(-p_a._data.m_type); \
};
#define DEFAULT_OP_NUM_POS(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
_RETURN(p_a._data.m_type); \
};
#define DEFAULT_OP_NUM_VEC(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == INT) _RETURN(p_a._data.m_type m_op p_b._data._int); \
if (p_b.type == REAL) _RETURN(p_a._data.m_type m_op p_b._data._real); \
if (p_b.type == VECTOR2) _RETURN(p_a._data.m_type m_op *reinterpret_cast<const Vector2 *>(p_b._data._mem)); \
if (p_b.type == VECTOR3) _RETURN(p_a._data.m_type m_op *reinterpret_cast<const Vector3 *>(p_b._data._mem)); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_STR_REV(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == STRING) _RETURN(*reinterpret_cast<const m_type *>(p_b._data._mem) m_op *reinterpret_cast<const String *>(p_a._data._mem)); \
if (p_b.type == NODE_PATH) _RETURN(*reinterpret_cast<const m_type *>(p_b._data._mem) m_op *reinterpret_cast<const NodePath *>(p_a._data._mem)); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_STR(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == STRING) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const String *>(p_b._data._mem)); \
if (p_b.type == NODE_PATH) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const NodePath *>(p_b._data._mem)); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_STR_NULL(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == STRING) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const String *>(p_b._data._mem)); \
if (p_b.type == NODE_PATH) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const NodePath *>(p_b._data._mem)); \
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if (p_b.type == NIL) _RETURN(!(p_b.type m_op NIL)); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_LOCALMEM_REV(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) \
_RETURN(*reinterpret_cast<const m_type *>(p_b._data._mem) m_op *reinterpret_cast<const m_type *>(p_a._data._mem)); \
\
_RETURN_FAIL \
};
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#define DEFAULT_OP_LOCALMEM(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) \
_RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const m_type *>(p_b._data._mem)); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_LOCALMEM_NULL(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) \
_RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const m_type *>(p_b._data._mem)); \
if (p_b.type == NIL) \
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_RETURN(!(p_b.type m_op NIL)); \
\
_RETURN_FAIL \
};
#define DEFAULT_OP_LOCALMEM_NEG(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
_RETURN(-*reinterpret_cast<const m_type *>(p_a._data._mem)); \
}
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#define DEFAULT_OP_LOCALMEM_POS(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
_RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem)); \
}
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#define DEFAULT_OP_LOCALMEM_NUM(m_prefix, m_op_name, m_name, m_op, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op *reinterpret_cast<const m_type *>(p_b._data._mem)); \
if (p_b.type == INT) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op p_b._data._int); \
if (p_b.type == REAL) _RETURN(*reinterpret_cast<const m_type *>(p_a._data._mem) m_op p_b._data._real); \
\
_RETURN_FAIL \
}
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#define DEFAULT_OP_PTR(m_op, m_name, m_sub) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) \
_RETURN(p_a._data.m_sub m_op p_b._data.m_sub); \
\
_RETURN_FAIL \
}
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#define DEFAULT_OP_PTRREF(m_prefix, m_op_name, m_name, m_op, m_sub) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) \
_RETURN(*p_a._data.m_sub m_op *p_b._data.m_sub); \
\
_RETURN_FAIL \
}
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#define DEFAULT_OP_PTRREF_NULL(m_prefix, m_op_name, m_name, m_op, m_sub) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == m_name) \
_RETURN(*p_a._data.m_sub m_op *p_b._data.m_sub); \
if (p_b.type == NIL) \
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_RETURN(!(p_b.type m_op NIL)); \
\
_RETURN_FAIL \
}
#define DEFAULT_OP_ARRAY_EQ(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == NIL) \
_RETURN(false) \
DEFAULT_OP_ARRAY_OP_BODY(m_prefix, m_op_name, m_name, m_type, !=, !=, true, false, false) \
}
#define DEFAULT_OP_ARRAY_NEQ(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_b.type == NIL) \
_RETURN(true) \
DEFAULT_OP_ARRAY_OP_BODY(m_prefix, m_op_name, m_name, m_type, !=, !=, false, true, true) \
}
#define DEFAULT_OP_ARRAY_LT(m_prefix, m_op_name, m_name, m_type) \
DEFAULT_OP_ARRAY_OP(m_prefix, m_op_name, m_name, m_type, <, !=, false, a_len < array_b.size(), true)
#define DEFAULT_OP_ARRAY_GT(m_prefix, m_op_name, m_name, m_type) \
DEFAULT_OP_ARRAY_OP(m_prefix, m_op_name, m_name, m_type, >, !=, false, a_len < array_b.size(), true)
#define DEFAULT_OP_ARRAY_OP(m_prefix, m_op_name, m_name, m_type, m_opa, m_opb, m_ret_def, m_ret_s, m_ret_f) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
DEFAULT_OP_ARRAY_OP_BODY(m_prefix, m_op_name, m_name, m_type, m_opa, m_opb, m_ret_def, m_ret_s, m_ret_f) \
}
#define DEFAULT_OP_ARRAY_OP_BODY(m_prefix, m_op_name, m_name, m_type, m_opa, m_opb, m_ret_def, m_ret_s, m_ret_f) \
if (p_a.type != p_b.type) \
_RETURN_FAIL \
\
const PoolVector<m_type> &array_a = *reinterpret_cast<const PoolVector<m_type> *>(p_a._data._mem); \
const PoolVector<m_type> &array_b = *reinterpret_cast<const PoolVector<m_type> *>(p_b._data._mem); \
\
int a_len = array_a.size(); \
if (a_len m_opa array_b.size()) { \
_RETURN(m_ret_s); \
} else { \
\
PoolVector<m_type>::Read ra = array_a.read(); \
PoolVector<m_type>::Read rb = array_b.read(); \
\
for (int i = 0; i < a_len; i++) { \
if (ra[i] m_opb rb[i]) \
_RETURN(m_ret_f); \
} \
\
_RETURN(m_ret_def); \
}
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#define DEFAULT_OP_ARRAY_ADD(m_prefix, m_op_name, m_name, m_type) \
CASE_TYPE(m_prefix, m_op_name, m_name) { \
if (p_a.type != p_b.type) \
_RETURN_FAIL; \
\
const PoolVector<m_type> &array_a = *reinterpret_cast<const PoolVector<m_type> *>(p_a._data._mem); \
const PoolVector<m_type> &array_b = *reinterpret_cast<const PoolVector<m_type> *>(p_b._data._mem); \
PoolVector<m_type> sum = array_a; \
sum.append_array(array_b); \
_RETURN(sum); \
}
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void Variant::evaluate(const Operator &p_op, const Variant &p_a,
const Variant &p_b, Variant &r_ret, bool &r_valid) {
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CASES(math);
r_valid = true;
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SWITCH(math, p_op, p_a.type) {
SWITCH_OP(math, OP_EQUAL, p_a.type) {
CASE_TYPE(math, OP_EQUAL, NIL) {
if (p_b.type == NIL) _RETURN(true);
if (p_b.type == OBJECT)
_RETURN(p_b._get_obj().obj == NULL);
_RETURN(false);
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}
CASE_TYPE(math, OP_EQUAL, BOOL) {
if (p_b.type != BOOL) {
if (p_b.type == NIL)
_RETURN(false);
_RETURN_FAIL;
}
_RETURN(p_a._data._bool == p_b._data._bool);
}
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CASE_TYPE(math, OP_EQUAL, OBJECT) {
if (p_b.type == OBJECT)
_RETURN((p_a._get_obj().obj == p_b._get_obj().obj));
if (p_b.type == NIL)
_RETURN(p_a._get_obj().obj == NULL);
_RETURN_FAIL;
}
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CASE_TYPE(math, OP_EQUAL, DICTIONARY) {
if (p_b.type != DICTIONARY) {
if (p_b.type == NIL)
_RETURN(false);
_RETURN_FAIL;
}
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const Dictionary *arr_a = reinterpret_cast<const Dictionary *>(p_a._data._mem);
const Dictionary *arr_b = reinterpret_cast<const Dictionary *>(p_b._data._mem);
_RETURN(*arr_a == *arr_b);
}
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CASE_TYPE(math, OP_EQUAL, ARRAY) {
if (p_b.type != ARRAY) {
if (p_b.type == NIL)
_RETURN(false);
_RETURN_FAIL;
}
const Array *arr_a = reinterpret_cast<const Array *>(p_a._data._mem);
const Array *arr_b = reinterpret_cast<const Array *>(p_b._data._mem);
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int l = arr_a->size();
if (arr_b->size() != l)
_RETURN(false);
for (int i = 0; i < l; i++) {
if (!((*arr_a)[i] == (*arr_b)[i])) {
_RETURN(false);
}
}
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_RETURN(true);
}
DEFAULT_OP_NUM_NULL(math, OP_EQUAL, INT, ==, _int);
DEFAULT_OP_NUM_NULL(math, OP_EQUAL, REAL, ==, _real);
DEFAULT_OP_STR_NULL(math, OP_EQUAL, STRING, ==, String);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, VECTOR2, ==, Vector2);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, RECT2, ==, Rect2);
DEFAULT_OP_PTRREF_NULL(math, OP_EQUAL, TRANSFORM2D, ==, _transform2d);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, VECTOR3, ==, Vector3);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, PLANE, ==, Plane);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, QUAT, ==, Quat);
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DEFAULT_OP_PTRREF_NULL(math, OP_EQUAL, AABB, ==, _aabb);
DEFAULT_OP_PTRREF_NULL(math, OP_EQUAL, BASIS, ==, _basis);
DEFAULT_OP_PTRREF_NULL(math, OP_EQUAL, TRANSFORM, ==, _transform);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, COLOR, ==, Color);
DEFAULT_OP_STR_NULL(math, OP_EQUAL, NODE_PATH, ==, NodePath);
DEFAULT_OP_LOCALMEM_NULL(math, OP_EQUAL, _RID, ==, RID);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_BYTE_ARRAY, uint8_t);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_INT_ARRAY, int);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_REAL_ARRAY, real_t);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_STRING_ARRAY, String);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_VECTOR2_ARRAY, Vector2);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_VECTOR3_ARRAY, Vector3);
DEFAULT_OP_ARRAY_EQ(math, OP_EQUAL, POOL_COLOR_ARRAY, Color);
}
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SWITCH_OP(math, OP_NOT_EQUAL, p_a.type) {
CASE_TYPE(math, OP_NOT_EQUAL, NIL) {
if (p_b.type == NIL) _RETURN(false);
if (p_b.type == OBJECT)
_RETURN(p_b._get_obj().obj != NULL);
_RETURN(true);
}
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CASE_TYPE(math, OP_NOT_EQUAL, BOOL) {
if (p_b.type != BOOL) {
if (p_b.type == NIL)
_RETURN(true);
_RETURN_FAIL;
}
_RETURN(p_a._data._bool != p_b._data._bool);
}
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CASE_TYPE(math, OP_NOT_EQUAL, OBJECT) {
if (p_b.type == OBJECT)
_RETURN((p_a._get_obj().obj != p_b._get_obj().obj));
if (p_b.type == NIL)
_RETURN(p_a._get_obj().obj != NULL);
_RETURN_FAIL;
}
CASE_TYPE(math, OP_NOT_EQUAL, DICTIONARY) {
if (p_b.type != DICTIONARY) {
if (p_b.type == NIL)
_RETURN(true);
_RETURN_FAIL;
}
const Dictionary *arr_a = reinterpret_cast<const Dictionary *>(p_a._data._mem);
const Dictionary *arr_b = reinterpret_cast<const Dictionary *>(p_b._data._mem);
_RETURN(*arr_a != *arr_b);
}
CASE_TYPE(math, OP_NOT_EQUAL, ARRAY) {
if (p_b.type != ARRAY) {
if (p_b.type == NIL)
_RETURN(true);
_RETURN_FAIL;
}
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const Array *arr_a = reinterpret_cast<const Array *>(p_a._data._mem);
const Array *arr_b = reinterpret_cast<const Array *>(p_b._data._mem);
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int l = arr_a->size();
if (arr_b->size() != l)
_RETURN(true);
for (int i = 0; i < l; i++) {
if (((*arr_a)[i] != (*arr_b)[i])) {
_RETURN(true);
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}
}
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_RETURN(false);
}
DEFAULT_OP_NUM_NULL(math, OP_NOT_EQUAL, INT, !=, _int);
DEFAULT_OP_NUM_NULL(math, OP_NOT_EQUAL, REAL, !=, _real);
DEFAULT_OP_STR_NULL(math, OP_NOT_EQUAL, STRING, !=, String);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, VECTOR2, !=, Vector2);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, RECT2, !=, Rect2);
DEFAULT_OP_PTRREF_NULL(math, OP_NOT_EQUAL, TRANSFORM2D, !=, _transform2d);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, VECTOR3, !=, Vector3);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, PLANE, !=, Plane);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, QUAT, !=, Quat);
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DEFAULT_OP_PTRREF_NULL(math, OP_NOT_EQUAL, AABB, !=, _aabb);
DEFAULT_OP_PTRREF_NULL(math, OP_NOT_EQUAL, BASIS, !=, _basis);
DEFAULT_OP_PTRREF_NULL(math, OP_NOT_EQUAL, TRANSFORM, !=, _transform);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, COLOR, !=, Color);
DEFAULT_OP_STR_NULL(math, OP_NOT_EQUAL, NODE_PATH, !=, NodePath);
DEFAULT_OP_LOCALMEM_NULL(math, OP_NOT_EQUAL, _RID, !=, RID);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_BYTE_ARRAY, uint8_t);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_INT_ARRAY, int);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_REAL_ARRAY, real_t);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_STRING_ARRAY, String);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_VECTOR2_ARRAY, Vector2);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_VECTOR3_ARRAY, Vector3);
DEFAULT_OP_ARRAY_NEQ(math, OP_NOT_EQUAL, POOL_COLOR_ARRAY, Color);
}
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SWITCH_OP(math, OP_LESS, p_a.type) {
CASE_TYPE(math, OP_LESS, BOOL) {
if (p_b.type != BOOL)
_RETURN_FAIL;
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if (p_a._data._bool == p_b._data._bool)
_RETURN(false);
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if (p_a._data._bool && !p_b._data._bool)
_RETURN(false);
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_RETURN(true);
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}
CASE_TYPE(math, OP_LESS, OBJECT) {
if (p_b.type != OBJECT)
_RETURN_FAIL;
_RETURN((p_a._get_obj().obj < p_b._get_obj().obj));
}
CASE_TYPE(math, OP_LESS, ARRAY) {
if (p_b.type != ARRAY)
_RETURN_FAIL;
const Array *arr_a = reinterpret_cast<const Array *>(p_a._data._mem);
const Array *arr_b = reinterpret_cast<const Array *>(p_b._data._mem);
int l = arr_a->size();
if (arr_b->size() < l)
_RETURN(false);
for (int i = 0; i < l; i++) {
if (!((*arr_a)[i] < (*arr_b)[i])) {
_RETURN(true);
}
}
_RETURN(false);
}
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DEFAULT_OP_NUM(math, OP_LESS, INT, <, _int);
DEFAULT_OP_NUM(math, OP_LESS, REAL, <, _real);
DEFAULT_OP_STR(math, OP_LESS, STRING, <, String);
DEFAULT_OP_LOCALMEM(math, OP_LESS, VECTOR2, <, Vector2);
DEFAULT_OP_LOCALMEM(math, OP_LESS, VECTOR3, <, Vector3);
DEFAULT_OP_LOCALMEM(math, OP_LESS, _RID, <, RID);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_BYTE_ARRAY, uint8_t);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_INT_ARRAY, int);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_REAL_ARRAY, real_t);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_STRING_ARRAY, String);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_VECTOR2_ARRAY, Vector3);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_VECTOR3_ARRAY, Vector3);
DEFAULT_OP_ARRAY_LT(math, OP_LESS, POOL_COLOR_ARRAY, Color);
CASE_TYPE(math, OP_LESS, NIL)
CASE_TYPE(math, OP_LESS, RECT2)
CASE_TYPE(math, OP_LESS, TRANSFORM2D)
CASE_TYPE(math, OP_LESS, PLANE)
CASE_TYPE(math, OP_LESS, QUAT)
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CASE_TYPE(math, OP_LESS, AABB)
CASE_TYPE(math, OP_LESS, BASIS)
CASE_TYPE(math, OP_LESS, TRANSFORM)
CASE_TYPE(math, OP_LESS, COLOR)
CASE_TYPE(math, OP_LESS, NODE_PATH)
CASE_TYPE(math, OP_LESS, DICTIONARY)
_RETURN_FAIL;
}
SWITCH_OP(math, OP_LESS_EQUAL, p_a.type) {
CASE_TYPE(math, OP_LESS_EQUAL, OBJECT) {
if (p_b.type != OBJECT)
_RETURN_FAIL;
_RETURN((p_a._get_obj().obj <= p_b._get_obj().obj));
}
DEFAULT_OP_NUM(math, OP_LESS_EQUAL, INT, <=, _int);
DEFAULT_OP_NUM(math, OP_LESS_EQUAL, REAL, <=, _real);
DEFAULT_OP_STR(math, OP_LESS_EQUAL, STRING, <=, String);
DEFAULT_OP_LOCALMEM(math, OP_LESS_EQUAL, VECTOR2, <=, Vector2);
DEFAULT_OP_LOCALMEM(math, OP_LESS_EQUAL, VECTOR3, <=, Vector3);
DEFAULT_OP_LOCALMEM(math, OP_LESS_EQUAL, _RID, <=, RID);
CASE_TYPE(math, OP_LESS_EQUAL, NIL)
CASE_TYPE(math, OP_LESS_EQUAL, BOOL)
CASE_TYPE(math, OP_LESS_EQUAL, RECT2)
CASE_TYPE(math, OP_LESS_EQUAL, TRANSFORM2D)
CASE_TYPE(math, OP_LESS_EQUAL, PLANE)
CASE_TYPE(math, OP_LESS_EQUAL, QUAT)
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CASE_TYPE(math, OP_LESS_EQUAL, AABB)
CASE_TYPE(math, OP_LESS_EQUAL, BASIS)
CASE_TYPE(math, OP_LESS_EQUAL, TRANSFORM)
CASE_TYPE(math, OP_LESS_EQUAL, COLOR)
CASE_TYPE(math, OP_LESS_EQUAL, NODE_PATH)
CASE_TYPE(math, OP_LESS_EQUAL, DICTIONARY)
CASE_TYPE(math, OP_LESS_EQUAL, ARRAY)
CASE_TYPE(math, OP_LESS_EQUAL, POOL_BYTE_ARRAY);
CASE_TYPE(math, OP_LESS_EQUAL, POOL_INT_ARRAY);
CASE_TYPE(math, OP_LESS_EQUAL, POOL_REAL_ARRAY);
CASE_TYPE(math, OP_LESS_EQUAL, POOL_STRING_ARRAY);
CASE_TYPE(math, OP_LESS_EQUAL, POOL_VECTOR2_ARRAY);
CASE_TYPE(math, OP_LESS_EQUAL, POOL_VECTOR3_ARRAY);
CASE_TYPE(math, OP_LESS_EQUAL, POOL_COLOR_ARRAY);
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_GREATER, p_a.type) {
CASE_TYPE(math, OP_GREATER, BOOL) {
if (p_b.type != BOOL)
_RETURN_FAIL;
if (p_a._data._bool == p_b._data._bool)
_RETURN(false);
if (!p_a._data._bool && p_b._data._bool)
_RETURN(false);
_RETURN(true);
2014-02-10 02:10:30 +01:00
}
CASE_TYPE(math, OP_GREATER, OBJECT) {
if (p_b.type != OBJECT)
_RETURN_FAIL;
_RETURN((p_a._get_obj().obj > p_b._get_obj().obj));
}
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CASE_TYPE(math, OP_GREATER, ARRAY) {
if (p_b.type != ARRAY)
_RETURN_FAIL;
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const Array *arr_a = reinterpret_cast<const Array *>(p_a._data._mem);
const Array *arr_b = reinterpret_cast<const Array *>(p_b._data._mem);
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int l = arr_a->size();
if (arr_b->size() > l)
_RETURN(false);
for (int i = 0; i < l; i++) {
if (((*arr_a)[i] < (*arr_b)[i])) {
_RETURN(false);
}
}
2014-02-10 02:10:30 +01:00
_RETURN(true);
}
DEFAULT_OP_NUM(math, OP_GREATER, INT, >, _int);
DEFAULT_OP_NUM(math, OP_GREATER, REAL, >, _real);
DEFAULT_OP_STR_REV(math, OP_GREATER, STRING, <, String);
DEFAULT_OP_LOCALMEM_REV(math, OP_GREATER, VECTOR2, <, Vector2);
DEFAULT_OP_LOCALMEM_REV(math, OP_GREATER, VECTOR3, <, Vector3);
DEFAULT_OP_LOCALMEM_REV(math, OP_GREATER, _RID, <, RID);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_BYTE_ARRAY, uint8_t);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_INT_ARRAY, int);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_REAL_ARRAY, real_t);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_STRING_ARRAY, String);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_VECTOR2_ARRAY, Vector3);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_VECTOR3_ARRAY, Vector3);
DEFAULT_OP_ARRAY_GT(math, OP_GREATER, POOL_COLOR_ARRAY, Color);
CASE_TYPE(math, OP_GREATER, NIL)
CASE_TYPE(math, OP_GREATER, RECT2)
CASE_TYPE(math, OP_GREATER, TRANSFORM2D)
CASE_TYPE(math, OP_GREATER, PLANE)
CASE_TYPE(math, OP_GREATER, QUAT)
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CASE_TYPE(math, OP_GREATER, AABB)
CASE_TYPE(math, OP_GREATER, BASIS)
CASE_TYPE(math, OP_GREATER, TRANSFORM)
CASE_TYPE(math, OP_GREATER, COLOR)
CASE_TYPE(math, OP_GREATER, NODE_PATH)
CASE_TYPE(math, OP_GREATER, DICTIONARY)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_GREATER_EQUAL, p_a.type) {
CASE_TYPE(math, OP_GREATER_EQUAL, OBJECT) {
if (p_b.type != OBJECT)
_RETURN_FAIL;
_RETURN((p_a._get_obj().obj >= p_b._get_obj().obj));
}
DEFAULT_OP_NUM(math, OP_GREATER_EQUAL, INT, >=, _int);
DEFAULT_OP_NUM(math, OP_GREATER_EQUAL, REAL, >=, _real);
DEFAULT_OP_STR_REV(math, OP_GREATER_EQUAL, STRING, <=, String);
DEFAULT_OP_LOCALMEM_REV(math, OP_GREATER_EQUAL, VECTOR2, <=, Vector2);
DEFAULT_OP_LOCALMEM_REV(math, OP_GREATER_EQUAL, VECTOR3, <=, Vector3);
DEFAULT_OP_LOCALMEM_REV(math, OP_GREATER_EQUAL, _RID, <=, RID);
CASE_TYPE(math, OP_GREATER_EQUAL, NIL)
CASE_TYPE(math, OP_GREATER_EQUAL, BOOL)
CASE_TYPE(math, OP_GREATER_EQUAL, RECT2)
CASE_TYPE(math, OP_GREATER_EQUAL, TRANSFORM2D)
CASE_TYPE(math, OP_GREATER_EQUAL, PLANE)
CASE_TYPE(math, OP_GREATER_EQUAL, QUAT)
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CASE_TYPE(math, OP_GREATER_EQUAL, AABB)
CASE_TYPE(math, OP_GREATER_EQUAL, BASIS)
CASE_TYPE(math, OP_GREATER_EQUAL, TRANSFORM)
CASE_TYPE(math, OP_GREATER_EQUAL, COLOR)
CASE_TYPE(math, OP_GREATER_EQUAL, NODE_PATH)
CASE_TYPE(math, OP_GREATER_EQUAL, DICTIONARY)
CASE_TYPE(math, OP_GREATER_EQUAL, ARRAY)
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_BYTE_ARRAY);
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_INT_ARRAY);
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_REAL_ARRAY);
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_STRING_ARRAY);
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_VECTOR2_ARRAY);
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_VECTOR3_ARRAY);
CASE_TYPE(math, OP_GREATER_EQUAL, POOL_COLOR_ARRAY);
_RETURN_FAIL;
}
SWITCH_OP(math, OP_ADD, p_a.type) {
CASE_TYPE(math, OP_ADD, ARRAY) {
if (p_a.type != p_b.type)
_RETURN_FAIL;
const Array &array_a = *reinterpret_cast<const Array *>(p_a._data._mem);
const Array &array_b = *reinterpret_cast<const Array *>(p_b._data._mem);
Array sum;
int asize = array_a.size();
int bsize = array_b.size();
sum.resize(asize + bsize);
for (int i = 0; i < asize; i++)
sum[i] = array_a[i];
for (int i = 0; i < bsize; i++)
sum[i + asize] = array_b[i];
_RETURN(sum);
}
DEFAULT_OP_NUM(math, OP_ADD, INT, +, _int);
DEFAULT_OP_NUM(math, OP_ADD, REAL, +, _real);
DEFAULT_OP_STR(math, OP_ADD, STRING, +, String);
DEFAULT_OP_LOCALMEM(math, OP_ADD, VECTOR2, +, Vector2);
DEFAULT_OP_LOCALMEM(math, OP_ADD, VECTOR3, +, Vector3);
DEFAULT_OP_LOCALMEM(math, OP_ADD, QUAT, +, Quat);
DEFAULT_OP_LOCALMEM(math, OP_ADD, COLOR, +, Color);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_BYTE_ARRAY, uint8_t);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_INT_ARRAY, int);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_REAL_ARRAY, real_t);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_STRING_ARRAY, String);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_VECTOR2_ARRAY, Vector2);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_VECTOR3_ARRAY, Vector3);
DEFAULT_OP_ARRAY_ADD(math, OP_ADD, POOL_COLOR_ARRAY, Color);
CASE_TYPE(math, OP_ADD, NIL)
CASE_TYPE(math, OP_ADD, BOOL)
CASE_TYPE(math, OP_ADD, RECT2)
CASE_TYPE(math, OP_ADD, TRANSFORM2D)
CASE_TYPE(math, OP_ADD, PLANE)
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CASE_TYPE(math, OP_ADD, AABB)
CASE_TYPE(math, OP_ADD, BASIS)
CASE_TYPE(math, OP_ADD, TRANSFORM)
CASE_TYPE(math, OP_ADD, NODE_PATH)
CASE_TYPE(math, OP_ADD, _RID)
CASE_TYPE(math, OP_ADD, OBJECT)
CASE_TYPE(math, OP_ADD, DICTIONARY)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_SUBTRACT, p_a.type) {
DEFAULT_OP_NUM(math, OP_SUBTRACT, INT, -, _int);
DEFAULT_OP_NUM(math, OP_SUBTRACT, REAL, -, _real);
DEFAULT_OP_LOCALMEM(math, OP_SUBTRACT, VECTOR2, -, Vector2);
DEFAULT_OP_LOCALMEM(math, OP_SUBTRACT, VECTOR3, -, Vector3);
DEFAULT_OP_LOCALMEM(math, OP_SUBTRACT, QUAT, -, Quat);
DEFAULT_OP_LOCALMEM(math, OP_SUBTRACT, COLOR, -, Color);
CASE_TYPE(math, OP_SUBTRACT, NIL)
CASE_TYPE(math, OP_SUBTRACT, BOOL)
CASE_TYPE(math, OP_SUBTRACT, STRING)
CASE_TYPE(math, OP_SUBTRACT, RECT2)
CASE_TYPE(math, OP_SUBTRACT, TRANSFORM2D)
CASE_TYPE(math, OP_SUBTRACT, PLANE)
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CASE_TYPE(math, OP_SUBTRACT, AABB)
CASE_TYPE(math, OP_SUBTRACT, BASIS)
CASE_TYPE(math, OP_SUBTRACT, TRANSFORM)
CASE_TYPE(math, OP_SUBTRACT, NODE_PATH)
CASE_TYPE(math, OP_SUBTRACT, _RID)
CASE_TYPE(math, OP_SUBTRACT, OBJECT)
CASE_TYPE(math, OP_SUBTRACT, DICTIONARY)
CASE_TYPE(math, OP_SUBTRACT, ARRAY)
CASE_TYPE(math, OP_SUBTRACT, POOL_BYTE_ARRAY);
CASE_TYPE(math, OP_SUBTRACT, POOL_INT_ARRAY);
CASE_TYPE(math, OP_SUBTRACT, POOL_REAL_ARRAY);
CASE_TYPE(math, OP_SUBTRACT, POOL_STRING_ARRAY);
CASE_TYPE(math, OP_SUBTRACT, POOL_VECTOR2_ARRAY);
CASE_TYPE(math, OP_SUBTRACT, POOL_VECTOR3_ARRAY);
CASE_TYPE(math, OP_SUBTRACT, POOL_COLOR_ARRAY);
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_MULTIPLY, p_a.type) {
CASE_TYPE(math, OP_MULTIPLY, TRANSFORM2D) {
switch (p_b.type) {
case TRANSFORM2D: {
_RETURN(*p_a._data._transform2d * *p_b._data._transform2d);
}
case VECTOR2: {
_RETURN(p_a._data._transform2d->xform(*(const Vector2 *)p_b._data._mem));
}
default: _RETURN_FAIL;
}
}
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CASE_TYPE(math, OP_MULTIPLY, QUAT) {
switch (p_b.type) {
case VECTOR3: {
_RETURN(reinterpret_cast<const Quat *>(p_a._data._mem)->xform(*(const Vector3 *)p_b._data._mem));
}
case QUAT: {
_RETURN(*reinterpret_cast<const Quat *>(p_a._data._mem) * *reinterpret_cast<const Quat *>(p_b._data._mem));
}
case REAL: {
_RETURN(*reinterpret_cast<const Quat *>(p_a._data._mem) * p_b._data._real);
}
default: _RETURN_FAIL;
}
}
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CASE_TYPE(math, OP_MULTIPLY, BASIS) {
switch (p_b.type) {
case VECTOR3: {
_RETURN(p_a._data._basis->xform(*(const Vector3 *)p_b._data._mem));
}
case BASIS: {
_RETURN(*p_a._data._basis * *p_b._data._basis);
}
default: _RETURN_FAIL;
}
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}
CASE_TYPE(math, OP_MULTIPLY, TRANSFORM) {
switch (p_b.type) {
case VECTOR3: {
_RETURN(p_a._data._transform->xform(*(const Vector3 *)p_b._data._mem));
}
case TRANSFORM: {
_RETURN(*p_a._data._transform * *p_b._data._transform);
}
default: _RETURN_FAIL;
}
}
2014-02-10 02:10:30 +01:00
DEFAULT_OP_NUM_VEC(math, OP_MULTIPLY, INT, *, _int);
DEFAULT_OP_NUM_VEC(math, OP_MULTIPLY, REAL, *, _real);
DEFAULT_OP_LOCALMEM_NUM(math, OP_MULTIPLY, VECTOR2, *, Vector2);
DEFAULT_OP_LOCALMEM_NUM(math, OP_MULTIPLY, VECTOR3, *, Vector3);
DEFAULT_OP_LOCALMEM_NUM(math, OP_MULTIPLY, COLOR, *, Color);
CASE_TYPE(math, OP_MULTIPLY, NIL)
CASE_TYPE(math, OP_MULTIPLY, BOOL)
CASE_TYPE(math, OP_MULTIPLY, STRING)
CASE_TYPE(math, OP_MULTIPLY, RECT2)
CASE_TYPE(math, OP_MULTIPLY, PLANE)
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CASE_TYPE(math, OP_MULTIPLY, AABB)
CASE_TYPE(math, OP_MULTIPLY, NODE_PATH)
CASE_TYPE(math, OP_MULTIPLY, _RID)
CASE_TYPE(math, OP_MULTIPLY, OBJECT)
CASE_TYPE(math, OP_MULTIPLY, DICTIONARY)
CASE_TYPE(math, OP_MULTIPLY, ARRAY)
CASE_TYPE(math, OP_MULTIPLY, POOL_BYTE_ARRAY);
CASE_TYPE(math, OP_MULTIPLY, POOL_INT_ARRAY);
CASE_TYPE(math, OP_MULTIPLY, POOL_REAL_ARRAY);
CASE_TYPE(math, OP_MULTIPLY, POOL_STRING_ARRAY);
CASE_TYPE(math, OP_MULTIPLY, POOL_VECTOR2_ARRAY);
CASE_TYPE(math, OP_MULTIPLY, POOL_VECTOR3_ARRAY);
CASE_TYPE(math, OP_MULTIPLY, POOL_COLOR_ARRAY);
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_DIVIDE, p_a.type) {
CASE_TYPE(math, OP_DIVIDE, QUAT) {
if (p_b.type != REAL)
_RETURN_FAIL;
#ifdef DEBUG_ENABLED
if (p_b._data._real == 0) {
r_valid = false;
_RETURN("Division By Zero");
}
#endif
_RETURN(*reinterpret_cast<const Quat *>(p_a._data._mem) / p_b._data._real);
}
DEFAULT_OP_NUM_DIV(math, OP_DIVIDE, INT, _int);
DEFAULT_OP_NUM_DIV(math, OP_DIVIDE, REAL, _real);
DEFAULT_OP_LOCALMEM_NUM(math, OP_DIVIDE, VECTOR2, /, Vector2);
DEFAULT_OP_LOCALMEM_NUM(math, OP_DIVIDE, VECTOR3, /, Vector3);
DEFAULT_OP_LOCALMEM_NUM(math, OP_DIVIDE, COLOR, /, Color);
CASE_TYPE(math, OP_DIVIDE, NIL)
CASE_TYPE(math, OP_DIVIDE, BOOL)
CASE_TYPE(math, OP_DIVIDE, STRING)
CASE_TYPE(math, OP_DIVIDE, RECT2)
CASE_TYPE(math, OP_DIVIDE, TRANSFORM2D)
CASE_TYPE(math, OP_DIVIDE, PLANE)
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CASE_TYPE(math, OP_DIVIDE, AABB)
CASE_TYPE(math, OP_DIVIDE, BASIS)
CASE_TYPE(math, OP_DIVIDE, TRANSFORM)
CASE_TYPE(math, OP_DIVIDE, NODE_PATH)
CASE_TYPE(math, OP_DIVIDE, _RID)
CASE_TYPE(math, OP_DIVIDE, OBJECT)
CASE_TYPE(math, OP_DIVIDE, DICTIONARY)
CASE_TYPE(math, OP_DIVIDE, ARRAY)
CASE_TYPE(math, OP_DIVIDE, POOL_BYTE_ARRAY);
CASE_TYPE(math, OP_DIVIDE, POOL_INT_ARRAY);
CASE_TYPE(math, OP_DIVIDE, POOL_REAL_ARRAY);
CASE_TYPE(math, OP_DIVIDE, POOL_STRING_ARRAY);
CASE_TYPE(math, OP_DIVIDE, POOL_VECTOR2_ARRAY);
CASE_TYPE(math, OP_DIVIDE, POOL_VECTOR3_ARRAY);
CASE_TYPE(math, OP_DIVIDE, POOL_COLOR_ARRAY);
_RETURN_FAIL;
}
SWITCH_OP(math, OP_POSITIVE, p_a.type) {
DEFAULT_OP_NUM_POS(math, OP_POSITIVE, INT, _int);
DEFAULT_OP_NUM_POS(math, OP_POSITIVE, REAL, _real);
DEFAULT_OP_LOCALMEM_POS(math, OP_POSITIVE, VECTOR3, Vector3);
DEFAULT_OP_LOCALMEM_POS(math, OP_POSITIVE, PLANE, Plane);
DEFAULT_OP_LOCALMEM_POS(math, OP_POSITIVE, QUAT, Quat);
DEFAULT_OP_LOCALMEM_POS(math, OP_POSITIVE, VECTOR2, Vector2);
CASE_TYPE(math, OP_POSITIVE, NIL)
CASE_TYPE(math, OP_POSITIVE, BOOL)
CASE_TYPE(math, OP_POSITIVE, STRING)
CASE_TYPE(math, OP_POSITIVE, RECT2)
CASE_TYPE(math, OP_POSITIVE, TRANSFORM2D)
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CASE_TYPE(math, OP_POSITIVE, AABB)
CASE_TYPE(math, OP_POSITIVE, BASIS)
CASE_TYPE(math, OP_POSITIVE, TRANSFORM)
CASE_TYPE(math, OP_POSITIVE, COLOR)
CASE_TYPE(math, OP_POSITIVE, NODE_PATH)
CASE_TYPE(math, OP_POSITIVE, _RID)
CASE_TYPE(math, OP_POSITIVE, OBJECT)
CASE_TYPE(math, OP_POSITIVE, DICTIONARY)
CASE_TYPE(math, OP_POSITIVE, ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_BYTE_ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_INT_ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_REAL_ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_STRING_ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_VECTOR2_ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_VECTOR3_ARRAY)
CASE_TYPE(math, OP_POSITIVE, POOL_COLOR_ARRAY)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_NEGATE, p_a.type) {
DEFAULT_OP_NUM_NEG(math, OP_NEGATE, INT, _int);
DEFAULT_OP_NUM_NEG(math, OP_NEGATE, REAL, _real);
DEFAULT_OP_LOCALMEM_NEG(math, OP_NEGATE, VECTOR2, Vector2);
DEFAULT_OP_LOCALMEM_NEG(math, OP_NEGATE, VECTOR3, Vector3);
DEFAULT_OP_LOCALMEM_NEG(math, OP_NEGATE, PLANE, Plane);
DEFAULT_OP_LOCALMEM_NEG(math, OP_NEGATE, QUAT, Quat);
DEFAULT_OP_LOCALMEM_NEG(math, OP_NEGATE, COLOR, Color);
CASE_TYPE(math, OP_NEGATE, NIL)
CASE_TYPE(math, OP_NEGATE, BOOL)
CASE_TYPE(math, OP_NEGATE, STRING)
CASE_TYPE(math, OP_NEGATE, RECT2)
CASE_TYPE(math, OP_NEGATE, TRANSFORM2D)
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CASE_TYPE(math, OP_NEGATE, AABB)
CASE_TYPE(math, OP_NEGATE, BASIS)
CASE_TYPE(math, OP_NEGATE, TRANSFORM)
CASE_TYPE(math, OP_NEGATE, NODE_PATH)
CASE_TYPE(math, OP_NEGATE, _RID)
CASE_TYPE(math, OP_NEGATE, OBJECT)
CASE_TYPE(math, OP_NEGATE, DICTIONARY)
CASE_TYPE(math, OP_NEGATE, ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_BYTE_ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_INT_ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_REAL_ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_STRING_ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_VECTOR2_ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_VECTOR3_ARRAY)
CASE_TYPE(math, OP_NEGATE, POOL_COLOR_ARRAY)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_MODULE, p_a.type) {
CASE_TYPE(math, OP_MODULE, INT) {
if (p_b.type != INT)
_RETURN_FAIL;
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#ifdef DEBUG_ENABLED
if (p_b._data._int == 0) {
r_valid = false;
_RETURN("Division By Zero");
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}
#endif
_RETURN(p_a._data._int % p_b._data._int);
}
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CASE_TYPE(math, OP_MODULE, STRING) {
const String *format = reinterpret_cast<const String *>(p_a._data._mem);
String result;
bool error;
if (p_b.type == ARRAY) {
// e.g. "frog %s %d" % ["fish", 12]
const Array *args = reinterpret_cast<const Array *>(p_b._data._mem);
result = format->sprintf(*args, &error);
} else {
// e.g. "frog %d" % 12
Array args;
args.push_back(p_b);
result = format->sprintf(args, &error);
}
r_valid = !error;
_RETURN(result);
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}
CASE_TYPE(math, OP_MODULE, NIL)
CASE_TYPE(math, OP_MODULE, BOOL)
CASE_TYPE(math, OP_MODULE, REAL)
CASE_TYPE(math, OP_MODULE, VECTOR2)
CASE_TYPE(math, OP_MODULE, RECT2)
CASE_TYPE(math, OP_MODULE, VECTOR3)
CASE_TYPE(math, OP_MODULE, TRANSFORM2D)
CASE_TYPE(math, OP_MODULE, PLANE)
CASE_TYPE(math, OP_MODULE, QUAT)
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CASE_TYPE(math, OP_MODULE, AABB)
CASE_TYPE(math, OP_MODULE, BASIS)
CASE_TYPE(math, OP_MODULE, TRANSFORM)
CASE_TYPE(math, OP_MODULE, COLOR)
CASE_TYPE(math, OP_MODULE, NODE_PATH)
CASE_TYPE(math, OP_MODULE, _RID)
CASE_TYPE(math, OP_MODULE, OBJECT)
CASE_TYPE(math, OP_MODULE, DICTIONARY)
CASE_TYPE(math, OP_MODULE, ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_BYTE_ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_INT_ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_REAL_ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_STRING_ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_VECTOR2_ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_VECTOR3_ARRAY)
CASE_TYPE(math, OP_MODULE, POOL_COLOR_ARRAY)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_STRING_CONCAT, p_a.type) {
CASE_TYPE_ALL(math, OP_STRING_CONCAT)
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_RETURN(p_a.operator String() + p_b.operator String());
}
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SWITCH_OP(math, OP_SHIFT_LEFT, p_a.type) {
CASE_TYPE(math, OP_SHIFT_LEFT, INT) {
if (p_b.type != INT)
_RETURN_FAIL;
if (p_b._data._int < 0 || p_b._data._int >= 64)
_RETURN_FAIL;
_RETURN(p_a._data._int << p_b._data._int);
}
CASE_TYPE_ALL_BUT_INT(math, OP_SHIFT_LEFT)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_SHIFT_RIGHT, p_a.type) {
CASE_TYPE(math, OP_SHIFT_RIGHT, INT) {
if (p_b.type != INT)
_RETURN_FAIL;
if (p_b._data._int < 0 || p_b._data._int >= 64)
_RETURN_FAIL;
_RETURN(p_a._data._int >> p_b._data._int);
}
CASE_TYPE_ALL_BUT_INT(math, OP_SHIFT_RIGHT)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_BIT_AND, p_a.type) {
CASE_TYPE(math, OP_BIT_AND, INT) {
if (p_b.type != INT)
_RETURN_FAIL;
_RETURN(p_a._data._int & p_b._data._int);
}
CASE_TYPE_ALL_BUT_INT(math, OP_BIT_AND)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_BIT_OR, p_a.type) {
CASE_TYPE(math, OP_BIT_OR, INT) {
if (p_b.type != INT)
_RETURN_FAIL;
_RETURN(p_a._data._int | p_b._data._int);
}
CASE_TYPE_ALL_BUT_INT(math, OP_BIT_OR)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_BIT_XOR, p_a.type) {
CASE_TYPE(math, OP_BIT_XOR, INT) {
if (p_b.type != INT)
_RETURN_FAIL;
_RETURN(p_a._data._int ^ p_b._data._int);
}
CASE_TYPE_ALL_BUT_INT(math, OP_BIT_XOR)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_BIT_NEGATE, p_a.type) {
CASE_TYPE(math, OP_BIT_NEGATE, INT) {
_RETURN(~p_a._data._int);
}
CASE_TYPE_ALL_BUT_INT(math, OP_BIT_NEGATE)
_RETURN_FAIL;
}
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SWITCH_OP(math, OP_AND, p_a.type) {
CASE_TYPE_ALL(math, OP_AND) {
bool l = p_a.booleanize();
bool r = p_b.booleanize();
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_RETURN(l && r);
}
}
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SWITCH_OP(math, OP_OR, p_a.type) {
CASE_TYPE_ALL(math, OP_OR) {
bool l = p_a.booleanize();
bool r = p_b.booleanize();
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_RETURN(l || r);
}
}
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SWITCH_OP(math, OP_XOR, p_a.type) {
CASE_TYPE_ALL(math, OP_XOR) {
bool l = p_a.booleanize();
bool r = p_b.booleanize();
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_RETURN((l || r) && !(l && r));
}
}
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SWITCH_OP(math, OP_NOT, p_a.type) {
CASE_TYPE_ALL(math, OP_NOT) {
bool l = p_a.booleanize();
_RETURN(!l);
}
}
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SWITCH_OP(math, OP_IN, p_a.type) {
CASE_TYPE_ALL(math, OP_IN)
_RETURN(p_b.in(p_a, &r_valid));
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}
}
}
void Variant::set_named(const StringName &p_index, const Variant &p_value, bool *r_valid) {
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bool valid = false;
switch (type) {
case VECTOR2: {
if (p_value.type == Variant::INT) {
Vector2 *v = reinterpret_cast<Vector2 *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->x = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->y = p_value._data._int;
valid = true;
}
} else if (p_value.type == Variant::REAL) {
Vector2 *v = reinterpret_cast<Vector2 *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->x = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->y = p_value._data._real;
valid = true;
}
}
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} break;
case RECT2: {
if (p_value.type == Variant::VECTOR2) {
Rect2 *v = reinterpret_cast<Rect2 *>(_data._mem);
//scalar name
if (p_index == CoreStringNames::singleton->position) {
v->position = *reinterpret_cast<const Vector2 *>(p_value._data._mem);
valid = true;
} else if (p_index == CoreStringNames::singleton->size) {
v->size = *reinterpret_cast<const Vector2 *>(p_value._data._mem);
valid = true;
} else if (p_index == CoreStringNames::singleton->end) {
v->size = *reinterpret_cast<const Vector2 *>(p_value._data._mem) - v->position;
valid = true;
}
}
} break;
case TRANSFORM2D: {
if (p_value.type == Variant::VECTOR2) {
Transform2D *v = _data._transform2d;
if (p_index == CoreStringNames::singleton->x) {
v->elements[0] = *reinterpret_cast<const Vector2 *>(p_value._data._mem);
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->elements[1] = *reinterpret_cast<const Vector2 *>(p_value._data._mem);
valid = true;
} else if (p_index == CoreStringNames::singleton->origin) {
v->elements[2] = *reinterpret_cast<const Vector2 *>(p_value._data._mem);
valid = true;
}
}
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} break;
case VECTOR3: {
if (p_value.type == Variant::INT) {
Vector3 *v = reinterpret_cast<Vector3 *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->x = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->y = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->z = p_value._data._int;
valid = true;
}
} else if (p_value.type == Variant::REAL) {
Vector3 *v = reinterpret_cast<Vector3 *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->x = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->y = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->z = p_value._data._real;
valid = true;
}
}
} break;
case PLANE: {
if (p_value.type == Variant::INT) {
Plane *v = reinterpret_cast<Plane *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->normal.x = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->normal.y = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->normal.z = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->d) {
v->d = p_value._data._int;
valid = true;
}
} else if (p_value.type == Variant::REAL) {
Plane *v = reinterpret_cast<Plane *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->normal.x = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->normal.y = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->normal.z = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->d) {
v->d = p_value._data._real;
valid = true;
}
} else if (p_value.type == Variant::VECTOR3) {
Plane *v = reinterpret_cast<Plane *>(_data._mem);
if (p_index == CoreStringNames::singleton->normal) {
v->normal = *reinterpret_cast<const Vector3 *>(p_value._data._mem);
valid = true;
}
}
} break;
case QUAT: {
if (p_value.type == Variant::INT) {
Quat *v = reinterpret_cast<Quat *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->x = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->y = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->z = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->w) {
v->w = p_value._data._int;
valid = true;
}
} else if (p_value.type == Variant::REAL) {
Quat *v = reinterpret_cast<Quat *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
v->x = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->y = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->z = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->w) {
v->w = p_value._data._real;
valid = true;
}
}
} break; // 10
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case AABB: {
if (p_value.type == Variant::VECTOR3) {
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::AABB *v = _data._aabb;
//scalar name
if (p_index == CoreStringNames::singleton->position) {
v->position = *reinterpret_cast<const Vector3 *>(p_value._data._mem);
valid = true;
} else if (p_index == CoreStringNames::singleton->size) {
v->size = *reinterpret_cast<const Vector3 *>(p_value._data._mem);
valid = true;
} else if (p_index == CoreStringNames::singleton->end) {
v->size = *reinterpret_cast<const Vector3 *>(p_value._data._mem) - v->position;
valid = true;
}
}
} break;
case BASIS: {
if (p_value.type == Variant::VECTOR3) {
Basis *v = _data._basis;
//scalar name
if (p_index == CoreStringNames::singleton->x) {
v->set_axis(0, *reinterpret_cast<const Vector3 *>(p_value._data._mem));
valid = true;
} else if (p_index == CoreStringNames::singleton->y) {
v->set_axis(1, *reinterpret_cast<const Vector3 *>(p_value._data._mem));
valid = true;
} else if (p_index == CoreStringNames::singleton->z) {
v->set_axis(2, *reinterpret_cast<const Vector3 *>(p_value._data._mem));
valid = true;
}
}
} break;
case TRANSFORM: {
if (p_value.type == Variant::BASIS && p_index == CoreStringNames::singleton->basis) {
_data._transform->basis = *p_value._data._basis;
valid = true;
} else if (p_value.type == Variant::VECTOR3 && p_index == CoreStringNames::singleton->origin) {
_data._transform->origin = *reinterpret_cast<const Vector3 *>(p_value._data._mem);
valid = true;
}
} break;
case COLOR: {
if (p_value.type == Variant::INT) {
Color *v = reinterpret_cast<Color *>(_data._mem);
if (p_index == CoreStringNames::singleton->r) {
v->r = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->g) {
v->g = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->b) {
v->b = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->a) {
v->a = p_value._data._int;
valid = true;
} else if (p_index == CoreStringNames::singleton->r8) {
v->r = p_value._data._int / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->g8) {
v->g = p_value._data._int / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->b8) {
v->b = p_value._data._int / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->a8) {
v->a = p_value._data._int / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->h) {
v->set_hsv(p_value._data._int, v->get_s(), v->get_v(), v->a);
valid = true;
} else if (p_index == CoreStringNames::singleton->s) {
v->set_hsv(v->get_h(), p_value._data._int, v->get_v(), v->a);
valid = true;
} else if (p_index == CoreStringNames::singleton->v) {
v->set_hsv(v->get_h(), v->get_v(), p_value._data._int, v->a);
valid = true;
}
} else if (p_value.type == Variant::REAL) {
Color *v = reinterpret_cast<Color *>(_data._mem);
if (p_index == CoreStringNames::singleton->r) {
v->r = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->g) {
v->g = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->b) {
v->b = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->a) {
v->a = p_value._data._real;
valid = true;
} else if (p_index == CoreStringNames::singleton->r8) {
v->r = p_value._data._real / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->g8) {
v->g = p_value._data._real / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->b8) {
v->b = p_value._data._real / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->a8) {
v->a = p_value._data._real / 255.0;
valid = true;
} else if (p_index == CoreStringNames::singleton->h) {
v->set_hsv(p_value._data._real, v->get_s(), v->get_v(), v->a);
valid = true;
} else if (p_index == CoreStringNames::singleton->s) {
v->set_hsv(v->get_h(), p_value._data._real, v->get_v(), v->a);
valid = true;
} else if (p_index == CoreStringNames::singleton->v) {
v->set_hsv(v->get_h(), v->get_s(), p_value._data._real, v->a);
valid = true;
}
}
} break;
case OBJECT: {
#ifdef DEBUG_ENABLED
if (!_get_obj().obj) {
break;
} else if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null() && !ObjectDB::instance_validate(_get_obj().obj)) {
break;
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}
#endif
_get_obj().obj->set(p_index, p_value, &valid);
} break;
default: {
set(p_index.operator String(), p_value, &valid);
} break;
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}
if (r_valid) {
*r_valid = valid;
}
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}
Variant Variant::get_named(const StringName &p_index, bool *r_valid) const {
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if (r_valid) {
*r_valid = true;
}
switch (type) {
case VECTOR2: {
const Vector2 *v = reinterpret_cast<const Vector2 *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
return v->x;
} else if (p_index == CoreStringNames::singleton->y) {
return v->y;
}
2014-02-10 02:10:30 +01:00
} break;
case RECT2: {
const Rect2 *v = reinterpret_cast<const Rect2 *>(_data._mem);
//scalar name
if (p_index == CoreStringNames::singleton->position) {
return v->position;
} else if (p_index == CoreStringNames::singleton->size) {
return v->size;
} else if (p_index == CoreStringNames::singleton->end) {
return v->size + v->position;
}
} break;
case TRANSFORM2D: {
const Transform2D *v = _data._transform2d;
if (p_index == CoreStringNames::singleton->x) {
return v->elements[0];
} else if (p_index == CoreStringNames::singleton->y) {
return v->elements[1];
} else if (p_index == CoreStringNames::singleton->origin) {
return v->elements[2];
}
} break;
case VECTOR3: {
const Vector3 *v = reinterpret_cast<const Vector3 *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
return v->x;
} else if (p_index == CoreStringNames::singleton->y) {
return v->y;
} else if (p_index == CoreStringNames::singleton->z) {
return v->z;
}
} break;
case PLANE: {
const Plane *v = reinterpret_cast<const Plane *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
return v->normal.x;
} else if (p_index == CoreStringNames::singleton->y) {
return v->normal.y;
} else if (p_index == CoreStringNames::singleton->z) {
return v->normal.z;
} else if (p_index == CoreStringNames::singleton->d) {
return v->d;
} else if (p_index == CoreStringNames::singleton->normal) {
return v->normal;
}
} break;
case QUAT: {
const Quat *v = reinterpret_cast<const Quat *>(_data._mem);
if (p_index == CoreStringNames::singleton->x) {
return v->x;
} else if (p_index == CoreStringNames::singleton->y) {
return v->y;
} else if (p_index == CoreStringNames::singleton->z) {
return v->z;
} else if (p_index == CoreStringNames::singleton->w) {
return v->w;
}
} break; // 10
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case AABB: {
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const ::AABB *v = _data._aabb;
//scalar name
if (p_index == CoreStringNames::singleton->position) {
return v->position;
} else if (p_index == CoreStringNames::singleton->size) {
return v->size;
} else if (p_index == CoreStringNames::singleton->end) {
return v->size + v->position;
}
} break;
case BASIS: {
const Basis *v = _data._basis;
//scalar name
if (p_index == CoreStringNames::singleton->x) {
return v->get_axis(0);
} else if (p_index == CoreStringNames::singleton->y) {
return v->get_axis(1);
} else if (p_index == CoreStringNames::singleton->z) {
return v->get_axis(2);
}
} break;
case TRANSFORM: {
if (p_index == CoreStringNames::singleton->basis) {
return _data._transform->basis;
} else if (p_index == CoreStringNames::singleton->origin) {
return _data._transform->origin;
}
} break;
case COLOR: {
const Color *v = reinterpret_cast<const Color *>(_data._mem);
if (p_index == CoreStringNames::singleton->r) {
return v->r;
} else if (p_index == CoreStringNames::singleton->g) {
return v->g;
} else if (p_index == CoreStringNames::singleton->b) {
return v->b;
} else if (p_index == CoreStringNames::singleton->a) {
return v->a;
} else if (p_index == CoreStringNames::singleton->r8) {
return int(Math::round(v->r * 255.0));
} else if (p_index == CoreStringNames::singleton->g8) {
return int(Math::round(v->g * 255.0));
} else if (p_index == CoreStringNames::singleton->b8) {
return int(Math::round(v->b * 255.0));
} else if (p_index == CoreStringNames::singleton->a8) {
return int(Math::round(v->a * 255.0));
} else if (p_index == CoreStringNames::singleton->h) {
return v->get_h();
} else if (p_index == CoreStringNames::singleton->s) {
return v->get_s();
} else if (p_index == CoreStringNames::singleton->v) {
return v->get_v();
}
} break;
case OBJECT: {
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#ifdef DEBUG_ENABLED
if (!_get_obj().obj) {
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if (r_valid)
*r_valid = false;
return "Instance base is null.";
} else {
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null() && !ObjectDB::instance_validate(_get_obj().obj)) {
if (r_valid)
*r_valid = false;
return "Attempted use of stray pointer object.";
}
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}
#endif
return _get_obj().obj->get(p_index, r_valid);
} break;
default: {
return get(p_index.operator String(), r_valid);
}
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}
if (r_valid) {
*r_valid = false;
}
return Variant();
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}
#define DEFAULT_OP_ARRAY_CMD(m_name, m_type, skip_test, cmd) \
case m_name: { \
skip_test; \
\
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) { \
int index = p_index; \
m_type *arr = reinterpret_cast<m_type *>(_data._mem); \
\
if (index < 0) \
index += arr->size(); \
if (index >= 0 && index < arr->size()) { \
valid = true; \
cmd; \
} \
} \
} break;
#define DEFAULT_OP_DVECTOR_SET(m_name, dv_type, skip_cond) \
DEFAULT_OP_ARRAY_CMD(m_name, PoolVector<dv_type>, if (skip_cond) return;, arr->set(index, p_value); return )
#define DEFAULT_OP_DVECTOR_GET(m_name, dv_type) \
DEFAULT_OP_ARRAY_CMD(m_name, const PoolVector<dv_type>, ;, return arr->get(index))
void Variant::set(const Variant &p_index, const Variant &p_value, bool *r_valid) {
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static bool _dummy = false;
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bool &valid = r_valid ? *r_valid : _dummy;
valid = false;
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switch (type) {
case NIL: {
return;
} break;
case BOOL: {
return;
} break;
case INT: {
return;
} break;
case REAL: {
return;
} break;
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case STRING: {
if (p_index.type != Variant::INT && p_index.type != Variant::REAL)
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return;
int idx = p_index;
String *str = reinterpret_cast<String *>(_data._mem);
int len = str->length();
if (idx < 0)
idx += len;
if (idx < 0 || idx >= len)
return;
String chr;
if (p_value.type == Variant::INT || p_value.type == Variant::REAL) {
chr = String::chr(p_value);
} else if (p_value.type == Variant::STRING) {
chr = p_value;
} else {
return;
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}
*str = str->substr(0, idx) + chr + str->substr(idx + 1, len);
valid = true;
return;
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} break;
case VECTOR2: {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
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return;
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
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// scalar index
int idx = p_index;
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if (idx < 0)
idx += 2;
if (idx >= 0 && idx < 2) {
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Vector2 *v = reinterpret_cast<Vector2 *>(_data._mem);
valid = true;
(*v)[idx] = p_value;
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return;
}
} else if (p_index.get_type() == Variant::STRING) {
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//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Vector2 *v = reinterpret_cast<Vector2 *>(_data._mem);
if (*str == "x") {
valid = true;
v->x = p_value;
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return;
} else if (*str == "y") {
valid = true;
v->y = p_value;
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return;
}
}
} break; // 5
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case RECT2: {
if (p_value.type != Variant::VECTOR2)
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return;
if (p_index.get_type() == Variant::STRING) {
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//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Rect2 *v = reinterpret_cast<Rect2 *>(_data._mem);
if (*str == "position") {
valid = true;
v->position = p_value;
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return;
} else if (*str == "size") {
valid = true;
v->size = p_value;
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return;
} else if (*str == "end") {
valid = true;
v->size = Vector2(p_value) - v->position;
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return;
}
}
} break;
case TRANSFORM2D: {
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if (p_value.type != Variant::VECTOR2)
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return;
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
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int index = p_index;
if (index < 0)
index += 3;
if (index >= 0 && index < 3) {
Transform2D *v = _data._transform2d;
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valid = true;
v->elements[index] = p_value;
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return;
}
} else if (p_index.get_type() == Variant::STRING && p_value.get_type() == Variant::VECTOR2) {
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//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Transform2D *v = _data._transform2d;
if (*str == "x") {
valid = true;
v->elements[0] = p_value;
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return;
} else if (*str == "y") {
valid = true;
v->elements[1] = p_value;
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return;
} else if (*str == "origin") {
valid = true;
v->elements[2] = p_value;
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return;
}
}
} break;
case VECTOR3: {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
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return;
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
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//scalar index
int idx = p_index;
if (idx < 0)
idx += 3;
if (idx >= 0 && idx < 3) {
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Vector3 *v = reinterpret_cast<Vector3 *>(_data._mem);
valid = true;
(*v)[idx] = p_value;
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return;
}
} else if (p_index.get_type() == Variant::STRING) {
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//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Vector3 *v = reinterpret_cast<Vector3 *>(_data._mem);
if (*str == "x") {
valid = true;
v->x = p_value;
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return;
} else if (*str == "y") {
valid = true;
v->y = p_value;
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return;
} else if (*str == "z") {
valid = true;
v->z = p_value;
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return;
}
}
} break;
case PLANE: {
if (p_index.get_type() == Variant::STRING) {
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//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Plane *v = reinterpret_cast<Plane *>(_data._mem);
if (*str == "x") {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
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return;
valid = true;
v->normal.x = p_value;
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return;
} else if (*str == "y") {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
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return;
valid = true;
v->normal.y = p_value;
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return;
} else if (*str == "z") {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
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return;
valid = true;
v->normal.z = p_value;
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return;
} else if (*str == "normal") {
if (p_value.type != Variant::VECTOR3)
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return;
valid = true;
v->normal = p_value;
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return;
} else if (*str == "d") {
valid = true;
v->d = p_value;
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return;
}
}
} break;
case QUAT: {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
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return;
if (p_index.get_type() == Variant::STRING) {
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const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Quat *v = reinterpret_cast<Quat *>(_data._mem);
if (*str == "x") {
valid = true;
v->x = p_value;
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return;
} else if (*str == "y") {
valid = true;
v->y = p_value;
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return;
} else if (*str == "z") {
valid = true;
v->z = p_value;
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return;
} else if (*str == "w") {
valid = true;
v->w = p_value;
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return;
}
}
} break; // 10
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case AABB: {
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if (p_value.type != Variant::VECTOR3)
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return;
if (p_index.get_type() == Variant::STRING) {
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//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
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::AABB *v = _data._aabb;
if (*str == "position") {
valid = true;
v->position = p_value;
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return;
} else if (*str == "size") {
valid = true;
v->size = p_value;
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return;
} else if (*str == "end") {
valid = true;
v->size = Vector3(p_value) - v->position;
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return;
}
}
} break;
case BASIS: {
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if (p_value.type != Variant::VECTOR3)
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return;
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
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int index = p_index;
if (index < 0)
index += 3;
if (index >= 0 && index < 3) {
Basis *v = _data._basis;
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valid = true;
v->set_axis(index, p_value);
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return;
}
} else if (p_index.get_type() == Variant::STRING) {
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Basis *v = _data._basis;
if (*str == "x") {
valid = true;
v->set_axis(0, p_value);
return;
} else if (*str == "y") {
valid = true;
v->set_axis(1, p_value);
return;
} else if (*str == "z") {
valid = true;
v->set_axis(2, p_value);
return;
}
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}
} break;
case TRANSFORM: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
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if (p_value.type != Variant::VECTOR3)
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return;
int index = p_index;
if (index < 0)
index += 4;
if (index >= 0 && index < 4) {
Transform *v = _data._transform;
valid = true;
if (index == 3)
v->origin = p_value;
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else
v->basis.set_axis(index, p_value);
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return;
}
} else if (p_index.get_type() == Variant::STRING) {
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Transform *v = _data._transform;
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
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if (*str == "basis") {
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if (p_value.type != Variant::BASIS)
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return;
valid = true;
v->basis = p_value;
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return;
}
if (*str == "origin") {
if (p_value.type != Variant::VECTOR3)
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return;
valid = true;
v->origin = p_value;
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return;
}
}
} break;
case COLOR: {
if (p_value.type != Variant::INT && p_value.type != Variant::REAL)
2014-02-10 02:10:30 +01:00
return;
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
Color *v = reinterpret_cast<Color *>(_data._mem);
if (*str == "r") {
valid = true;
v->r = p_value;
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return;
} else if (*str == "g") {
valid = true;
v->g = p_value;
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return;
} else if (*str == "b") {
valid = true;
v->b = p_value;
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return;
} else if (*str == "a") {
valid = true;
v->a = p_value;
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return;
} else if (*str == "h") {
valid = true;
v->set_hsv(p_value, v->get_s(), v->get_v(), v->a);
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return;
} else if (*str == "s") {
valid = true;
v->set_hsv(v->get_h(), p_value, v->get_v(), v->a);
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return;
} else if (*str == "v") {
valid = true;
v->set_hsv(v->get_h(), v->get_s(), p_value, v->a);
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return;
} else if (*str == "r8") {
valid = true;
v->r = float(p_value) / 255.0;
return;
} else if (*str == "g8") {
valid = true;
v->g = float(p_value) / 255.0;
return;
} else if (*str == "b8") {
valid = true;
v->b = float(p_value) / 255.0;
return;
} else if (*str == "a8") {
valid = true;
v->a = float(p_value) / 255.0;
return;
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}
} else if (p_index.get_type() == Variant::INT) {
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int idx = p_index;
if (idx < 0)
idx += 4;
if (idx >= 0 && idx < 4) {
Color *v = reinterpret_cast<Color *>(_data._mem);
(*v)[idx] = p_value;
valid = true;
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}
}
} break;
case NODE_PATH: {
} break; // 15
case _RID: {
} break;
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case OBJECT: {
Object *obj = _get_obj().obj;
//only if debugging!
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if (obj) {
#ifdef DEBUG_ENABLED
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null()) {
if (!ObjectDB::instance_validate(obj)) {
WARN_PRINT("Attempted use of stray pointer object.");
valid = false;
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return;
}
}
#endif
if (p_index.get_type() != Variant::STRING) {
obj->setvar(p_index, p_value, r_valid);
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return;
}
obj->set(p_index, p_value, r_valid);
return;
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}
} break;
case DICTIONARY: {
Dictionary *dic = reinterpret_cast<Dictionary *>(_data._mem);
dic->operator[](p_index) = p_value;
valid = true; //always valid, i guess? should this really be ok?
2014-02-10 02:10:30 +01:00
return;
} break;
DEFAULT_OP_ARRAY_CMD(ARRAY, Array, ;, (*arr)[index] = p_value; return ) // 20
DEFAULT_OP_DVECTOR_SET(POOL_BYTE_ARRAY, uint8_t, p_value.type != Variant::REAL && p_value.type != Variant::INT)
DEFAULT_OP_DVECTOR_SET(POOL_INT_ARRAY, int, p_value.type != Variant::REAL && p_value.type != Variant::INT)
DEFAULT_OP_DVECTOR_SET(POOL_REAL_ARRAY, real_t, p_value.type != Variant::REAL && p_value.type != Variant::INT)
DEFAULT_OP_DVECTOR_SET(POOL_STRING_ARRAY, String, p_value.type != Variant::STRING)
DEFAULT_OP_DVECTOR_SET(POOL_VECTOR2_ARRAY, Vector2, p_value.type != Variant::VECTOR2) // 25
DEFAULT_OP_DVECTOR_SET(POOL_VECTOR3_ARRAY, Vector3, p_value.type != Variant::VECTOR3)
DEFAULT_OP_DVECTOR_SET(POOL_COLOR_ARRAY, Color, p_value.type != Variant::COLOR)
default:
return;
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}
}
Variant Variant::get(const Variant &p_index, bool *r_valid) const {
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static bool _dummy = false;
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bool &valid = r_valid ? *r_valid : _dummy;
valid = false;
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switch (type) {
case NIL: {
return Variant();
} break;
case BOOL: {
return Variant();
} break;
case INT: {
return Variant();
} break;
case REAL: {
return Variant();
} break;
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case STRING: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
//string index
int idx = p_index;
const String *str = reinterpret_cast<const String *>(_data._mem);
if (idx < 0)
idx += str->length();
if (idx >= 0 && idx < str->length()) {
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valid = true;
return str->substr(idx, 1);
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}
}
} break;
case VECTOR2: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
// scalar index
int idx = p_index;
if (idx < 0)
idx += 2;
if (idx >= 0 && idx < 2) {
2014-02-10 02:10:30 +01:00
const Vector2 *v = reinterpret_cast<const Vector2 *>(_data._mem);
valid = true;
2014-02-10 02:10:30 +01:00
return (*v)[idx];
}
} else if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Vector2 *v = reinterpret_cast<const Vector2 *>(_data._mem);
if (*str == "x") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->x;
} else if (*str == "y") {
valid = true;
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return v->y;
}
}
} break; // 5
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case RECT2: {
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Rect2 *v = reinterpret_cast<const Rect2 *>(_data._mem);
if (*str == "position") {
valid = true;
return v->position;
} else if (*str == "size") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->size;
} else if (*str == "end") {
valid = true;
return v->size + v->position;
2014-02-10 02:10:30 +01:00
}
}
} break;
case VECTOR3: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
//scalar index
int idx = p_index;
if (idx < 0)
idx += 3;
if (idx >= 0 && idx < 3) {
2014-02-10 02:10:30 +01:00
const Vector3 *v = reinterpret_cast<const Vector3 *>(_data._mem);
valid = true;
2014-02-10 02:10:30 +01:00
return (*v)[idx];
}
} else if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Vector3 *v = reinterpret_cast<const Vector3 *>(_data._mem);
if (*str == "x") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->x;
} else if (*str == "y") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->y;
} else if (*str == "z") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->z;
}
}
} break;
case TRANSFORM2D: {
2014-02-10 02:10:30 +01:00
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
int index = p_index;
if (index < 0)
index += 3;
if (index >= 0 && index < 3) {
const Transform2D *v = _data._transform2d;
2014-02-10 02:10:30 +01:00
valid = true;
2014-02-10 02:10:30 +01:00
return v->elements[index];
}
} else if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Transform2D *v = _data._transform2d;
if (*str == "x") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->elements[0];
} else if (*str == "y") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->elements[1];
} else if (*str == "origin") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->elements[2];
}
}
} break;
case PLANE: {
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Plane *v = reinterpret_cast<const Plane *>(_data._mem);
if (*str == "x") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->normal.x;
} else if (*str == "y") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->normal.y;
} else if (*str == "z") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->normal.z;
} else if (*str == "normal") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->normal;
} else if (*str == "d") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->d;
}
}
} break;
case QUAT: {
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Quat *v = reinterpret_cast<const Quat *>(_data._mem);
if (*str == "x") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->x;
} else if (*str == "y") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->y;
} else if (*str == "z") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->z;
} else if (*str == "w") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->w;
}
}
} break; // 10
2017-11-17 03:09:00 +01:00
case AABB: {
2014-02-10 02:10:30 +01:00
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//scalar name
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
2017-11-17 03:09:00 +01:00
const ::AABB *v = _data._aabb;
if (*str == "position") {
valid = true;
return v->position;
} else if (*str == "size") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->size;
} else if (*str == "end") {
valid = true;
return v->size + v->position;
2014-02-10 02:10:30 +01:00
}
}
} break;
case BASIS: {
2014-02-10 02:10:30 +01:00
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
int index = p_index;
if (index < 0)
index += 3;
if (index >= 0 && index < 3) {
const Basis *v = _data._basis;
2014-02-10 02:10:30 +01:00
valid = true;
2014-02-10 02:10:30 +01:00
return v->get_axis(index);
}
} else if (p_index.get_type() == Variant::STRING) {
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Basis *v = _data._basis;
if (*str == "x") {
valid = true;
return v->get_axis(0);
} else if (*str == "y") {
valid = true;
return v->get_axis(1);
} else if (*str == "z") {
valid = true;
return v->get_axis(2);
}
2014-02-10 02:10:30 +01:00
}
} break;
case TRANSFORM: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
int index = p_index;
if (index < 0)
index += 4;
if (index >= 0 && index < 4) {
const Transform *v = _data._transform;
valid = true;
return index == 3 ? v->origin : v->basis.get_axis(index);
2014-02-10 02:10:30 +01:00
}
} else if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
const Transform *v = _data._transform;
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
2014-02-10 02:10:30 +01:00
if (*str == "basis") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->basis;
}
if (*str == "origin") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->origin;
}
}
} break;
case COLOR: {
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
const String *str = reinterpret_cast<const String *>(p_index._data._mem);
const Color *v = reinterpret_cast<const Color *>(_data._mem);
if (*str == "r") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->r;
} else if (*str == "g") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->g;
} else if (*str == "b") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->b;
} else if (*str == "a") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->a;
} else if (*str == "h") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->get_h();
} else if (*str == "s") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->get_s();
} else if (*str == "v") {
valid = true;
2014-02-10 02:10:30 +01:00
return v->get_v();
} else if (*str == "r8") {
valid = true;
return (int)Math::round(v->r * 255.0);
} else if (*str == "g8") {
valid = true;
return (int)Math::round(v->g * 255.0);
} else if (*str == "b8") {
valid = true;
return (int)Math::round(v->b * 255.0);
} else if (*str == "a8") {
valid = true;
return (int)Math::round(v->a * 255.0);
}
} else if (p_index.get_type() == Variant::INT) {
2014-02-10 02:10:30 +01:00
int idx = p_index;
if (idx < 0)
idx += 4;
if (idx >= 0 && idx < 4) {
const Color *v = reinterpret_cast<const Color *>(_data._mem);
valid = true;
2014-02-10 02:10:30 +01:00
return (*v)[idx];
}
}
} break;
case NODE_PATH: {
} break; // 15
case _RID: {
} break;
2014-02-10 02:10:30 +01:00
case OBJECT: {
Object *obj = _get_obj().obj;
if (obj) {
#ifdef DEBUG_ENABLED
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null()) {
//only if debugging!
if (!ObjectDB::instance_validate(obj)) {
valid = false;
2014-02-10 02:10:30 +01:00
return "Attempted get on stray pointer.";
}
}
#endif
if (p_index.get_type() != Variant::STRING) {
return obj->getvar(p_index, r_valid);
2014-02-10 02:10:30 +01:00
}
return obj->get(p_index, r_valid);
2014-02-10 02:10:30 +01:00
}
} break;
case DICTIONARY: {
const Dictionary *dic = reinterpret_cast<const Dictionary *>(_data._mem);
const Variant *res = dic->getptr(p_index);
2014-02-10 02:10:30 +01:00
if (res) {
valid = true;
2014-02-10 02:10:30 +01:00
return *res;
}
} break;
DEFAULT_OP_ARRAY_CMD(ARRAY, const Array, ;, return (*arr)[index]) // 20
DEFAULT_OP_DVECTOR_GET(POOL_BYTE_ARRAY, uint8_t)
DEFAULT_OP_DVECTOR_GET(POOL_INT_ARRAY, int)
DEFAULT_OP_DVECTOR_GET(POOL_REAL_ARRAY, real_t)
DEFAULT_OP_DVECTOR_GET(POOL_STRING_ARRAY, String)
DEFAULT_OP_DVECTOR_GET(POOL_VECTOR2_ARRAY, Vector2) // 25
DEFAULT_OP_DVECTOR_GET(POOL_VECTOR3_ARRAY, Vector3)
DEFAULT_OP_DVECTOR_GET(POOL_COLOR_ARRAY, Color)
default:
return Variant();
2014-02-10 02:10:30 +01:00
}
return Variant();
}
bool Variant::in(const Variant &p_index, bool *r_valid) const {
2014-02-10 02:10:30 +01:00
if (r_valid)
*r_valid = true;
2014-02-10 02:10:30 +01:00
switch (type) {
2014-02-10 02:10:30 +01:00
case STRING: {
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
//string index
String idx = p_index;
const String *str = reinterpret_cast<const String *>(_data._mem);
2014-02-10 02:10:30 +01:00
return str->find(idx) != -1;
2014-02-10 02:10:30 +01:00
}
} break;
case OBJECT: {
Object *obj = _get_obj().obj;
if (obj) {
bool valid = false;
2014-02-10 02:10:30 +01:00
#ifdef DEBUG_ENABLED
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null()) {
//only if debugging!
if (!ObjectDB::instance_validate(obj)) {
if (r_valid) {
*r_valid = false;
2014-02-10 02:10:30 +01:00
}
return true; // Attempted get on stray pointer.
2014-02-10 02:10:30 +01:00
}
}
#endif
if (p_index.get_type() != Variant::STRING) {
obj->getvar(p_index, &valid);
2014-02-10 02:10:30 +01:00
} else {
obj->get(p_index, &valid);
2014-02-10 02:10:30 +01:00
}
return valid;
} else {
if (r_valid)
*r_valid = false;
2014-02-10 02:10:30 +01:00
}
return false;
} break;
case DICTIONARY: {
const Dictionary *dic = reinterpret_cast<const Dictionary *>(_data._mem);
2014-02-10 02:10:30 +01:00
return dic->has(p_index);
} break; // 20
2014-02-10 02:10:30 +01:00
case ARRAY: {
const Array *arr = reinterpret_cast<const Array *>(_data._mem);
2014-02-10 02:10:30 +01:00
int l = arr->size();
if (l) {
for (int i = 0; i < l; i++) {
2014-02-10 02:10:30 +01:00
if (evaluate(OP_EQUAL, (*arr)[i], p_index))
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
} break;
case POOL_BYTE_ARRAY: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
int index = p_index;
const PoolVector<uint8_t> *arr = reinterpret_cast<const PoolVector<uint8_t> *>(_data._mem);
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<uint8_t>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break;
case POOL_INT_ARRAY: {
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
int index = p_index;
const PoolVector<int> *arr = reinterpret_cast<const PoolVector<int> *>(_data._mem);
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<int>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break;
case POOL_REAL_ARRAY: {
2014-02-10 02:10:30 +01:00
if (p_index.get_type() == Variant::INT || p_index.get_type() == Variant::REAL) {
2014-02-10 02:10:30 +01:00
real_t index = p_index;
const PoolVector<real_t> *arr = reinterpret_cast<const PoolVector<real_t> *>(_data._mem);
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<real_t>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break;
case POOL_STRING_ARRAY: {
if (p_index.get_type() == Variant::STRING) {
2014-02-10 02:10:30 +01:00
String index = p_index;
const PoolVector<String> *arr = reinterpret_cast<const PoolVector<String> *>(_data._mem);
2014-02-10 02:10:30 +01:00
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<String>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break; //25
case POOL_VECTOR2_ARRAY: {
if (p_index.get_type() == Variant::VECTOR2) {
2014-02-10 02:10:30 +01:00
Vector2 index = p_index;
const PoolVector<Vector2> *arr = reinterpret_cast<const PoolVector<Vector2> *>(_data._mem);
2014-02-10 02:10:30 +01:00
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<Vector2>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break;
case POOL_VECTOR3_ARRAY: {
if (p_index.get_type() == Variant::VECTOR3) {
2014-02-10 02:10:30 +01:00
Vector3 index = p_index;
const PoolVector<Vector3> *arr = reinterpret_cast<const PoolVector<Vector3> *>(_data._mem);
2014-02-10 02:10:30 +01:00
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<Vector3>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break;
case POOL_COLOR_ARRAY: {
2014-02-10 02:10:30 +01:00
if (p_index.get_type() == Variant::COLOR) {
2014-02-10 02:10:30 +01:00
Color index = p_index;
const PoolVector<Color> *arr = reinterpret_cast<const PoolVector<Color> *>(_data._mem);
2014-02-10 02:10:30 +01:00
int l = arr->size();
2014-02-10 02:10:30 +01:00
if (l) {
PoolVector<Color>::Read r = arr->read();
for (int i = 0; i < l; i++) {
if (r[i] == index)
2014-02-10 02:10:30 +01:00
return true;
}
}
return false;
}
} break;
default: {
}
2014-02-10 02:10:30 +01:00
}
if (r_valid)
*r_valid = false;
2014-02-10 02:10:30 +01:00
return false;
}
void Variant::get_property_list(List<PropertyInfo> *p_list) const {
switch (type) {
2014-02-10 02:10:30 +01:00
case VECTOR2: {
p_list->push_back(PropertyInfo(Variant::REAL, "x"));
p_list->push_back(PropertyInfo(Variant::REAL, "y"));
2014-02-10 02:10:30 +01:00
} break; // 5
2014-02-10 02:10:30 +01:00
case RECT2: {
p_list->push_back(PropertyInfo(Variant::VECTOR2, "position"));
p_list->push_back(PropertyInfo(Variant::VECTOR2, "size"));
p_list->push_back(PropertyInfo(Variant::VECTOR2, "end"));
2014-02-10 02:10:30 +01:00
} break;
case VECTOR3: {
p_list->push_back(PropertyInfo(Variant::REAL, "x"));
p_list->push_back(PropertyInfo(Variant::REAL, "y"));
p_list->push_back(PropertyInfo(Variant::REAL, "z"));
2014-02-10 02:10:30 +01:00
} break;
case TRANSFORM2D: {
2014-02-10 02:10:30 +01:00
p_list->push_back(PropertyInfo(Variant::VECTOR2, "x"));
p_list->push_back(PropertyInfo(Variant::VECTOR2, "y"));
p_list->push_back(PropertyInfo(Variant::VECTOR2, "origin"));
2014-02-10 02:10:30 +01:00
} break;
case PLANE: {
p_list->push_back(PropertyInfo(Variant::VECTOR3, "normal"));
p_list->push_back(PropertyInfo(Variant::REAL, "x"));
p_list->push_back(PropertyInfo(Variant::REAL, "y"));
p_list->push_back(PropertyInfo(Variant::REAL, "z"));
p_list->push_back(PropertyInfo(Variant::REAL, "d"));
2014-02-10 02:10:30 +01:00
} break;
case QUAT: {
p_list->push_back(PropertyInfo(Variant::REAL, "x"));
p_list->push_back(PropertyInfo(Variant::REAL, "y"));
p_list->push_back(PropertyInfo(Variant::REAL, "z"));
p_list->push_back(PropertyInfo(Variant::REAL, "w"));
2014-02-10 02:10:30 +01:00
} break; // 10
2017-11-17 03:09:00 +01:00
case AABB: {
p_list->push_back(PropertyInfo(Variant::VECTOR3, "position"));
p_list->push_back(PropertyInfo(Variant::VECTOR3, "size"));
p_list->push_back(PropertyInfo(Variant::VECTOR3, "end"));
} break;
case BASIS: {
2014-02-10 02:10:30 +01:00
p_list->push_back(PropertyInfo(Variant::VECTOR3, "x"));
p_list->push_back(PropertyInfo(Variant::VECTOR3, "y"));
p_list->push_back(PropertyInfo(Variant::VECTOR3, "z"));
2014-02-10 02:10:30 +01:00
} break;
case TRANSFORM: {
p_list->push_back(PropertyInfo(Variant::BASIS, "basis"));
p_list->push_back(PropertyInfo(Variant::VECTOR3, "origin"));
2014-02-10 02:10:30 +01:00
} break;
case COLOR: {
p_list->push_back(PropertyInfo(Variant::REAL, "r"));
p_list->push_back(PropertyInfo(Variant::REAL, "g"));
p_list->push_back(PropertyInfo(Variant::REAL, "b"));
p_list->push_back(PropertyInfo(Variant::REAL, "a"));
p_list->push_back(PropertyInfo(Variant::REAL, "h"));
p_list->push_back(PropertyInfo(Variant::REAL, "s"));
p_list->push_back(PropertyInfo(Variant::REAL, "v"));
p_list->push_back(PropertyInfo(Variant::INT, "r8"));
p_list->push_back(PropertyInfo(Variant::INT, "g8"));
p_list->push_back(PropertyInfo(Variant::INT, "b8"));
p_list->push_back(PropertyInfo(Variant::INT, "a8"));
} break;
case NODE_PATH: {
} break; // 15
case _RID: {
} break;
2014-02-10 02:10:30 +01:00
case OBJECT: {
Object *obj = _get_obj().obj;
2014-02-10 02:10:30 +01:00
if (obj) {
#ifdef DEBUG_ENABLED
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null()) {
//only if debugging!
if (!ObjectDB::instance_validate(obj)) {
WARN_PRINT("Attempted get_property list on stray pointer.");
return;
}
}
#endif
obj->get_property_list(p_list);
}
} break;
case DICTIONARY: {
const Dictionary *dic = reinterpret_cast<const Dictionary *>(_data._mem);
2014-02-10 02:10:30 +01:00
List<Variant> keys;
dic->get_key_list(&keys);
for (List<Variant>::Element *E = keys.front(); E; E = E->next()) {
if (E->get().get_type() == Variant::STRING) {
p_list->push_back(PropertyInfo(Variant::STRING, E->get()));
2014-02-10 02:10:30 +01:00
}
}
} break;
case ARRAY: // 20
case POOL_BYTE_ARRAY:
case POOL_INT_ARRAY:
case POOL_REAL_ARRAY:
case POOL_STRING_ARRAY:
case POOL_VECTOR2_ARRAY: // 25
case POOL_VECTOR3_ARRAY:
case POOL_COLOR_ARRAY: {
2014-02-10 02:10:30 +01:00
//nothing
} break;
default: {
}
2014-02-10 02:10:30 +01:00
}
}
bool Variant::iter_init(Variant &r_iter, bool &valid) const {
2014-02-10 02:10:30 +01:00
valid = true;
switch (type) {
case INT: {
r_iter = 0;
return _data._int > 0;
} break;
case REAL: {
r_iter = 0;
return _data._real > 0.0;
} break;
case VECTOR2: {
int64_t from = reinterpret_cast<const Vector2 *>(_data._mem)->x;
int64_t to = reinterpret_cast<const Vector2 *>(_data._mem)->y;
r_iter = from;
return from < to;
} break;
case VECTOR3: {
int64_t from = reinterpret_cast<const Vector3 *>(_data._mem)->x;
int64_t to = reinterpret_cast<const Vector3 *>(_data._mem)->y;
int64_t step = reinterpret_cast<const Vector3 *>(_data._mem)->z;
r_iter = from;
if (from == to) {
return false;
} else if (from < to) {
return step > 0;
} else {
return step < 0;
}
//return true;
} break;
2014-02-10 02:10:30 +01:00
case OBJECT: {
#ifdef DEBUG_ENABLED
if (!_get_obj().obj) {
valid = false;
2014-02-10 02:10:30 +01:00
return false;
}
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null() && !ObjectDB::instance_validate(_get_obj().obj)) {
valid = false;
2014-02-10 02:10:30 +01:00
return false;
}
#endif
Variant::CallError ce;
ce.error = Variant::CallError::CALL_OK;
Array ref;
2014-02-10 02:10:30 +01:00
ref.push_back(r_iter);
Variant vref = ref;
const Variant *refp[] = { &vref };
Variant ret = _get_obj().obj->call(CoreStringNames::get_singleton()->_iter_init, refp, 1, ce);
2014-02-10 02:10:30 +01:00
if (ref.size() != 1 || ce.error != Variant::CallError::CALL_OK) {
valid = false;
2014-02-10 02:10:30 +01:00
return false;
}
r_iter = ref[0];
2014-02-10 02:10:30 +01:00
return ret;
} break;
case STRING: {
const String *str = reinterpret_cast<const String *>(_data._mem);
if (str->empty())
return false;
r_iter = 0;
return true;
} break;
2014-02-10 02:10:30 +01:00
case DICTIONARY: {
const Dictionary *dic = reinterpret_cast<const Dictionary *>(_data._mem);
2014-02-10 02:10:30 +01:00
if (dic->empty())
return false;
const Variant *next = dic->next(NULL);
r_iter = *next;
2014-02-10 02:10:30 +01:00
return true;
} break;
case ARRAY: {
const Array *arr = reinterpret_cast<const Array *>(_data._mem);
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if (arr->empty())
return false;
r_iter = 0;
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return true;
} break;
case POOL_BYTE_ARRAY: {
const PoolVector<uint8_t> *arr = reinterpret_cast<const PoolVector<uint8_t> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
case POOL_INT_ARRAY: {
const PoolVector<int> *arr = reinterpret_cast<const PoolVector<int> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
case POOL_REAL_ARRAY: {
const PoolVector<real_t> *arr = reinterpret_cast<const PoolVector<real_t> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
case POOL_STRING_ARRAY: {
const PoolVector<String> *arr = reinterpret_cast<const PoolVector<String> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
case POOL_VECTOR2_ARRAY: {
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const PoolVector<Vector2> *arr = reinterpret_cast<const PoolVector<Vector2> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
case POOL_VECTOR3_ARRAY: {
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const PoolVector<Vector3> *arr = reinterpret_cast<const PoolVector<Vector3> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
case POOL_COLOR_ARRAY: {
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const PoolVector<Color> *arr = reinterpret_cast<const PoolVector<Color> *>(_data._mem);
if (arr->size() == 0)
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return false;
r_iter = 0;
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return true;
} break;
default: {
}
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}
valid = false;
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return false;
}
bool Variant::iter_next(Variant &r_iter, bool &valid) const {
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valid = true;
switch (type) {
case INT: {
int64_t idx = r_iter;
idx++;
if (idx >= _data._int)
return false;
r_iter = idx;
return true;
} break;
case REAL: {
int64_t idx = r_iter;
idx++;
if (idx >= _data._real)
return false;
r_iter = idx;
return true;
} break;
case VECTOR2: {
int64_t to = reinterpret_cast<const Vector2 *>(_data._mem)->y;
int64_t idx = r_iter;
idx++;
if (idx >= to)
return false;
r_iter = idx;
return true;
} break;
case VECTOR3: {
int64_t to = reinterpret_cast<const Vector3 *>(_data._mem)->y;
int64_t step = reinterpret_cast<const Vector3 *>(_data._mem)->z;
int64_t idx = r_iter;
idx += step;
if (step < 0 && idx <= to)
return false;
if (step > 0 && idx >= to)
return false;
r_iter = idx;
return true;
} break;
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case OBJECT: {
#ifdef DEBUG_ENABLED
if (!_get_obj().obj) {
valid = false;
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return false;
}
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null() && !ObjectDB::instance_validate(_get_obj().obj)) {
valid = false;
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return false;
}
#endif
Variant::CallError ce;
ce.error = Variant::CallError::CALL_OK;
Array ref;
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ref.push_back(r_iter);
Variant vref = ref;
const Variant *refp[] = { &vref };
Variant ret = _get_obj().obj->call(CoreStringNames::get_singleton()->_iter_next, refp, 1, ce);
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if (ref.size() != 1 || ce.error != Variant::CallError::CALL_OK) {
valid = false;
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return false;
}
r_iter = ref[0];
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return ret;
} break;
case STRING: {
const String *str = reinterpret_cast<const String *>(_data._mem);
int idx = r_iter;
idx++;
if (idx >= str->length())
return false;
r_iter = idx;
return true;
} break;
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case DICTIONARY: {
const Dictionary *dic = reinterpret_cast<const Dictionary *>(_data._mem);
const Variant *next = dic->next(&r_iter);
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if (!next)
return false;
r_iter = *next;
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return true;
} break;
case ARRAY: {
const Array *arr = reinterpret_cast<const Array *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_BYTE_ARRAY: {
const PoolVector<uint8_t> *arr = reinterpret_cast<const PoolVector<uint8_t> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_INT_ARRAY: {
const PoolVector<int> *arr = reinterpret_cast<const PoolVector<int> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_REAL_ARRAY: {
const PoolVector<real_t> *arr = reinterpret_cast<const PoolVector<real_t> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_STRING_ARRAY: {
const PoolVector<String> *arr = reinterpret_cast<const PoolVector<String> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_VECTOR2_ARRAY: {
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const PoolVector<Vector2> *arr = reinterpret_cast<const PoolVector<Vector2> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_VECTOR3_ARRAY: {
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const PoolVector<Vector3> *arr = reinterpret_cast<const PoolVector<Vector3> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
case POOL_COLOR_ARRAY: {
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const PoolVector<Color> *arr = reinterpret_cast<const PoolVector<Color> *>(_data._mem);
int idx = r_iter;
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idx++;
if (idx >= arr->size())
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return false;
r_iter = idx;
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return true;
} break;
default: {
}
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}
valid = false;
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return false;
}
Variant Variant::iter_get(const Variant &r_iter, bool &r_valid) const {
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r_valid = true;
switch (type) {
case INT: {
return r_iter;
} break;
case REAL: {
return r_iter;
} break;
case VECTOR2: {
return r_iter;
} break;
case VECTOR3: {
return r_iter;
} break;
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case OBJECT: {
#ifdef DEBUG_ENABLED
if (!_get_obj().obj) {
r_valid = false;
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return Variant();
}
if (ScriptDebugger::get_singleton() && _get_obj().ref.is_null() && !ObjectDB::instance_validate(_get_obj().obj)) {
r_valid = false;
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return Variant();
}
#endif
Variant::CallError ce;
ce.error = Variant::CallError::CALL_OK;
const Variant *refp[] = { &r_iter };
Variant ret = _get_obj().obj->call(CoreStringNames::get_singleton()->_iter_get, refp, 1, ce);
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if (ce.error != Variant::CallError::CALL_OK) {
r_valid = false;
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return Variant();
}
//r_iter=ref[0];
return ret;
} break;
case STRING: {
const String *str = reinterpret_cast<const String *>(_data._mem);
return str->substr(r_iter, 1);
} break;
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case DICTIONARY: {
return r_iter; //iterator is the same as the key
} break;
case ARRAY: {
const Array *arr = reinterpret_cast<const Array *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
case POOL_BYTE_ARRAY: {
const PoolVector<uint8_t> *arr = reinterpret_cast<const PoolVector<uint8_t> *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
case POOL_INT_ARRAY: {
const PoolVector<int> *arr = reinterpret_cast<const PoolVector<int> *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
case POOL_REAL_ARRAY: {
const PoolVector<real_t> *arr = reinterpret_cast<const PoolVector<real_t> *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
case POOL_STRING_ARRAY: {
const PoolVector<String> *arr = reinterpret_cast<const PoolVector<String> *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
case POOL_VECTOR2_ARRAY: {
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const PoolVector<Vector2> *arr = reinterpret_cast<const PoolVector<Vector2> *>(_data._mem);
int idx = r_iter;
#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
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return arr->get(idx);
} break;
case POOL_VECTOR3_ARRAY: {
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const PoolVector<Vector3> *arr = reinterpret_cast<const PoolVector<Vector3> *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
case POOL_COLOR_ARRAY: {
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const PoolVector<Color> *arr = reinterpret_cast<const PoolVector<Color> *>(_data._mem);
int idx = r_iter;
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#ifdef DEBUG_ENABLED
if (idx < 0 || idx >= arr->size()) {
r_valid = false;
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return Variant();
}
#endif
return arr->get(idx);
} break;
default: {
}
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}
r_valid = false;
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return Variant();
}
Variant Variant::duplicate(bool deep) const {
switch (type) {
case OBJECT: {
/* breaks stuff :(
if (deep && !_get_obj().ref.is_null()) {
Ref<Resource> resource = _get_obj().ref;
if (resource.is_valid()) {
return resource->duplicate(true);
}
}
*/
return *this;
} break;
case DICTIONARY:
return operator Dictionary().duplicate(deep);
case ARRAY:
return operator Array().duplicate(deep);
default:
return *this;
}
}
void Variant::blend(const Variant &a, const Variant &b, float c, Variant &r_dst) {
if (a.type != b.type) {
if (a.is_num() && b.is_num()) {
real_t va = a;
real_t vb = b;
r_dst = va + vb * c;
} else {
r_dst = a;
}
return;
}
switch (a.type) {
case NIL: {
r_dst = Variant();
}
return;
case INT: {
int64_t va = a._data._int;
int64_t vb = b._data._int;
r_dst = int(va + vb * c + 0.5);
}
return;
case REAL: {
double ra = a._data._real;
double rb = b._data._real;
r_dst = ra + rb * c;
}
return;
case VECTOR2: {
r_dst = *reinterpret_cast<const Vector2 *>(a._data._mem) + *reinterpret_cast<const Vector2 *>(b._data._mem) * c;
}
return;
case RECT2: {
const Rect2 *ra = reinterpret_cast<const Rect2 *>(a._data._mem);
const Rect2 *rb = reinterpret_cast<const Rect2 *>(b._data._mem);
r_dst = Rect2(ra->position + rb->position * c, ra->size + rb->size * c);
}
return;
case VECTOR3: {
r_dst = *reinterpret_cast<const Vector3 *>(a._data._mem) + *reinterpret_cast<const Vector3 *>(b._data._mem) * c;
}
return;
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case AABB: {
const ::AABB *ra = reinterpret_cast<const ::AABB *>(a._data._mem);
const ::AABB *rb = reinterpret_cast<const ::AABB *>(b._data._mem);
r_dst = ::AABB(ra->position + rb->position * c, ra->size + rb->size * c);
}
return;
case QUAT: {
Quat empty_rot;
const Quat *qa = reinterpret_cast<const Quat *>(a._data._mem);
const Quat *qb = reinterpret_cast<const Quat *>(b._data._mem);
r_dst = *qa * empty_rot.slerp(*qb, c);
}
return;
case COLOR: {
const Color *ca = reinterpret_cast<const Color *>(a._data._mem);
const Color *cb = reinterpret_cast<const Color *>(b._data._mem);
float new_r = ca->r + cb->r * c;
float new_g = ca->g + cb->g * c;
float new_b = ca->b + cb->b * c;
float new_a = ca->a + cb->a * c;
new_r = new_r > 1.0 ? 1.0 : new_r;
new_g = new_g > 1.0 ? 1.0 : new_g;
new_b = new_b > 1.0 ? 1.0 : new_b;
new_a = new_a > 1.0 ? 1.0 : new_a;
r_dst = Color(new_r, new_g, new_b, new_a);
}
return;
default: {
r_dst = c < 0.5 ? a : b;
}
return;
}
}
void Variant::interpolate(const Variant &a, const Variant &b, float c, Variant &r_dst) {
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if (a.type != b.type) {
if (a.is_num() && b.is_num()) {
//not as efficient but..
real_t va = a;
real_t vb = b;
r_dst = va + (vb - va) * c;
} else {
r_dst = a;
}
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return;
}
switch (a.type) {
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case NIL: {
r_dst = Variant();
}
return;
case BOOL: {
r_dst = a;
}
return;
case INT: {
int64_t va = a._data._int;
int64_t vb = b._data._int;
r_dst = int(va + (vb - va) * c);
}
return;
case REAL: {
real_t va = a._data._real;
real_t vb = b._data._real;
r_dst = va + (vb - va) * c;
}
return;
case STRING: {
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//this is pretty funny and bizarre, but artists like to use it for typewritter effects
String sa = *reinterpret_cast<const String *>(a._data._mem);
String sb = *reinterpret_cast<const String *>(b._data._mem);
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String dst;
int sa_len = sa.length();
int sb_len = sb.length();
int csize = sa_len + (sb_len - sa_len) * c;
if (csize == 0) {
r_dst = "";
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return;
}
dst.resize(csize + 1);
dst[csize] = 0;
int split = csize / 2;
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for (int i = 0; i < csize; i++) {
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CharType chr = ' ';
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if (i < split) {
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if (i < sa.length())
chr = sa[i];
else if (i < sb.length())
chr = sb[i];
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} else {
if (i < sb.length())
chr = sb[i];
else if (i < sa.length())
chr = sa[i];
}
dst[i] = chr;
}
r_dst = dst;
}
return;
case VECTOR2: {
r_dst = reinterpret_cast<const Vector2 *>(a._data._mem)->linear_interpolate(*reinterpret_cast<const Vector2 *>(b._data._mem), c);
}
return;
case RECT2: {
r_dst = Rect2(reinterpret_cast<const Rect2 *>(a._data._mem)->position.linear_interpolate(reinterpret_cast<const Rect2 *>(b._data._mem)->position, c), reinterpret_cast<const Rect2 *>(a._data._mem)->size.linear_interpolate(reinterpret_cast<const Rect2 *>(b._data._mem)->size, c));
}
return;
case VECTOR3: {
r_dst = reinterpret_cast<const Vector3 *>(a._data._mem)->linear_interpolate(*reinterpret_cast<const Vector3 *>(b._data._mem), c);
}
return;
case TRANSFORM2D: {
r_dst = a._data._transform2d->interpolate_with(*b._data._transform2d, c);
}
return;
case PLANE: {
r_dst = a;
}
return;
case QUAT: {
r_dst = reinterpret_cast<const Quat *>(a._data._mem)->slerp(*reinterpret_cast<const Quat *>(b._data._mem), c);
}
return;
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case AABB: {
r_dst = ::AABB(a._data._aabb->position.linear_interpolate(b._data._aabb->position, c), a._data._aabb->size.linear_interpolate(b._data._aabb->size, c));
}
return;
case BASIS: {
r_dst = Transform(*a._data._basis).interpolate_with(Transform(*b._data._basis), c).basis;
}
return;
case TRANSFORM: {
r_dst = a._data._transform->interpolate_with(*b._data._transform, c);
}
return;
case COLOR: {
r_dst = reinterpret_cast<const Color *>(a._data._mem)->linear_interpolate(*reinterpret_cast<const Color *>(b._data._mem), c);
}
return;
case NODE_PATH: {
r_dst = a;
}
return;
case _RID: {
r_dst = a;
}
return;
case OBJECT: {
r_dst = a;
}
return;
case DICTIONARY: {
}
return;
case ARRAY: {
r_dst = a;
}
return;
case POOL_BYTE_ARRAY: {
r_dst = a;
}
return;
case POOL_INT_ARRAY: {
const PoolVector<int> *arr_a = reinterpret_cast<const PoolVector<int> *>(a._data._mem);
const PoolVector<int> *arr_b = reinterpret_cast<const PoolVector<int> *>(b._data._mem);
int sz = arr_a->size();
if (sz == 0 || arr_b->size() != sz) {
r_dst = a;
} else {
PoolVector<int> v;
v.resize(sz);
{
PoolVector<int>::Write vw = v.write();
PoolVector<int>::Read ar = arr_a->read();
PoolVector<int>::Read br = arr_b->read();
Variant va;
for (int i = 0; i < sz; i++) {
Variant::interpolate(ar[i], br[i], c, va);
vw[i] = va;
}
}
r_dst = v;
}
}
return;
case POOL_REAL_ARRAY: {
const PoolVector<real_t> *arr_a = reinterpret_cast<const PoolVector<real_t> *>(a._data._mem);
const PoolVector<real_t> *arr_b = reinterpret_cast<const PoolVector<real_t> *>(b._data._mem);
int sz = arr_a->size();
if (sz == 0 || arr_b->size() != sz) {
r_dst = a;
} else {
PoolVector<real_t> v;
v.resize(sz);
{
PoolVector<real_t>::Write vw = v.write();
PoolVector<real_t>::Read ar = arr_a->read();
PoolVector<real_t>::Read br = arr_b->read();
Variant va;
for (int i = 0; i < sz; i++) {
Variant::interpolate(ar[i], br[i], c, va);
vw[i] = va;
}
}
r_dst = v;
}
}
return;
case POOL_STRING_ARRAY: {
r_dst = a;
}
return;
case POOL_VECTOR2_ARRAY: {
const PoolVector<Vector2> *arr_a = reinterpret_cast<const PoolVector<Vector2> *>(a._data._mem);
const PoolVector<Vector2> *arr_b = reinterpret_cast<const PoolVector<Vector2> *>(b._data._mem);
int sz = arr_a->size();
if (sz == 0 || arr_b->size() != sz) {
r_dst = a;
} else {
PoolVector<Vector2> v;
v.resize(sz);
{
PoolVector<Vector2>::Write vw = v.write();
PoolVector<Vector2>::Read ar = arr_a->read();
PoolVector<Vector2>::Read br = arr_b->read();
for (int i = 0; i < sz; i++) {
vw[i] = ar[i].linear_interpolate(br[i], c);
}
}
r_dst = v;
}
}
return;
case POOL_VECTOR3_ARRAY: {
const PoolVector<Vector3> *arr_a = reinterpret_cast<const PoolVector<Vector3> *>(a._data._mem);
const PoolVector<Vector3> *arr_b = reinterpret_cast<const PoolVector<Vector3> *>(b._data._mem);
int sz = arr_a->size();
if (sz == 0 || arr_b->size() != sz) {
r_dst = a;
} else {
PoolVector<Vector3> v;
v.resize(sz);
{
PoolVector<Vector3>::Write vw = v.write();
PoolVector<Vector3>::Read ar = arr_a->read();
PoolVector<Vector3>::Read br = arr_b->read();
for (int i = 0; i < sz; i++) {
vw[i] = ar[i].linear_interpolate(br[i], c);
}
}
r_dst = v;
}
}
return;
case POOL_COLOR_ARRAY: {
const PoolVector<Color> *arr_a = reinterpret_cast<const PoolVector<Color> *>(a._data._mem);
const PoolVector<Color> *arr_b = reinterpret_cast<const PoolVector<Color> *>(b._data._mem);
int sz = arr_a->size();
if (sz == 0 || arr_b->size() != sz) {
r_dst = a;
} else {
PoolVector<Color> v;
v.resize(sz);
{
PoolVector<Color>::Write vw = v.write();
PoolVector<Color>::Read ar = arr_a->read();
PoolVector<Color>::Read br = arr_b->read();
for (int i = 0; i < sz; i++) {
vw[i] = ar[i].linear_interpolate(br[i], c);
}
}
r_dst = v;
}
}
return;
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default: {
r_dst = a;
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}
}
}
static const char *_op_names[Variant::OP_MAX] = {
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"==",
"!=",
"<",
"<=",
">",
">=",
"+",
"-",
"*",
"/",
"- (negation)",
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"+ (positive)",
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"%",
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"+ (concatenation)",
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"<<",
">>",
"&",
"|",
"^",
"~",
"and",
"or",
"xor",
"not",
"in"
};
String Variant::get_operator_name(Operator p_op) {
ERR_FAIL_INDEX_V(p_op, OP_MAX, "");
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return _op_names[p_op];
}