godot-docs/classes/class_fastnoiselite.rst

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.. _class_FastNoiseLite:

FastNoiseLite
=============

**Inherits:** :ref:`Noise<class_Noise>` **<** :ref:`Resource<class_Resource>` **<** :ref:`RefCounted<class_RefCounted>` **<** :ref:`Object<class_Object>`

Generates noise using the FastNoiseLite library.

.. rst-class:: classref-introduction-group

Description
-----------

This class generates noise using the FastNoiseLite library, which is a collection of several noise algorithms including Cellular, Perlin, Value, and more.

Most generated noise values are in the range of ``[-1, 1]``, but not always. Some of the cellular noise algorithms return results above ``1``.

.. rst-class:: classref-reftable-group

Properties
----------

.. table::
   :widths: auto

   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` | :ref:`cellular_distance_function<class_FastNoiseLite_property_cellular_distance_function>`         | ``0``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`cellular_jitter<class_FastNoiseLite_property_cellular_jitter>`                               | ``1.0``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>`             | :ref:`cellular_return_type<class_FastNoiseLite_property_cellular_return_type>`                     | ``1``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`domain_warp_amplitude<class_FastNoiseLite_property_domain_warp_amplitude>`                   | ``30.0``             |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`bool<class_bool>`                                                      | :ref:`domain_warp_enabled<class_FastNoiseLite_property_domain_warp_enabled>`                       | ``false``            |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`domain_warp_fractal_gain<class_FastNoiseLite_property_domain_warp_fractal_gain>`             | ``0.5``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`domain_warp_fractal_lacunarity<class_FastNoiseLite_property_domain_warp_fractal_lacunarity>` | ``6.0``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`int<class_int>`                                                        | :ref:`domain_warp_fractal_octaves<class_FastNoiseLite_property_domain_warp_fractal_octaves>`       | ``5``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>`       | :ref:`domain_warp_fractal_type<class_FastNoiseLite_property_domain_warp_fractal_type>`             | ``1``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`domain_warp_frequency<class_FastNoiseLite_property_domain_warp_frequency>`                   | ``0.05``             |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>`                     | :ref:`domain_warp_type<class_FastNoiseLite_property_domain_warp_type>`                             | ``0``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`fractal_gain<class_FastNoiseLite_property_fractal_gain>`                                     | ``0.5``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`fractal_lacunarity<class_FastNoiseLite_property_fractal_lacunarity>`                         | ``2.0``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`int<class_int>`                                                        | :ref:`fractal_octaves<class_FastNoiseLite_property_fractal_octaves>`                               | ``5``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`fractal_ping_pong_strength<class_FastNoiseLite_property_fractal_ping_pong_strength>`         | ``2.0``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`FractalType<enum_FastNoiseLite_FractalType>`                           | :ref:`fractal_type<class_FastNoiseLite_property_fractal_type>`                                     | ``1``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`fractal_weighted_strength<class_FastNoiseLite_property_fractal_weighted_strength>`           | ``0.0``              |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`float<class_float>`                                                    | :ref:`frequency<class_FastNoiseLite_property_frequency>`                                           | ``0.01``             |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`NoiseType<enum_FastNoiseLite_NoiseType>`                               | :ref:`noise_type<class_FastNoiseLite_property_noise_type>`                                         | ``1``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`Vector3<class_Vector3>`                                                | :ref:`offset<class_FastNoiseLite_property_offset>`                                                 | ``Vector3(0, 0, 0)`` |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+
   | :ref:`int<class_int>`                                                        | :ref:`seed<class_FastNoiseLite_property_seed>`                                                     | ``0``                |
   +------------------------------------------------------------------------------+----------------------------------------------------------------------------------------------------+----------------------+

.. rst-class:: classref-section-separator

----

.. rst-class:: classref-descriptions-group

Enumerations
------------

.. _enum_FastNoiseLite_NoiseType:

.. rst-class:: classref-enumeration

enum **NoiseType**: :ref:`🔗<enum_FastNoiseLite_NoiseType>`

.. _class_FastNoiseLite_constant_TYPE_VALUE:

.. rst-class:: classref-enumeration-constant

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **TYPE_VALUE** = ``5``

A lattice of points are assigned random values then interpolated based on neighboring values.

.. _class_FastNoiseLite_constant_TYPE_VALUE_CUBIC:

.. rst-class:: classref-enumeration-constant

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **TYPE_VALUE_CUBIC** = ``4``

Similar to Value noise, but slower. Has more variance in peaks and valleys.

Cubic noise can be used to avoid certain artifacts when using value noise to create a bumpmap. In general, you should always use this mode if the value noise is being used for a heightmap or bumpmap.

.. _class_FastNoiseLite_constant_TYPE_PERLIN:

.. rst-class:: classref-enumeration-constant

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **TYPE_PERLIN** = ``3``

A lattice of random gradients. Their dot products are interpolated to obtain values in between the lattices.

.. _class_FastNoiseLite_constant_TYPE_CELLULAR:

.. rst-class:: classref-enumeration-constant

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **TYPE_CELLULAR** = ``2``

Cellular includes both Worley noise and Voronoi diagrams which creates various regions of the same value.

.. _class_FastNoiseLite_constant_TYPE_SIMPLEX:

.. rst-class:: classref-enumeration-constant

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **TYPE_SIMPLEX** = ``0``

As opposed to :ref:`TYPE_PERLIN<class_FastNoiseLite_constant_TYPE_PERLIN>`, gradients exist in a simplex lattice rather than a grid lattice, avoiding directional artifacts.

.. _class_FastNoiseLite_constant_TYPE_SIMPLEX_SMOOTH:

.. rst-class:: classref-enumeration-constant

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **TYPE_SIMPLEX_SMOOTH** = ``1``

Modified, higher quality version of :ref:`TYPE_SIMPLEX<class_FastNoiseLite_constant_TYPE_SIMPLEX>`, but slower.

.. rst-class:: classref-item-separator

----

.. _enum_FastNoiseLite_FractalType:

.. rst-class:: classref-enumeration

enum **FractalType**: :ref:`🔗<enum_FastNoiseLite_FractalType>`

.. _class_FastNoiseLite_constant_FRACTAL_NONE:

.. rst-class:: classref-enumeration-constant

:ref:`FractalType<enum_FastNoiseLite_FractalType>` **FRACTAL_NONE** = ``0``

No fractal noise.

.. _class_FastNoiseLite_constant_FRACTAL_FBM:

.. rst-class:: classref-enumeration-constant

:ref:`FractalType<enum_FastNoiseLite_FractalType>` **FRACTAL_FBM** = ``1``

Method using Fractional Brownian Motion to combine octaves into a fractal.

.. _class_FastNoiseLite_constant_FRACTAL_RIDGED:

.. rst-class:: classref-enumeration-constant

:ref:`FractalType<enum_FastNoiseLite_FractalType>` **FRACTAL_RIDGED** = ``2``

Method of combining octaves into a fractal resulting in a "ridged" look.

.. _class_FastNoiseLite_constant_FRACTAL_PING_PONG:

.. rst-class:: classref-enumeration-constant

:ref:`FractalType<enum_FastNoiseLite_FractalType>` **FRACTAL_PING_PONG** = ``3``

Method of combining octaves into a fractal with a ping pong effect.

.. rst-class:: classref-item-separator

----

.. _enum_FastNoiseLite_CellularDistanceFunction:

.. rst-class:: classref-enumeration

enum **CellularDistanceFunction**: :ref:`🔗<enum_FastNoiseLite_CellularDistanceFunction>`

.. _class_FastNoiseLite_constant_DISTANCE_EUCLIDEAN:

.. rst-class:: classref-enumeration-constant

:ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` **DISTANCE_EUCLIDEAN** = ``0``

Euclidean distance to the nearest point.

.. _class_FastNoiseLite_constant_DISTANCE_EUCLIDEAN_SQUARED:

.. rst-class:: classref-enumeration-constant

:ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` **DISTANCE_EUCLIDEAN_SQUARED** = ``1``

Squared Euclidean distance to the nearest point.

.. _class_FastNoiseLite_constant_DISTANCE_MANHATTAN:

.. rst-class:: classref-enumeration-constant

:ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` **DISTANCE_MANHATTAN** = ``2``

Manhattan distance (taxicab metric) to the nearest point.

.. _class_FastNoiseLite_constant_DISTANCE_HYBRID:

.. rst-class:: classref-enumeration-constant

:ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` **DISTANCE_HYBRID** = ``3``

Blend of :ref:`DISTANCE_EUCLIDEAN<class_FastNoiseLite_constant_DISTANCE_EUCLIDEAN>` and :ref:`DISTANCE_MANHATTAN<class_FastNoiseLite_constant_DISTANCE_MANHATTAN>` to give curved cell boundaries

.. rst-class:: classref-item-separator

----

.. _enum_FastNoiseLite_CellularReturnType:

.. rst-class:: classref-enumeration

enum **CellularReturnType**: :ref:`🔗<enum_FastNoiseLite_CellularReturnType>`

.. _class_FastNoiseLite_constant_RETURN_CELL_VALUE:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_CELL_VALUE** = ``0``

The cellular distance function will return the same value for all points within a cell.

.. _class_FastNoiseLite_constant_RETURN_DISTANCE:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_DISTANCE** = ``1``

The cellular distance function will return a value determined by the distance to the nearest point.

.. _class_FastNoiseLite_constant_RETURN_DISTANCE2:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_DISTANCE2** = ``2``

The cellular distance function returns the distance to the second-nearest point.

.. _class_FastNoiseLite_constant_RETURN_DISTANCE2_ADD:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_DISTANCE2_ADD** = ``3``

The distance to the nearest point is added to the distance to the second-nearest point.

.. _class_FastNoiseLite_constant_RETURN_DISTANCE2_SUB:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_DISTANCE2_SUB** = ``4``

The distance to the nearest point is subtracted from the distance to the second-nearest point.

.. _class_FastNoiseLite_constant_RETURN_DISTANCE2_MUL:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_DISTANCE2_MUL** = ``5``

The distance to the nearest point is multiplied with the distance to the second-nearest point.

.. _class_FastNoiseLite_constant_RETURN_DISTANCE2_DIV:

.. rst-class:: classref-enumeration-constant

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **RETURN_DISTANCE2_DIV** = ``6``

The distance to the nearest point is divided by the distance to the second-nearest point.

.. rst-class:: classref-item-separator

----

.. _enum_FastNoiseLite_DomainWarpType:

.. rst-class:: classref-enumeration

enum **DomainWarpType**: :ref:`🔗<enum_FastNoiseLite_DomainWarpType>`

.. _class_FastNoiseLite_constant_DOMAIN_WARP_SIMPLEX:

.. rst-class:: classref-enumeration-constant

:ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>` **DOMAIN_WARP_SIMPLEX** = ``0``

The domain is warped using the simplex noise algorithm.

.. _class_FastNoiseLite_constant_DOMAIN_WARP_SIMPLEX_REDUCED:

.. rst-class:: classref-enumeration-constant

:ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>` **DOMAIN_WARP_SIMPLEX_REDUCED** = ``1``

The domain is warped using a simplified version of the simplex noise algorithm.

.. _class_FastNoiseLite_constant_DOMAIN_WARP_BASIC_GRID:

.. rst-class:: classref-enumeration-constant

:ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>` **DOMAIN_WARP_BASIC_GRID** = ``2``

The domain is warped using a simple noise grid (not as smooth as the other methods, but more performant).

.. rst-class:: classref-item-separator

----

.. _enum_FastNoiseLite_DomainWarpFractalType:

.. rst-class:: classref-enumeration

enum **DomainWarpFractalType**: :ref:`🔗<enum_FastNoiseLite_DomainWarpFractalType>`

.. _class_FastNoiseLite_constant_DOMAIN_WARP_FRACTAL_NONE:

.. rst-class:: classref-enumeration-constant

:ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>` **DOMAIN_WARP_FRACTAL_NONE** = ``0``

No fractal noise for warping the space.

.. _class_FastNoiseLite_constant_DOMAIN_WARP_FRACTAL_PROGRESSIVE:

.. rst-class:: classref-enumeration-constant

:ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>` **DOMAIN_WARP_FRACTAL_PROGRESSIVE** = ``1``

Warping the space progressively, octave for octave, resulting in a more "liquified" distortion.

.. _class_FastNoiseLite_constant_DOMAIN_WARP_FRACTAL_INDEPENDENT:

.. rst-class:: classref-enumeration-constant

:ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>` **DOMAIN_WARP_FRACTAL_INDEPENDENT** = ``2``

Warping the space independently for each octave, resulting in a more chaotic distortion.

.. rst-class:: classref-section-separator

----

.. rst-class:: classref-descriptions-group

Property Descriptions
---------------------

.. _class_FastNoiseLite_property_cellular_distance_function:

.. rst-class:: classref-property

:ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` **cellular_distance_function** = ``0`` :ref:`🔗<class_FastNoiseLite_property_cellular_distance_function>`

.. rst-class:: classref-property-setget

- |void| **set_cellular_distance_function**\ (\ value\: :ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>`\ )
- :ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` **get_cellular_distance_function**\ (\ )

Determines how the distance to the nearest/second-nearest point is computed. See :ref:`CellularDistanceFunction<enum_FastNoiseLite_CellularDistanceFunction>` for options.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_cellular_jitter:

.. rst-class:: classref-property

:ref:`float<class_float>` **cellular_jitter** = ``1.0`` :ref:`🔗<class_FastNoiseLite_property_cellular_jitter>`

.. rst-class:: classref-property-setget

- |void| **set_cellular_jitter**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_cellular_jitter**\ (\ )

Maximum distance a point can move off of its grid position. Set to ``0`` for an even grid.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_cellular_return_type:

.. rst-class:: classref-property

:ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **cellular_return_type** = ``1`` :ref:`🔗<class_FastNoiseLite_property_cellular_return_type>`

.. rst-class:: classref-property-setget

- |void| **set_cellular_return_type**\ (\ value\: :ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>`\ )
- :ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>` **get_cellular_return_type**\ (\ )

Return type from cellular noise calculations. See :ref:`CellularReturnType<enum_FastNoiseLite_CellularReturnType>`.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_amplitude:

.. rst-class:: classref-property

:ref:`float<class_float>` **domain_warp_amplitude** = ``30.0`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_amplitude>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_amplitude**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_domain_warp_amplitude**\ (\ )

Sets the maximum warp distance from the origin.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_enabled:

.. rst-class:: classref-property

:ref:`bool<class_bool>` **domain_warp_enabled** = ``false`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_enabled>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_enabled**\ (\ value\: :ref:`bool<class_bool>`\ )
- :ref:`bool<class_bool>` **is_domain_warp_enabled**\ (\ )

If enabled, another FastNoiseLite instance is used to warp the space, resulting in a distortion of the noise.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_fractal_gain:

.. rst-class:: classref-property

:ref:`float<class_float>` **domain_warp_fractal_gain** = ``0.5`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_fractal_gain>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_fractal_gain**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_domain_warp_fractal_gain**\ (\ )

Determines the strength of each subsequent layer of the noise which is used to warp the space.

A low value places more emphasis on the lower frequency base layers, while a high value puts more emphasis on the higher frequency layers.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_fractal_lacunarity:

.. rst-class:: classref-property

:ref:`float<class_float>` **domain_warp_fractal_lacunarity** = ``6.0`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_fractal_lacunarity>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_fractal_lacunarity**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_domain_warp_fractal_lacunarity**\ (\ )

Octave lacunarity of the fractal noise which warps the space. Increasing this value results in higher octaves producing noise with finer details and a rougher appearance.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_fractal_octaves:

.. rst-class:: classref-property

:ref:`int<class_int>` **domain_warp_fractal_octaves** = ``5`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_fractal_octaves>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_fractal_octaves**\ (\ value\: :ref:`int<class_int>`\ )
- :ref:`int<class_int>` **get_domain_warp_fractal_octaves**\ (\ )

The number of noise layers that are sampled to get the final value for the fractal noise which warps the space.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_fractal_type:

.. rst-class:: classref-property

:ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>` **domain_warp_fractal_type** = ``1`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_fractal_type>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_fractal_type**\ (\ value\: :ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>`\ )
- :ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>` **get_domain_warp_fractal_type**\ (\ )

The method for combining octaves into a fractal which is used to warp the space. See :ref:`DomainWarpFractalType<enum_FastNoiseLite_DomainWarpFractalType>`.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_frequency:

.. rst-class:: classref-property

:ref:`float<class_float>` **domain_warp_frequency** = ``0.05`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_frequency>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_frequency**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_domain_warp_frequency**\ (\ )

Frequency of the noise which warps the space. Low frequency results in smooth noise while high frequency results in rougher, more granular noise.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_domain_warp_type:

.. rst-class:: classref-property

:ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>` **domain_warp_type** = ``0`` :ref:`🔗<class_FastNoiseLite_property_domain_warp_type>`

.. rst-class:: classref-property-setget

- |void| **set_domain_warp_type**\ (\ value\: :ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>`\ )
- :ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>` **get_domain_warp_type**\ (\ )

Sets the warp algorithm. See :ref:`DomainWarpType<enum_FastNoiseLite_DomainWarpType>`.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_fractal_gain:

.. rst-class:: classref-property

:ref:`float<class_float>` **fractal_gain** = ``0.5`` :ref:`🔗<class_FastNoiseLite_property_fractal_gain>`

.. rst-class:: classref-property-setget

- |void| **set_fractal_gain**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_fractal_gain**\ (\ )

Determines the strength of each subsequent layer of noise in fractal noise.

A low value places more emphasis on the lower frequency base layers, while a high value puts more emphasis on the higher frequency layers.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_fractal_lacunarity:

.. rst-class:: classref-property

:ref:`float<class_float>` **fractal_lacunarity** = ``2.0`` :ref:`🔗<class_FastNoiseLite_property_fractal_lacunarity>`

.. rst-class:: classref-property-setget

- |void| **set_fractal_lacunarity**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_fractal_lacunarity**\ (\ )

Frequency multiplier between subsequent octaves. Increasing this value results in higher octaves producing noise with finer details and a rougher appearance.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_fractal_octaves:

.. rst-class:: classref-property

:ref:`int<class_int>` **fractal_octaves** = ``5`` :ref:`🔗<class_FastNoiseLite_property_fractal_octaves>`

.. rst-class:: classref-property-setget

- |void| **set_fractal_octaves**\ (\ value\: :ref:`int<class_int>`\ )
- :ref:`int<class_int>` **get_fractal_octaves**\ (\ )

The number of noise layers that are sampled to get the final value for fractal noise types.

.. rst-class:: classref-item-separator

----

.. _class_FastNoiseLite_property_fractal_ping_pong_strength:

.. rst-class:: classref-property

:ref:`float<class_float>` **fractal_ping_pong_strength** = ``2.0`` :ref:`🔗<class_FastNoiseLite_property_fractal_ping_pong_strength>`

.. rst-class:: classref-property-setget

- |void| **set_fractal_ping_pong_strength**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_fractal_ping_pong_strength**\ (\ )

Sets the strength of the fractal ping pong type.

.. rst-class:: classref-item-separator

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.. _class_FastNoiseLite_property_fractal_type:

.. rst-class:: classref-property

:ref:`FractalType<enum_FastNoiseLite_FractalType>` **fractal_type** = ``1`` :ref:`🔗<class_FastNoiseLite_property_fractal_type>`

.. rst-class:: classref-property-setget

- |void| **set_fractal_type**\ (\ value\: :ref:`FractalType<enum_FastNoiseLite_FractalType>`\ )
- :ref:`FractalType<enum_FastNoiseLite_FractalType>` **get_fractal_type**\ (\ )

The method for combining octaves into a fractal. See :ref:`FractalType<enum_FastNoiseLite_FractalType>`.

.. rst-class:: classref-item-separator

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.. _class_FastNoiseLite_property_fractal_weighted_strength:

.. rst-class:: classref-property

:ref:`float<class_float>` **fractal_weighted_strength** = ``0.0`` :ref:`🔗<class_FastNoiseLite_property_fractal_weighted_strength>`

.. rst-class:: classref-property-setget

- |void| **set_fractal_weighted_strength**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_fractal_weighted_strength**\ (\ )

Higher weighting means higher octaves have less impact if lower octaves have a large impact.

.. rst-class:: classref-item-separator

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.. _class_FastNoiseLite_property_frequency:

.. rst-class:: classref-property

:ref:`float<class_float>` **frequency** = ``0.01`` :ref:`🔗<class_FastNoiseLite_property_frequency>`

.. rst-class:: classref-property-setget

- |void| **set_frequency**\ (\ value\: :ref:`float<class_float>`\ )
- :ref:`float<class_float>` **get_frequency**\ (\ )

The frequency for all noise types. Low frequency results in smooth noise while high frequency results in rougher, more granular noise.

.. rst-class:: classref-item-separator

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.. _class_FastNoiseLite_property_noise_type:

.. rst-class:: classref-property

:ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **noise_type** = ``1`` :ref:`🔗<class_FastNoiseLite_property_noise_type>`

.. rst-class:: classref-property-setget

- |void| **set_noise_type**\ (\ value\: :ref:`NoiseType<enum_FastNoiseLite_NoiseType>`\ )
- :ref:`NoiseType<enum_FastNoiseLite_NoiseType>` **get_noise_type**\ (\ )

The noise algorithm used. See :ref:`NoiseType<enum_FastNoiseLite_NoiseType>`.

.. rst-class:: classref-item-separator

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.. _class_FastNoiseLite_property_offset:

.. rst-class:: classref-property

:ref:`Vector3<class_Vector3>` **offset** = ``Vector3(0, 0, 0)`` :ref:`🔗<class_FastNoiseLite_property_offset>`

.. rst-class:: classref-property-setget

- |void| **set_offset**\ (\ value\: :ref:`Vector3<class_Vector3>`\ )
- :ref:`Vector3<class_Vector3>` **get_offset**\ (\ )

Translate the noise input coordinates by the given :ref:`Vector3<class_Vector3>`.

.. rst-class:: classref-item-separator

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.. _class_FastNoiseLite_property_seed:

.. rst-class:: classref-property

:ref:`int<class_int>` **seed** = ``0`` :ref:`🔗<class_FastNoiseLite_property_seed>`

.. rst-class:: classref-property-setget

- |void| **set_seed**\ (\ value\: :ref:`int<class_int>`\ )
- :ref:`int<class_int>` **get_seed**\ (\ )

The random number seed for all noise types.

.. |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.)`