VisualScriptBuiltinFunc

Inherits: VisualScriptNode < Resource < Reference < Object

A Visual Script node used to call built-in functions.

Description

A built-in function used inside a VisualScript. It is usually a math function or an utility function.

See also @GDScript, for the same functions in the GDScript language.

Properties

BuiltinFunc function 0

Enumerations

enum BuiltinFunc:

  • MATH_SIN = 0 — Return the sine of the input.
  • MATH_COS = 1 — Return the cosine of the input.
  • MATH_TAN = 2 — Return the tangent of the input.
  • MATH_SINH = 3 — Return the hyperbolic sine of the input.
  • MATH_COSH = 4 — Return the hyperbolic cosine of the input.
  • MATH_TANH = 5 — Return the hyperbolic tangent of the input.
  • MATH_ASIN = 6 — Return the arc sine of the input.
  • MATH_ACOS = 7 — Return the arc cosine of the input.
  • MATH_ATAN = 8 — Return the arc tangent of the input.
  • MATH_ATAN2 = 9 — Return the arc tangent of the input, using the signs of both parameters to determine the exact angle.
  • MATH_SQRT = 10 — Return the square root of the input.
  • MATH_FMOD = 11 — Return the remainder of one input divided by the other, using floating-point numbers.
  • MATH_FPOSMOD = 12 — Return the positive remainder of one input divided by the other, using floating-point numbers.
  • MATH_FLOOR = 13 — Return the input rounded down.
  • MATH_CEIL = 14 — Return the input rounded up.
  • MATH_ROUND = 15 — Return the input rounded to the nearest integer.
  • MATH_ABS = 16 — Return the absolute value of the input.
  • MATH_SIGN = 17 — Return the sign of the input, turning it into 1, -1, or 0. Useful to determine if the input is positive or negative.
  • MATH_POW = 18 — Return the input raised to a given power.
  • MATH_LOG = 19 — Return the natural logarithm of the input. Note that this is not the typical base-10 logarithm function calculators use.
  • MATH_EXP = 20 — Return the mathematical constant e raised to the specified power of the input. e has an approximate value of 2.71828.
  • MATH_ISNAN = 21 — Return whether the input is NaN (Not a Number) or not. NaN is usually produced by dividing 0 by 0, though other ways exist.
  • MATH_ISINF = 22 — Return whether the input is an infinite floating-point number or not. Infinity is usually produced by dividing a number by 0, though other ways exist.
  • MATH_EASE = 23 — Easing function, based on exponent. 0 is constant, 1 is linear, 0 to 1 is ease-in, 1+ is ease out. Negative values are in-out/out in.
  • MATH_DECIMALS = 24 — Return the number of digit places after the decimal that the first non-zero digit occurs.
  • MATH_STEPIFY = 25 — Return the input snapped to a given step.
  • MATH_LERP = 26 — Return a number linearly interpolated between the first two inputs, based on the third input. Uses the formula a + (a - b) * t.
  • MATH_INVERSE_LERP = 27
  • MATH_RANGE_LERP = 28
  • MATH_MOVE_TOWARD = 29 — Moves the number toward a value, based on the third input.
  • MATH_DECTIME = 30 — Return the result of value decreased by step * amount.
  • MATH_RANDOMIZE = 31 — Randomize the seed (or the internal state) of the random number generator. Current implementation reseeds using a number based on time.
  • MATH_RAND = 32 — Return a random 32 bits integer value. To obtain a random value between 0 to N (where N is smaller than 2^32 - 1), you can use it with the remainder function.
  • MATH_RANDF = 33 — Return a random floating-point value between 0 and 1. To obtain a random value between 0 to N, you can use it with multiplication.
  • MATH_RANDOM = 34 — Return a random floating-point value between the two inputs.
  • MATH_SEED = 35 — Set the seed for the random number generator.
  • MATH_RANDSEED = 36 — Return a random value from the given seed, along with the new seed.
  • MATH_DEG2RAD = 37 — Convert the input from degrees to radians.
  • MATH_RAD2DEG = 38 — Convert the input from radians to degrees.
  • MATH_LINEAR2DB = 39 — Convert the input from linear volume to decibel volume.
  • MATH_DB2LINEAR = 40 — Convert the input from decibel volume to linear volume.
  • MATH_POLAR2CARTESIAN = 41 — Converts a 2D point expressed in the polar coordinate system (a distance from the origin r and an angle th) to the cartesian coordinate system (X and Y axis).
  • MATH_CARTESIAN2POLAR = 42 — Converts a 2D point expressed in the cartesian coordinate system (X and Y axis) to the polar coordinate system (a distance from the origin and an angle).
  • MATH_WRAP = 43
  • MATH_WRAPF = 44
  • LOGIC_MAX = 45 — Return the greater of the two numbers, also known as their maximum.
  • LOGIC_MIN = 46 — Return the lesser of the two numbers, also known as their minimum.
  • LOGIC_CLAMP = 47 — Return the input clamped inside the given range, ensuring the result is never outside it. Equivalent to min(max(input, range_low), range_high).
  • LOGIC_NEAREST_PO2 = 48 — Return the nearest power of 2 to the input.
  • OBJ_WEAKREF = 49 — Create a WeakRef from the input.
  • FUNC_FUNCREF = 50 — Create a FuncRef from the input.
  • TYPE_CONVERT = 51 — Convert between types.
  • TYPE_OF = 52 — Return the type of the input as an integer. Check Variant.Type for the integers that might be returned.
  • TYPE_EXISTS = 53 — Checks if a type is registered in the ClassDB.
  • TEXT_CHAR = 54 — Return a character with the given ascii value.
  • TEXT_STR = 55 — Convert the input to a string.
  • TEXT_PRINT = 56 — Print the given string to the output window.
  • TEXT_PRINTERR = 57 — Print the given string to the standard error output.
  • TEXT_PRINTRAW = 58 — Print the given string to the standard output, without adding a newline.
  • VAR_TO_STR = 59 — Serialize a Variant to a string.
  • STR_TO_VAR = 60 — Deserialize a Variant from a string serialized using VAR_TO_STR.
  • VAR_TO_BYTES = 61 — Serialize a Variant to a PoolByteArray.
  • BYTES_TO_VAR = 62 — Deserialize a Variant from a PoolByteArray serialized using VAR_TO_BYTES.
  • COLORN = 63 — Return the Color with the given name and alpha ranging from 0 to 1.

Note: Names are defined in color_names.inc.

  • MATH_SMOOTHSTEP = 64 — Return a number smoothly interpolated between the first two inputs, based on the third input. Similar to MATH_LERP, but interpolates faster at the beginning and slower at the end. Using Hermite interpolation formula:
var t = clamp((weight - from) / (to - from), 0.0, 1.0)
return t * t * (3.0 - 2.0 * t)
  • MATH_POSMOD = 65
  • MATH_LERP_ANGLE = 66
  • TEXT_ORD = 67
  • FUNC_MAX = 68 — Represents the size of the BuiltinFunc enum.

Property Descriptions

Default 0
Setter set_func(value)
Getter get_func()

The function to be executed.