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godot-docs/classes/class_vector3i.rst
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.. DO NOT EDIT THIS FILE!!!
.. Generated automatically from Godot engine sources.
.. Generator: https://github.com/godotengine/godot/tree/master/doc/tools/make_rst.py.
.. XML source: https://github.com/godotengine/godot/tree/master/doc/classes/Vector3i.xml.
.. _class_Vector3i:
Vector3i
========
A 3D vector using integer coordinates.
.. rst-class:: classref-introduction-group
Description
-----------
A 3-element structure that can be used to represent 3D grid coordinates or any other triplet of integers.
It uses integer coordinates and is therefore preferable to :ref:`Vector3<class_Vector3>` when exact precision is required. Note that the values are limited to 32 bits, and unlike :ref:`Vector3<class_Vector3>` this cannot be configured with an engine build option. Use :ref:`int<class_int>` or :ref:`PackedInt64Array<class_PackedInt64Array>` if 64-bit values are needed.
\ **Note:** In a boolean context, a Vector3i will evaluate to ``false`` if it's equal to ``Vector3i(0, 0, 0)``. Otherwise, a Vector3i will always evaluate to ``true``.
.. rst-class:: classref-introduction-group
Tutorials
---------
- :doc:`Math documentation index <../tutorials/math/index>`
- :doc:`Vector math <../tutorials/math/vector_math>`
- `3Blue1Brown Essence of Linear Algebra <https://www.youtube.com/playlist?list=PLZHQObOWTQDPD3MizzM2xVFitgF8hE_ab>`__
.. rst-class:: classref-reftable-group
Properties
----------
.. table::
:widths: auto
+-----------------------+-------------------------------------+-------+
| :ref:`int<class_int>` | :ref:`x<class_Vector3i_property_x>` | ``0`` |
+-----------------------+-------------------------------------+-------+
| :ref:`int<class_int>` | :ref:`y<class_Vector3i_property_y>` | ``0`` |
+-----------------------+-------------------------------------+-------+
| :ref:`int<class_int>` | :ref:`z<class_Vector3i_property_z>` | ``0`` |
+-----------------------+-------------------------------------+-------+
.. rst-class:: classref-reftable-group
Constructors
------------
.. table::
:widths: auto
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`Vector3i<class_Vector3i_constructor_Vector3i>`\ (\ ) |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`Vector3i<class_Vector3i_constructor_Vector3i>`\ (\ from\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`Vector3i<class_Vector3i_constructor_Vector3i>`\ (\ from\: :ref:`Vector3<class_Vector3>`\ ) |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`Vector3i<class_Vector3i_constructor_Vector3i>`\ (\ x\: :ref:`int<class_int>`, y\: :ref:`int<class_int>`, z\: :ref:`int<class_int>`\ ) |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------------+
.. rst-class:: classref-reftable-group
Methods
-------
.. table::
:widths: auto
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`abs<class_Vector3i_method_abs>`\ (\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`clamp<class_Vector3i_method_clamp>`\ (\ min\: :ref:`Vector3i<class_Vector3i>`, max\: :ref:`Vector3i<class_Vector3i>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`clampi<class_Vector3i_method_clampi>`\ (\ min\: :ref:`int<class_int>`, max\: :ref:`int<class_int>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`int<class_int>` | :ref:`distance_squared_to<class_Vector3i_method_distance_squared_to>`\ (\ to\: :ref:`Vector3i<class_Vector3i>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`float<class_float>` | :ref:`distance_to<class_Vector3i_method_distance_to>`\ (\ to\: :ref:`Vector3i<class_Vector3i>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`float<class_float>` | :ref:`length<class_Vector3i_method_length>`\ (\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`int<class_int>` | :ref:`length_squared<class_Vector3i_method_length_squared>`\ (\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`max<class_Vector3i_method_max>`\ (\ with\: :ref:`Vector3i<class_Vector3i>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`int<class_int>` | :ref:`max_axis_index<class_Vector3i_method_max_axis_index>`\ (\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`maxi<class_Vector3i_method_maxi>`\ (\ with\: :ref:`int<class_int>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`min<class_Vector3i_method_min>`\ (\ with\: :ref:`Vector3i<class_Vector3i>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`int<class_int>` | :ref:`min_axis_index<class_Vector3i_method_min_axis_index>`\ (\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`mini<class_Vector3i_method_mini>`\ (\ with\: :ref:`int<class_int>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`sign<class_Vector3i_method_sign>`\ (\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`snapped<class_Vector3i_method_snapped>`\ (\ step\: :ref:`Vector3i<class_Vector3i>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`snappedi<class_Vector3i_method_snappedi>`\ (\ step\: :ref:`int<class_int>`\ ) |const| |
+---------------------------------+---------------------------------------------------------------------------------------------------------------------------------------+
.. rst-class:: classref-reftable-group
Operators
---------
.. table::
:widths: auto
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`bool<class_bool>` | :ref:`operator !=<class_Vector3i_operator_neq_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator %<class_Vector3i_operator_mod_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator %<class_Vector3i_operator_mod_int>`\ (\ right\: :ref:`int<class_int>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator *<class_Vector3i_operator_mul_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3<class_Vector3>` | :ref:`operator *<class_Vector3i_operator_mul_float>`\ (\ right\: :ref:`float<class_float>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator *<class_Vector3i_operator_mul_int>`\ (\ right\: :ref:`int<class_int>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator +<class_Vector3i_operator_sum_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator -<class_Vector3i_operator_dif_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator /<class_Vector3i_operator_div_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3<class_Vector3>` | :ref:`operator /<class_Vector3i_operator_div_float>`\ (\ right\: :ref:`float<class_float>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator /<class_Vector3i_operator_div_int>`\ (\ right\: :ref:`int<class_int>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`bool<class_bool>` | :ref:`operator \<<class_Vector3i_operator_lt_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`bool<class_bool>` | :ref:`operator \<=<class_Vector3i_operator_lte_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`bool<class_bool>` | :ref:`operator ==<class_Vector3i_operator_eq_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`bool<class_bool>` | :ref:`operator ><class_Vector3i_operator_gt_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`bool<class_bool>` | :ref:`operator >=<class_Vector3i_operator_gte_Vector3i>`\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`int<class_int>` | :ref:`operator []<class_Vector3i_operator_idx_int>`\ (\ index\: :ref:`int<class_int>`\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator unary+<class_Vector3i_operator_unplus>`\ (\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
| :ref:`Vector3i<class_Vector3i>` | :ref:`operator unary-<class_Vector3i_operator_unminus>`\ (\ ) |
+---------------------------------+----------------------------------------------------------------------------------------------------------+
.. rst-class:: classref-section-separator
----
.. rst-class:: classref-descriptions-group
Constants
---------
.. _class_Vector3i_constant_AXIS_X:
.. rst-class:: classref-constant
**AXIS_X** = ``0`` :ref:`🔗<class_Vector3i_constant_AXIS_X>`
Enumerated value for the X axis. Returned by :ref:`max_axis_index<class_Vector3i_method_max_axis_index>` and :ref:`min_axis_index<class_Vector3i_method_min_axis_index>`.
.. _class_Vector3i_constant_AXIS_Y:
.. rst-class:: classref-constant
**AXIS_Y** = ``1`` :ref:`🔗<class_Vector3i_constant_AXIS_Y>`
Enumerated value for the Y axis. Returned by :ref:`max_axis_index<class_Vector3i_method_max_axis_index>` and :ref:`min_axis_index<class_Vector3i_method_min_axis_index>`.
.. _class_Vector3i_constant_AXIS_Z:
.. rst-class:: classref-constant
**AXIS_Z** = ``2`` :ref:`🔗<class_Vector3i_constant_AXIS_Z>`
Enumerated value for the Z axis. Returned by :ref:`max_axis_index<class_Vector3i_method_max_axis_index>` and :ref:`min_axis_index<class_Vector3i_method_min_axis_index>`.
.. _class_Vector3i_constant_ZERO:
.. rst-class:: classref-constant
**ZERO** = ``Vector3i(0, 0, 0)`` :ref:`🔗<class_Vector3i_constant_ZERO>`
Zero vector, a vector with all components set to ``0``.
.. _class_Vector3i_constant_ONE:
.. rst-class:: classref-constant
**ONE** = ``Vector3i(1, 1, 1)`` :ref:`🔗<class_Vector3i_constant_ONE>`
One vector, a vector with all components set to ``1``.
.. _class_Vector3i_constant_MIN:
.. rst-class:: classref-constant
**MIN** = ``Vector3i(-2147483648, -2147483648, -2147483648)`` :ref:`🔗<class_Vector3i_constant_MIN>`
Min vector, a vector with all components equal to ``INT32_MIN``. Can be used as a negative integer equivalent of :ref:`Vector3.INF<class_Vector3_constant_INF>`.
.. _class_Vector3i_constant_MAX:
.. rst-class:: classref-constant
**MAX** = ``Vector3i(2147483647, 2147483647, 2147483647)`` :ref:`🔗<class_Vector3i_constant_MAX>`
Max vector, a vector with all components equal to ``INT32_MAX``. Can be used as an integer equivalent of :ref:`Vector3.INF<class_Vector3_constant_INF>`.
.. _class_Vector3i_constant_LEFT:
.. rst-class:: classref-constant
**LEFT** = ``Vector3i(-1, 0, 0)`` :ref:`🔗<class_Vector3i_constant_LEFT>`
Left unit vector. Represents the local direction of left, and the global direction of west.
.. _class_Vector3i_constant_RIGHT:
.. rst-class:: classref-constant
**RIGHT** = ``Vector3i(1, 0, 0)`` :ref:`🔗<class_Vector3i_constant_RIGHT>`
Right unit vector. Represents the local direction of right, and the global direction of east.
.. _class_Vector3i_constant_UP:
.. rst-class:: classref-constant
**UP** = ``Vector3i(0, 1, 0)`` :ref:`🔗<class_Vector3i_constant_UP>`
Up unit vector.
.. _class_Vector3i_constant_DOWN:
.. rst-class:: classref-constant
**DOWN** = ``Vector3i(0, -1, 0)`` :ref:`🔗<class_Vector3i_constant_DOWN>`
Down unit vector.
.. _class_Vector3i_constant_FORWARD:
.. rst-class:: classref-constant
**FORWARD** = ``Vector3i(0, 0, -1)`` :ref:`🔗<class_Vector3i_constant_FORWARD>`
Forward unit vector. Represents the local direction of forward, and the global direction of north.
.. _class_Vector3i_constant_BACK:
.. rst-class:: classref-constant
**BACK** = ``Vector3i(0, 0, 1)`` :ref:`🔗<class_Vector3i_constant_BACK>`
Back unit vector. Represents the local direction of back, and the global direction of south.
.. rst-class:: classref-section-separator
----
.. rst-class:: classref-descriptions-group
Property Descriptions
---------------------
.. _class_Vector3i_property_x:
.. rst-class:: classref-property
:ref:`int<class_int>` **x** = ``0`` :ref:`🔗<class_Vector3i_property_x>`
The vector's X component. Also accessible by using the index position ``[0]``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_property_y:
.. rst-class:: classref-property
:ref:`int<class_int>` **y** = ``0`` :ref:`🔗<class_Vector3i_property_y>`
The vector's Y component. Also accessible by using the index position ``[1]``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_property_z:
.. rst-class:: classref-property
:ref:`int<class_int>` **z** = ``0`` :ref:`🔗<class_Vector3i_property_z>`
The vector's Z component. Also accessible by using the index position ``[2]``.
.. rst-class:: classref-section-separator
----
.. rst-class:: classref-descriptions-group
Constructor Descriptions
------------------------
.. _class_Vector3i_constructor_Vector3i:
.. rst-class:: classref-constructor
:ref:`Vector3i<class_Vector3i>` **Vector3i**\ (\ ) :ref:`🔗<class_Vector3i_constructor_Vector3i>`
Constructs a default-initialized **Vector3i** with all components set to ``0``.
.. rst-class:: classref-item-separator
----
.. rst-class:: classref-constructor
:ref:`Vector3i<class_Vector3i>` **Vector3i**\ (\ from\: :ref:`Vector3i<class_Vector3i>`\ )
Constructs a **Vector3i** as a copy of the given **Vector3i**.
.. rst-class:: classref-item-separator
----
.. rst-class:: classref-constructor
:ref:`Vector3i<class_Vector3i>` **Vector3i**\ (\ from\: :ref:`Vector3<class_Vector3>`\ )
Constructs a new **Vector3i** from the given :ref:`Vector3<class_Vector3>` by truncating components' fractional parts (rounding towards zero). For a different behavior consider passing the result of :ref:`Vector3.ceil<class_Vector3_method_ceil>`, :ref:`Vector3.floor<class_Vector3_method_floor>` or :ref:`Vector3.round<class_Vector3_method_round>` to this constructor instead.
.. rst-class:: classref-item-separator
----
.. rst-class:: classref-constructor
:ref:`Vector3i<class_Vector3i>` **Vector3i**\ (\ x\: :ref:`int<class_int>`, y\: :ref:`int<class_int>`, z\: :ref:`int<class_int>`\ )
Returns a **Vector3i** with the given components.
.. rst-class:: classref-section-separator
----
.. rst-class:: classref-descriptions-group
Method Descriptions
-------------------
.. _class_Vector3i_method_abs:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **abs**\ (\ ) |const| :ref:`🔗<class_Vector3i_method_abs>`
Returns a new vector with all components in absolute values (i.e. positive).
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_clamp:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **clamp**\ (\ min\: :ref:`Vector3i<class_Vector3i>`, max\: :ref:`Vector3i<class_Vector3i>`\ ) |const| :ref:`🔗<class_Vector3i_method_clamp>`
Returns a new vector with all components clamped between the components of ``min`` and ``max``, by running :ref:`@GlobalScope.clamp<class_@GlobalScope_method_clamp>` on each component.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_clampi:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **clampi**\ (\ min\: :ref:`int<class_int>`, max\: :ref:`int<class_int>`\ ) |const| :ref:`🔗<class_Vector3i_method_clampi>`
Returns a new vector with all components clamped between ``min`` and ``max``, by running :ref:`@GlobalScope.clamp<class_@GlobalScope_method_clamp>` on each component.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_distance_squared_to:
.. rst-class:: classref-method
:ref:`int<class_int>` **distance_squared_to**\ (\ to\: :ref:`Vector3i<class_Vector3i>`\ ) |const| :ref:`🔗<class_Vector3i_method_distance_squared_to>`
Returns the squared distance between this vector and ``to``.
This method runs faster than :ref:`distance_to<class_Vector3i_method_distance_to>`, so prefer it if you need to compare vectors or need the squared distance for some formula.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_distance_to:
.. rst-class:: classref-method
:ref:`float<class_float>` **distance_to**\ (\ to\: :ref:`Vector3i<class_Vector3i>`\ ) |const| :ref:`🔗<class_Vector3i_method_distance_to>`
Returns the distance between this vector and ``to``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_length:
.. rst-class:: classref-method
:ref:`float<class_float>` **length**\ (\ ) |const| :ref:`🔗<class_Vector3i_method_length>`
Returns the length (magnitude) of this vector.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_length_squared:
.. rst-class:: classref-method
:ref:`int<class_int>` **length_squared**\ (\ ) |const| :ref:`🔗<class_Vector3i_method_length_squared>`
Returns the squared length (squared magnitude) of this vector.
This method runs faster than :ref:`length<class_Vector3i_method_length>`, so prefer it if you need to compare vectors or need the squared distance for some formula.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_max:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **max**\ (\ with\: :ref:`Vector3i<class_Vector3i>`\ ) |const| :ref:`🔗<class_Vector3i_method_max>`
Returns the component-wise maximum of this and ``with``, equivalent to ``Vector3i(maxi(x, with.x), maxi(y, with.y), maxi(z, with.z))``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_max_axis_index:
.. rst-class:: classref-method
:ref:`int<class_int>` **max_axis_index**\ (\ ) |const| :ref:`🔗<class_Vector3i_method_max_axis_index>`
Returns the axis of the vector's highest value. See ``AXIS_*`` constants. If all components are equal, this method returns :ref:`AXIS_X<class_Vector3i_constant_AXIS_X>`.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_maxi:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **maxi**\ (\ with\: :ref:`int<class_int>`\ ) |const| :ref:`🔗<class_Vector3i_method_maxi>`
Returns the component-wise maximum of this and ``with``, equivalent to ``Vector3i(maxi(x, with), maxi(y, with), maxi(z, with))``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_min:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **min**\ (\ with\: :ref:`Vector3i<class_Vector3i>`\ ) |const| :ref:`🔗<class_Vector3i_method_min>`
Returns the component-wise minimum of this and ``with``, equivalent to ``Vector3i(mini(x, with.x), mini(y, with.y), mini(z, with.z))``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_min_axis_index:
.. rst-class:: classref-method
:ref:`int<class_int>` **min_axis_index**\ (\ ) |const| :ref:`🔗<class_Vector3i_method_min_axis_index>`
Returns the axis of the vector's lowest value. See ``AXIS_*`` constants. If all components are equal, this method returns :ref:`AXIS_Z<class_Vector3i_constant_AXIS_Z>`.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_mini:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **mini**\ (\ with\: :ref:`int<class_int>`\ ) |const| :ref:`🔗<class_Vector3i_method_mini>`
Returns the component-wise minimum of this and ``with``, equivalent to ``Vector3i(mini(x, with), mini(y, with), mini(z, with))``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_sign:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **sign**\ (\ ) |const| :ref:`🔗<class_Vector3i_method_sign>`
Returns a new vector with each component set to ``1`` if it's positive, ``-1`` if it's negative, and ``0`` if it's zero. The result is identical to calling :ref:`@GlobalScope.sign<class_@GlobalScope_method_sign>` on each component.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_snapped:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **snapped**\ (\ step\: :ref:`Vector3i<class_Vector3i>`\ ) |const| :ref:`🔗<class_Vector3i_method_snapped>`
Returns a new vector with each component snapped to the closest multiple of the corresponding component in ``step``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_method_snappedi:
.. rst-class:: classref-method
:ref:`Vector3i<class_Vector3i>` **snappedi**\ (\ step\: :ref:`int<class_int>`\ ) |const| :ref:`🔗<class_Vector3i_method_snappedi>`
Returns a new vector with each component snapped to the closest multiple of ``step``.
.. rst-class:: classref-section-separator
----
.. rst-class:: classref-descriptions-group
Operator Descriptions
---------------------
.. _class_Vector3i_operator_neq_Vector3i:
.. rst-class:: classref-operator
:ref:`bool<class_bool>` **operator !=**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_neq_Vector3i>`
Returns ``true`` if the vectors are not equal.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_mod_Vector3i:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator %**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_mod_Vector3i>`
Gets the remainder of each component of the **Vector3i** with the components of the given **Vector3i**. This operation uses truncated division, which is often not desired as it does not work well with negative numbers. Consider using :ref:`@GlobalScope.posmod<class_@GlobalScope_method_posmod>` instead if you want to handle negative numbers.
::
print(Vector3i(10, -20, 30) % Vector3i(7, 8, 9)) # Prints "(3, -4, 3)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_mod_int:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator %**\ (\ right\: :ref:`int<class_int>`\ ) :ref:`🔗<class_Vector3i_operator_mod_int>`
Gets the remainder of each component of the **Vector3i** with the given :ref:`int<class_int>`. This operation uses truncated division, which is often not desired as it does not work well with negative numbers. Consider using :ref:`@GlobalScope.posmod<class_@GlobalScope_method_posmod>` instead if you want to handle negative numbers.
::
print(Vector3i(10, -20, 30) % 7) # Prints "(3, -6, 2)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_mul_Vector3i:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator ***\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_mul_Vector3i>`
Multiplies each component of the **Vector3i** by the components of the given **Vector3i**.
::
print(Vector3i(10, 20, 30) * Vector3i(3, 4, 5)) # Prints "(30, 80, 150)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_mul_float:
.. rst-class:: classref-operator
:ref:`Vector3<class_Vector3>` **operator ***\ (\ right\: :ref:`float<class_float>`\ ) :ref:`🔗<class_Vector3i_operator_mul_float>`
Multiplies each component of the **Vector3i** by the given :ref:`float<class_float>`. Returns a :ref:`Vector3<class_Vector3>`.
::
print(Vector3i(10, 15, 20) * 0.9) # Prints "(9, 13.5, 18)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_mul_int:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator ***\ (\ right\: :ref:`int<class_int>`\ ) :ref:`🔗<class_Vector3i_operator_mul_int>`
Multiplies each component of the **Vector3i** by the given :ref:`int<class_int>`.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_sum_Vector3i:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator +**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_sum_Vector3i>`
Adds each component of the **Vector3i** by the components of the given **Vector3i**.
::
print(Vector3i(10, 20, 30) + Vector3i(3, 4, 5)) # Prints "(13, 24, 35)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_dif_Vector3i:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator -**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_dif_Vector3i>`
Subtracts each component of the **Vector3i** by the components of the given **Vector3i**.
::
print(Vector3i(10, 20, 30) - Vector3i(3, 4, 5)) # Prints "(7, 16, 25)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_div_Vector3i:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator /**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_div_Vector3i>`
Divides each component of the **Vector3i** by the components of the given **Vector3i**.
::
print(Vector3i(10, 20, 30) / Vector3i(2, 5, 3)) # Prints "(5, 4, 10)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_div_float:
.. rst-class:: classref-operator
:ref:`Vector3<class_Vector3>` **operator /**\ (\ right\: :ref:`float<class_float>`\ ) :ref:`🔗<class_Vector3i_operator_div_float>`
Divides each component of the **Vector3i** by the given :ref:`float<class_float>`. Returns a :ref:`Vector3<class_Vector3>`.
::
print(Vector3i(10, 20, 30) / 2.9) # Prints "(5, 10, 15)"
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_div_int:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator /**\ (\ right\: :ref:`int<class_int>`\ ) :ref:`🔗<class_Vector3i_operator_div_int>`
Divides each component of the **Vector3i** by the given :ref:`int<class_int>`.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_lt_Vector3i:
.. rst-class:: classref-operator
:ref:`bool<class_bool>` **operator <**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_lt_Vector3i>`
Compares two **Vector3i** vectors by first checking if the X value of the left vector is less than the X value of the ``right`` vector. If the X values are exactly equal, then it repeats this check with the Y values of the two vectors, and then with the Z values. This operator is useful for sorting vectors.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_lte_Vector3i:
.. rst-class:: classref-operator
:ref:`bool<class_bool>` **operator <=**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_lte_Vector3i>`
Compares two **Vector3i** vectors by first checking if the X value of the left vector is less than or equal to the X value of the ``right`` vector. If the X values are exactly equal, then it repeats this check with the Y values of the two vectors, and then with the Z values. This operator is useful for sorting vectors.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_eq_Vector3i:
.. rst-class:: classref-operator
:ref:`bool<class_bool>` **operator ==**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_eq_Vector3i>`
Returns ``true`` if the vectors are equal.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_gt_Vector3i:
.. rst-class:: classref-operator
:ref:`bool<class_bool>` **operator >**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_gt_Vector3i>`
Compares two **Vector3i** vectors by first checking if the X value of the left vector is greater than the X value of the ``right`` vector. If the X values are exactly equal, then it repeats this check with the Y values of the two vectors, and then with the Z values. This operator is useful for sorting vectors.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_gte_Vector3i:
.. rst-class:: classref-operator
:ref:`bool<class_bool>` **operator >=**\ (\ right\: :ref:`Vector3i<class_Vector3i>`\ ) :ref:`🔗<class_Vector3i_operator_gte_Vector3i>`
Compares two **Vector3i** vectors by first checking if the X value of the left vector is greater than or equal to the X value of the ``right`` vector. If the X values are exactly equal, then it repeats this check with the Y values of the two vectors, and then with the Z values. This operator is useful for sorting vectors.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_idx_int:
.. rst-class:: classref-operator
:ref:`int<class_int>` **operator []**\ (\ index\: :ref:`int<class_int>`\ ) :ref:`🔗<class_Vector3i_operator_idx_int>`
Access vector components using their ``index``. ``v[0]`` is equivalent to ``v.x``, ``v[1]`` is equivalent to ``v.y``, and ``v[2]`` is equivalent to ``v.z``.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_unplus:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator unary+**\ (\ ) :ref:`🔗<class_Vector3i_operator_unplus>`
Returns the same value as if the ``+`` was not there. Unary ``+`` does nothing, but sometimes it can make your code more readable.
.. rst-class:: classref-item-separator
----
.. _class_Vector3i_operator_unminus:
.. rst-class:: classref-operator
:ref:`Vector3i<class_Vector3i>` **operator unary-**\ (\ ) :ref:`🔗<class_Vector3i_operator_unminus>`
Returns the negative value of the **Vector3i**. This is the same as writing ``Vector3i(-v.x, -v.y, -v.z)``. This operation flips the direction of the vector while keeping the same magnitude.
.. |virtual| replace:: :abbr:`virtual (This method should typically be overridden by the user to have any effect.)`
.. |const| replace:: :abbr:`const (This method has no side effects. It doesn't modify any of the instance's member variables.)`
.. |vararg| replace:: :abbr:`vararg (This method accepts any number of arguments after the ones described here.)`
.. |constructor| replace:: :abbr:`constructor (This method is used to construct a type.)`
.. |static| replace:: :abbr:`static (This method doesn't need an instance to be called, so it can be called directly using the class name.)`
.. |operator| replace:: :abbr:`operator (This method describes a valid operator to use with this type as left-hand operand.)`
.. |bitfield| replace:: :abbr:`BitField (This value is an integer composed as a bitmask of the following flags.)`
.. |void| replace:: :abbr:`void (No return value.)`
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