NavigationPolygon

实验性: This class may be changed or removed in future versions.

继承: Resource < RefCounted < Object

A 2D navigation mesh that describes a traversable surface for pathfinding.

描述

A navigation mesh can be created either by baking it with the help of the NavigationServer2D, or by adding vertices and convex polygon indices arrays manually.

To bake a navigation mesh at least one outline needs to be added that defines the outer bounds of the baked area.


    var new_navigation_mesh = NavigationPolygon.new()
    var bounding_outline = PackedVector2Array([Vector2(0, 0), Vector2(0, 50), Vector2(50, 50), Vector2(50, 0)])
    new_navigation_mesh.add_outline(bounding_outline)
    NavigationServer2D.bake_from_source_geometry_data(new_navigation_mesh, NavigationMeshSourceGeometryData2D.new());
    $NavigationRegion2D.navigation_polygon = new_navigation_mesh


    var newNavigationMesh = new NavigationPolygon();
    var boundingOutline = new Vector2[] { new Vector2(0, 0), new Vector2(0, 50), new Vector2(50, 50), new Vector2(50, 0) };
    newNavigationMesh.AddOutline(boundingOutline);
    NavigationServer2D.BakeFromSourceGeometryData(newNavigationMesh, new NavigationMeshSourceGeometryData2D());
    GetNode<NavigationRegion2D>("NavigationRegion2D").NavigationPolygon = newNavigationMesh;

Adding vertices and polygon indices manually.


    var new_navigation_mesh = NavigationPolygon.new()
    var new_vertices = PackedVector2Array([Vector2(0, 0), Vector2(0, 50), Vector2(50, 50), Vector2(50, 0)])
    new_navigation_mesh.vertices = new_vertices
    var new_polygon_indices = PackedInt32Array([0, 1, 2, 3])
    new_navigation_mesh.add_polygon(new_polygon_indices)
    $NavigationRegion2D.navigation_polygon = new_navigation_mesh


    var newNavigationMesh = new NavigationPolygon();
    var newVertices = new Vector2[] { new Vector2(0, 0), new Vector2(0, 50), new Vector2(50, 50), new Vector2(50, 0) };
    newNavigationMesh.Vertices = newVertices;
    var newPolygonIndices = new int[] { 0, 1, 2, 3 };
    newNavigationMesh.AddPolygon(newPolygonIndices);
    GetNode<NavigationRegion2D>("NavigationRegion2D").NavigationPolygon = newNavigationMesh;

属性
floatagent_radius
Rect2baking_rect
Vector2baking_rect_offset
floatborder_size
floatcell_size
intparsed_collision_mask
ParsedGeometryTypeparsed_geometry_type
SamplePartitionTypesample_partition_type
StringNamesource_geometry_group_name
SourceGeometryModesource_geometry_mode

方法
voidadd_outline ( outline: PackedVector2Array )
voidadd_outline_at_index ( outline: PackedVector2Array, index: int )
voidadd_polygon ( polygon: PackedInt32Array )
voidclear ( )
voidclear_outlines ( )
voidclear_polygons ( )
NavigationMeshget_navigation_mesh ( )
PackedVector2Arrayget_outline ( idx: int ) const1
intget_outline_count ( ) const1
boolget_parsed_collision_mask_value ( layer_number: int ) const1
PackedInt32Arrayget_polygon ( idx: int )
intget_polygon_count ( ) const1
PackedVector2Arrayget_vertices ( ) const1
voidmake_polygons_from_outlines ( )
voidremove_outline ( idx: int )
voidset_outline ( idx: int, outline: PackedVector2Array )
voidset_parsed_collision_mask_value ( layer_number: int, value: bool )
voidset_vertices ( vertices: PackedVector2Array )

枚举

enum SamplePartitionType:

SamplePartitionType SAMPLE_PARTITION_CONVEX_PARTITION = 0

Convex partitioning that yields navigation mesh with convex polygons.

SamplePartitionType SAMPLE_PARTITION_TRIANGULATE = 1

Triangulation partitioning that yields navigation mesh with triangle polygons.

SamplePartitionType SAMPLE_PARTITION_MAX = 2

Represents the size of the SamplePartitionType enum.

enum ParsedGeometryType:

ParsedGeometryType PARSED_GEOMETRY_MESH_INSTANCES = 0

Parses mesh instances as obstruction geometry. This includes Polygon2D, MeshInstance2D, MultiMeshInstance2D, and TileMap nodes.

Meshes are only parsed when they use a 2D vertices surface format.

ParsedGeometryType PARSED_GEOMETRY_STATIC_COLLIDERS = 1

Parses StaticBody2D and TileMap colliders as obstruction geometry. The collider should be in any of the layers specified by parsed_collision_mask.

ParsedGeometryType PARSED_GEOMETRY_BOTH = 2

Both PARSED_GEOMETRY_MESH_INSTANCES and PARSED_GEOMETRY_STATIC_COLLIDERS.

ParsedGeometryType PARSED_GEOMETRY_MAX = 3

Represents the size of the ParsedGeometryType enum.

enum SourceGeometryMode:

SourceGeometryMode SOURCE_GEOMETRY_ROOT_NODE_CHILDREN = 0

Scans the child nodes of the root node recursively for geometry.

SourceGeometryMode SOURCE_GEOMETRY_GROUPS_WITH_CHILDREN = 1

Scans nodes in a group and their child nodes recursively for geometry. The group is specified by source_geometry_group_name.

SourceGeometryMode SOURCE_GEOMETRY_GROUPS_EXPLICIT = 2

Uses nodes in a group for geometry. The group is specified by source_geometry_group_name.

SourceGeometryMode SOURCE_GEOMETRY_MAX = 3

Represents the size of the SourceGeometryMode enum.

属性说明

float agent_radius = 10.0

  • void set_agent_radius ( value: float )
  • float get_agent_radius ( )

The distance to erode/shrink the walkable surface when baking the navigation mesh.

Rect2 baking_rect = Rect2(0, 0, 0, 0)

  • void set_baking_rect ( value: Rect2 )
  • Rect2 get_baking_rect ( )

If the baking Rect2 has an area the navigation mesh baking will be restricted to its enclosing area.

Vector2 baking_rect_offset = Vector2(0, 0)

  • void set_baking_rect_offset ( value: Vector2 )
  • Vector2 get_baking_rect_offset ( )

The position offset applied to the baking_rect Rect2.

float border_size = 0.0

  • void set_border_size ( value: float )
  • float get_border_size ( )

The size of the non-navigable border around the bake bounding area defined by the baking_rect Rect2.

In conjunction with the baking_rect the border size can be used to bake tile aligned navigation meshes without the tile edges being shrunk by agent_radius.

float cell_size = 1.0

  • void set_cell_size ( value: float )
  • float get_cell_size ( )

The cell size used to rasterize the navigation mesh vertices. Must match with the cell size on the navigation map.

int parsed_collision_mask = 4294967295

  • void set_parsed_collision_mask ( value: int )
  • int get_parsed_collision_mask ( )

The physics layers to scan for static colliders.

Only used when parsed_geometry_type is PARSED_GEOMETRY_STATIC_COLLIDERS or PARSED_GEOMETRY_BOTH.

ParsedGeometryType parsed_geometry_type = 2

Determines which type of nodes will be parsed as geometry. See ParsedGeometryType for possible values.

SamplePartitionType sample_partition_type = 0

Partitioning algorithm for creating the navigation mesh polys. See SamplePartitionType for possible values.

StringName source_geometry_group_name = &"navigation_polygon_source_geometry_group"

  • void set_source_geometry_group_name ( value: StringName )
  • StringName get_source_geometry_group_name ( )

The group name of nodes that should be parsed for baking source geometry.

Only used when source_geometry_mode is SOURCE_GEOMETRY_GROUPS_WITH_CHILDREN or SOURCE_GEOMETRY_GROUPS_EXPLICIT.

SourceGeometryMode source_geometry_mode = 0

The source of the geometry used when baking. See SourceGeometryMode for possible values.

方法说明

void add_outline ( outline: PackedVector2Array )

Appends a PackedVector2Array that contains the vertices of an outline to the internal array that contains all the outlines.

void add_outline_at_index ( outline: PackedVector2Array, index: int )

Adds a PackedVector2Array that contains the vertices of an outline to the internal array that contains all the outlines at a fixed position.

void add_polygon ( polygon: PackedInt32Array )

Adds a polygon using the indices of the vertices you get when calling get_vertices.

void clear ( )

Clears the internal arrays for vertices and polygon indices.

void clear_outlines ( )

Clears the array of the outlines, but it doesn't clear the vertices and the polygons that were created by them.

void clear_polygons ( )

Clears the array of polygons, but it doesn't clear the array of outlines and vertices.

NavigationMesh get_navigation_mesh ( )

Returns the NavigationMesh resulting from this navigation polygon. This navigation mesh can be used to update the navigation mesh of a region with the NavigationServer3D.region_set_navigation_mesh API directly (as 2D uses the 3D server behind the scene).

PackedVector2Array get_outline ( idx: int ) const1

Returns a PackedVector2Array containing the vertices of an outline that was created in the editor or by script.

int get_outline_count ( ) const1

Returns the number of outlines that were created in the editor or by script.

bool get_parsed_collision_mask_value ( layer_number: int ) const1

Returns whether or not the specified layer of the parsed_collision_mask is enabled, given a layer_number between 1 and 32.

PackedInt32Array get_polygon ( idx: int )

Returns a PackedInt32Array containing the indices of the vertices of a created polygon.

int get_polygon_count ( ) const1

Returns the count of all polygons.

PackedVector2Array get_vertices ( ) const1

Returns a PackedVector2Array containing all the vertices being used to create the polygons.

void make_polygons_from_outlines ( )

已弃用: Use NavigationServer2D.parse_source_geometry_data and NavigationServer2D.bake_from_source_geometry_data instead.

Creates polygons from the outlines added in the editor or by script.

void remove_outline ( idx: int )

Removes an outline created in the editor or by script. You have to call make_polygons_from_outlines for the polygons to update.

void set_outline ( idx: int, outline: PackedVector2Array )

Changes an outline created in the editor or by script. You have to call make_polygons_from_outlines for the polygons to update.

void set_parsed_collision_mask_value ( layer_number: int, value: bool )

Based on value, enables or disables the specified layer in the parsed_collision_mask, given a layer_number between 1 and 32.

void set_vertices ( vertices: PackedVector2Array )

Sets the vertices that can be then indexed to create polygons with the add_polygon method.

2

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1

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3

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4

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5

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7

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8

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