unreal.Vector2D

class unreal.Vector2D(x: float = 0.0, y: float = 0.0)

Bases: StructBase

A vector in 2-D space composed of components (X, Y) with floating point precision. note: The full C++ class is located here: EngineSourceRuntimeCorePublicMathVector2D.h

C++ Source:

  • Module: CoreUObject

  • File: NoExportTypes.h

Editor Properties: (see get_editor_property/set_editor_property)

  • x (double): [Read-Write]

  • y (double): [Read-Write]

ONE: Vector2D

2D one vector constant (1,1)

Type:

(Vector2D)

UNIT45_DEG: Vector2D

//en.wikipedia.org/wiki/Unit_vector

Type:

(Vector2D)

Type:

2D unit vector constant along the 45 degree angle or symmetrical positive axes (sqrt(.5),sqrt(.5)) or (.707,.707). https

ZERO: Vector2D

2D zero vector constant (0,0)

Type:

(Vector2D)

__add__(other: Vector2D) None

Overloads:

  • Vector2D Returns addition of Vector A and Vector B (A + B)

  • double Returns Vector A added by B

__eq__(other: object) bool

Overloads:

  • Vector2D Returns true if vector A is equal to vector B (A == B)

__iadd__(other: Vector2D) None

Overloads:

  • Vector2D Returns addition of Vector A and Vector B (A + B)

  • double Returns Vector A added by B

__imul__(other: Vector2D) None

Overloads:

  • Vector2D Element-wise Vector multiplication (Result = {A.x*B.x, A.y*B.y})

  • double Returns Vector A scaled by B

__isub__(other: Vector2D) None

Overloads:

  • Vector2D Returns subtraction of Vector B from Vector A (A - B)

  • double Returns Vector A subtracted by B

__mul__(other: Vector2D) None

Overloads:

  • Vector2D Element-wise Vector multiplication (Result = {A.x*B.x, A.y*B.y})

  • double Returns Vector A scaled by B

__ne__(other: object) bool

Overloads:

  • Vector2D Returns true if vector2D A is not equal to vector2D B (A != B) within a specified error tolerance

__neg__() None

Gets a negated copy of the vector.

__or__(other: Vector2D) None

Overloads:

__sub__(other: Vector2D) None

Overloads:

  • Vector2D Returns subtraction of Vector B from Vector A (A - B)

  • double Returns Vector A subtracted by B

__truediv__(other: Vector2D) None

Overloads:

  • Vector2D Element-wise Vector divide (Result = {A.x/B.x, A.y/B.y})

  • double Returns Vector A divided by B

__xor__(other: Vector2D) None

Overloads:

add(b) Vector2D

Returns addition of Vector A and Vector B (A + B)

Parameters:

b (Vector2D) –

Return type:

Vector2D

add_float(b) Vector2D

Returns Vector A added by B

Parameters:

b (double) –

Return type:

Vector2D

clamped_axes(min_axis_val, max_axis_val) Vector2D

Creates a copy of this vector with both axes clamped to the given range.

Parameters:
  • min_axis_val (double) –

  • max_axis_val (double) –

Returns:

New vector with clamped axes.

Return type:

Vector2D

cross(b) double

Returns the cross product of two 2d vectors - see http://mathworld.wolfram.com/CrossProduct.html

Parameters:

b (Vector2D) –

Return type:

double

distance(v2) double

Distance between two 2D points.

Parameters:

v2 (Vector2D) – The second point.

Returns:

The distance between two 2D points.

Return type:

double

distance_squared(v2) double

Squared distance between two 2D points.

Parameters:

v2 (Vector2D) – The second point.

Returns:

The squared distance between two 2D points.

Return type:

double

divide(b) Vector2D

Element-wise Vector divide (Result = {A.x/B.x, A.y/B.y})

Parameters:

b (Vector2D) –

Return type:

Vector2D

divide_float(b=1.000000) Vector2D

Returns Vector A divided by B

Parameters:

b (double) –

Return type:

Vector2D

dot(b) double

Returns the dot product of two 2d vectors - see http://mathworld.wolfram.com/DotProduct.html

Parameters:

b (Vector2D) –

Return type:

double

equals(b) bool

Returns true if vector A is equal to vector B (A == B)

Parameters:

b (Vector2D) –

Return type:

bool

get_abs() Vector2D

Get a copy of this vector with absolute value of each component.

Returns:

A copy of this vector with absolute value of each component.

Return type:

Vector2D

get_abs_max() double

Get the maximum absolute value of the vector’s components.

Returns:

The maximum absolute value of the vector’s components.

Return type:

double

get_max() double

Get the maximum value of the vector’s components.

Returns:

The maximum value of the vector’s components.

Return type:

double

get_min() double

Get the minimum value of the vector’s components.

Returns:

The minimum value of the vector’s components.

Return type:

double

get_rotated(angle_deg) Vector2D

Rotates around axis (0,0,1)

Parameters:

angle_deg (float) – Angle to rotate (in degrees)

Returns:

Rotated Vector

Return type:

Vector2D

int_point() IntPoint

Converts a Vector2D to an IntPoint

Return type:

IntPoint

interp_to(target, delta_time, interp_speed) Vector2D

Tries to reach Target based on distance from Current position, giving a nice smooth feeling when tracking a position.

Parameters:
  • target (Vector2D) – Target position

  • delta_time (float) – Time since last tick

  • interp_speed (float) – Interpolation speed, if the speed given is 0, then jump to the target.

Returns:

New interpolated position

Return type:

Vector2D

interp_to_constant(target, delta_time, interp_speed) Vector2D

Tries to reach Target at a constant rate.

Parameters:
  • target (Vector2D) – Target position

  • delta_time (float) – Time since last tick

  • interp_speed (float) – Interpolation speed

Returns:

New interpolated position

Return type:

Vector2D

is_near_equal(b, error_tolerance=0.000100) bool

Returns true if vector2D A is equal to vector2D B (A == B) within a specified error tolerance

Parameters:
Return type:

bool

is_nearly_zero(tolerance=0.000100) bool

Checks whether vector is near to zero within a specified tolerance.

Parameters:

tolerance (float) – Error tolerance.

Returns:

true if vector is in tolerance to zero, otherwise false.

Return type:

bool

is_not_near_equal(b, error_tolerance=0.000100) bool

Returns true if vector2D A is not equal to vector2D B (A != B) within a specified error tolerance

Parameters:
Return type:

bool

is_zero() bool

Checks whether all components of the vector are exactly zero.

Returns:

true if vector is exactly zero, otherwise false.

Return type:

bool

length() double

Returns the length of a 2D Vector.

Return type:

double

length_squared() double

Returns the squared length of a 2D Vector.

Return type:

double

multiply(b) Vector2D

Element-wise Vector multiplication (Result = {A.x*B.x, A.y*B.y})

Parameters:

b (Vector2D) –

Return type:

Vector2D

multiply_float(b) Vector2D

Returns Vector A scaled by B

Parameters:

b (double) –

Return type:

Vector2D

negated() Vector2D

Gets a negated copy of the vector.

Return type:

Vector2D

normal(tolerance=0.000000) Vector2D

Gets a normalized copy of the vector, checking it is safe to do so based on the length. Returns zero vector if vector length is too small to safely normalize.

Parameters:

tolerance (float) – Minimum squared length of vector for normalization.

Returns:

A normalized copy of the vector if safe, (0,0) otherwise.

Return type:

Vector2D

normal_unsafe() Vector2D

Returns a unit normal version of the 2D vector

Return type:

Vector2D

normalize(tolerance=0.000000) None

Normalize this vector in-place if it is large enough, set it to (0,0) otherwise. see: NormalSafe2D()

Parameters:

tolerance (float) – Minimum squared length of vector for normalization.

not_equal(b) bool

Returns true if vector2D A is not equal to vector2D B (A != B) within a specified error tolerance

Parameters:

b (Vector2D) –

Return type:

bool

set(x, y) None

Set the values of the vector directly.

Parameters:
  • x (double) –

  • y (double) –

spherical_to_unit_cartesian() Vector

Converts spherical coordinates on the unit sphere into a Cartesian unit length vector.

Return type:

Vector

subtract(b) Vector2D

Returns subtraction of Vector B from Vector A (A - B)

Parameters:

b (Vector2D) –

Return type:

Vector2D

subtract_float(b) Vector2D

Returns Vector A subtracted by B

Parameters:

b (double) –

Return type:

Vector2D

to_direction_and_length() -> (out_dir=Vector2D, out_length=double)

Util to convert this vector into a unit direction vector and its original length.

Returns:

out_dir (Vector2D): Reference passed in to store unit direction vector.

out_length (double): Reference passed in to store length of the vector.

Return type:

tuple

to_rounded() Vector2D

Get this vector as a vector where each component has been rounded to the nearest int.

Returns:

New FVector2D from this vector that is rounded.

Return type:

Vector2D

to_sign() Vector2D

Get a copy of the vector as sign only. Each component is set to +1 or -1, with the sign of zero treated as +1.

Returns:

A copy of the vector with each component set to +1 or -1

Return type:

Vector2D

vector(z=0.000000) Vector

Converts a Vector2D to a Vector

Parameters:

z (float) –

Return type:

Vector

property x: float

[Read-Write]

Type:

(double)

property y: float

[Read-Write]

Type:

(double)