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Vector2i

A 2D vector using integer coordinates.

Description

A 2-element structure that can be used to represent 2D grid coordinates or any other pair of integers.

It uses integer coordinates and is therefore preferable to Vector2 when exact precision is required. Note that the values are limited to 32 bits, and unlike Vector2 this cannot be configured with an engine build option. Use int or PackedInt64Array if 64-bit values are needed.

Note: In a boolean context, a Vector2i will evaluate to false if it's equal to Vector2i(0, 0). Otherwise, a Vector2i will always evaluate to true.

Tutorials

Properties

int

x

0

int

y

0

Constructors

Vector2i

Vector2i()

Vector2i

Vector2i(from: Vector2i)

Vector2i

Vector2i(from: Vector2)

Vector2i

Vector2i(x: int, y: int)

Methods

Vector2i

abs() const

float

aspect() const

Vector2i

clamp(min: Vector2i, max: Vector2i) const

Vector2i

clampi(min: int, max: int) const

int

distance_squared_to(to: Vector2i) const

float

distance_to(to: Vector2i) const

float

length() const

int

length_squared() const

Vector2i

max(with: Vector2i) const

int

max_axis_index() const

Vector2i

maxi(with: int) const

Vector2i

min(with: Vector2i) const

int

min_axis_index() const

Vector2i

mini(with: int) const

Vector2i

sign() const

Vector2i

snapped(step: Vector2i) const

Vector2i

snappedi(step: int) const

Operators

bool

operator !=(right: Vector2i)

Vector2i

operator %(right: Vector2i)

Vector2i

operator %(right: int)

Vector2i

operator *(right: Vector2i)

Vector2

operator *(right: float)

Vector2i

operator *(right: int)

Vector2i

operator +(right: Vector2i)

Vector2i

operator -(right: Vector2i)

Vector2i

operator /(right: Vector2i)

Vector2

operator /(right: float)

Vector2i

operator /(right: int)

bool

operator <(right: Vector2i)

bool

operator <=(right: Vector2i)

bool

operator ==(right: Vector2i)

bool

operator >(right: Vector2i)

bool

operator >=(right: Vector2i)

int

operator [](index: int)

Vector2i

operator unary+()

Vector2i

operator unary-()


Constants

AXIS_X = 0 🔗

Enumerated value for the X axis. Returned by max_axis_index and min_axis_index.

AXIS_Y = 1 🔗

Enumerated value for the Y axis. Returned by max_axis_index and min_axis_index.

ZERO = Vector2i(0, 0) 🔗

Zero vector, a vector with all components set to 0.

ONE = Vector2i(1, 1) 🔗

One vector, a vector with all components set to 1.

MIN = Vector2i(-2147483648, -2147483648) 🔗

Min vector, a vector with all components equal to INT32_MIN. Can be used as a negative integer equivalent of Vector2.INF.

MAX = Vector2i(2147483647, 2147483647) 🔗

Max vector, a vector with all components equal to INT32_MAX. Can be used as an integer equivalent of Vector2.INF.

LEFT = Vector2i(-1, 0) 🔗

Left unit vector. Represents the direction of left.

RIGHT = Vector2i(1, 0) 🔗

Right unit vector. Represents the direction of right.

UP = Vector2i(0, -1) 🔗

Up unit vector. Y is down in 2D, so this vector points -Y.

DOWN = Vector2i(0, 1) 🔗

Down unit vector. Y is down in 2D, so this vector points +Y.


Property Descriptions

int x = 0 🔗

The vector's X component. Also accessible by using the index position [0].


int y = 0 🔗

The vector's Y component. Also accessible by using the index position [1].


Constructor Descriptions

Vector2i Vector2i() 🔗

Constructs a default-initialized Vector2i with all components set to 0.


Vector2i Vector2i(from: Vector2i)

Constructs a Vector2i as a copy of the given Vector2i.


Vector2i Vector2i(from: Vector2)

Constructs a new Vector2i from the given Vector2 by truncating components' fractional parts (rounding towards zero). For a different behavior consider passing the result of Vector2.ceil, Vector2.floor or Vector2.round to this constructor instead.


Vector2i Vector2i(x: int, y: int)

Constructs a new Vector2i from the given x and y.


Method Descriptions

Vector2i abs() const 🔗

Returns a new vector with all components in absolute values (i.e. positive).


float aspect() const 🔗

Returns the aspect ratio of this vector, the ratio of x to y.


Vector2i clamp(min: Vector2i, max: Vector2i) const 🔗

Returns a new vector with all components clamped between the components of min and max, by running @GlobalScope.clamp on each component.


Vector2i clampi(min: int, max: int) const 🔗

Returns a new vector with all components clamped between min and max, by running @GlobalScope.clamp on each component.


int distance_squared_to(to: Vector2i) const 🔗

Returns the squared distance between this vector and to.

This method runs faster than distance_to, so prefer it if you need to compare vectors or need the squared distance for some formula.


float distance_to(to: Vector2i) const 🔗

Returns the distance between this vector and to.


float length() const 🔗

Returns the length (magnitude) of this vector.


int length_squared() const 🔗

Returns the squared length (squared magnitude) of this vector.

This method runs faster than length, so prefer it if you need to compare vectors or need the squared distance for some formula.


Vector2i max(with: Vector2i) const 🔗

Returns the component-wise maximum of this and with, equivalent to Vector2i(maxi(x, with.x), maxi(y, with.y)).


int max_axis_index() const 🔗

Returns the axis of the vector's highest value. See AXIS_* constants. If all components are equal, this method returns AXIS_X.


Vector2i maxi(with: int) const 🔗

Returns the component-wise maximum of this and with, equivalent to Vector2i(maxi(x, with), maxi(y, with)).


Vector2i min(with: Vector2i) const 🔗

Returns the component-wise minimum of this and with, equivalent to Vector2i(mini(x, with.x), mini(y, with.y)).


int min_axis_index() const 🔗

Returns the axis of the vector's lowest value. See AXIS_* constants. If all components are equal, this method returns AXIS_Y.


Vector2i mini(with: int) const 🔗

Returns the component-wise minimum of this and with, equivalent to Vector2i(mini(x, with), mini(y, with)).


Vector2i sign() const 🔗

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 @GlobalScope.sign on each component.


Vector2i snapped(step: Vector2i) const 🔗

Returns a new vector with each component snapped to the closest multiple of the corresponding component in step.


Vector2i snappedi(step: int) const 🔗

Returns a new vector with each component snapped to the closest multiple of step.


Operator Descriptions

bool operator !=(right: Vector2i) 🔗

Returns true if the vectors are not equal.


Vector2i operator %(right: Vector2i) 🔗

Gets the remainder of each component of the Vector2i with the components of the given Vector2i. This operation uses truncated division, which is often not desired as it does not work well with negative numbers. Consider using @GlobalScope.posmod instead if you want to handle negative numbers.

print(Vector2i(10, -20) % Vector2i(7, 8)) # Prints "(3, -4)"

Vector2i operator %(right: int) 🔗

Gets the remainder of each component of the Vector2i with the given int. This operation uses truncated division, which is often not desired as it does not work well with negative numbers. Consider using @GlobalScope.posmod instead if you want to handle negative numbers.

print(Vector2i(10, -20) % 7) # Prints "(3, -6)"

Vector2i operator *(right: Vector2i) 🔗

Multiplies each component of the Vector2i by the components of the given Vector2i.

print(Vector2i(10, 20) * Vector2i(3, 4)) # Prints "(30, 80)"

Vector2 operator *(right: float) 🔗

Multiplies each component of the Vector2i by the given float. Returns a Vector2.

print(Vector2i(10, 15) * 0.9) # Prints "(9, 13.5)"

Vector2i operator *(right: int) 🔗

Multiplies each component of the Vector2i by the given int.


Vector2i operator +(right: Vector2i) 🔗

Adds each component of the Vector2i by the components of the given Vector2i.

print(Vector2i(10, 20) + Vector2i(3, 4)) # Prints "(13, 24)"

Vector2i operator -(right: Vector2i) 🔗

Subtracts each component of the Vector2i by the components of the given Vector2i.

print(Vector2i(10, 20) - Vector2i(3, 4)) # Prints "(7, 16)"

Vector2i operator /(right: Vector2i) 🔗

Divides each component of the Vector2i by the components of the given Vector2i.

print(Vector2i(10, 20) / Vector2i(2, 5)) # Prints "(5, 4)"

Vector2 operator /(right: float) 🔗

Divides each component of the Vector2i by the given float. Returns a Vector2.

print(Vector2i(10, 20) / 2.9) # Prints "(5, 10)"

Vector2i operator /(right: int) 🔗

Divides each component of the Vector2i by the given int.


bool operator <(right: Vector2i) 🔗

Compares two Vector2i 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. This operator is useful for sorting vectors.


bool operator <=(right: Vector2i) 🔗

Compares two Vector2i 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. This operator is useful for sorting vectors.


bool operator ==(right: Vector2i) 🔗

Returns true if the vectors are equal.


bool operator >(right: Vector2i) 🔗

Compares two Vector2i 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. This operator is useful for sorting vectors.


bool operator >=(right: Vector2i) 🔗

Compares two Vector2i 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. This operator is useful for sorting vectors.


int operator [](index: int) 🔗

Access vector components using their index. v[0] is equivalent to v.x, and v[1] is equivalent to v.y.


Vector2i operator unary+() 🔗

Returns the same value as if the + was not there. Unary + does nothing, but sometimes it can make your code more readable.


Vector2i operator unary-() 🔗

Returns the negative value of the Vector2i. This is the same as writing Vector2i(-v.x, -v.y). This operation flips the direction of the vector while keeping the same magnitude.