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# System library
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haku comes with a set of built-in functions, called the _system library._
This is a reference for these functions.
## Preamble: how to read this reference
Each function comes with a _signature description_.
These descriptions read like this:
```haku
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stroke
thickness : number
color : rgba
position : vec
-> scribble
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```
The first element is always the function's name - in this case `stroke`.
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Following this are `argumentName : argumentType` pairs, which describe the arguments that need to be passed to the function.
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The last element is always the type of data this function produces.
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Function names which are made up of symbols instead of letters are _operators_.
Operators may have one or two arguments, where one argument corresponds to a prefix form `-x`, and two arguments correspond to an infix form `x - y`.
Note that this documentation lists a unary and binary operator of the same spelling as _two separate functions_, not overloads of a single function.
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The argument name usually does not matter when calling the function - it is only used for documentation purposes.
The one exception is arguments called `...`, which signify that zero or more arguments can be passed to the function at that position.
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(Currently there are no functions that accept any number of arguments, though.)
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The argument _type_ however is important.
If you try to use a function with the wrong type of value as its argument, it will fail with an error.
For example, consider a brush where we pass a number as `stroke`'s `color` and `position` arguments.
```haku
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stroke 1 1 1
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```
This brush will fail to render, since `stroke` expects an `rgba` as its 2nd argument.
With that said, there are several types of values in haku that can be passed into, and returned by functions.
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- `_` - special type used to signify that any value may be passed into the function.
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- `()` - also known as _nil_, means _no value._
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- `boolean` - either `False` or `True`. Indicates truth or falsehood, used in `if` conditions.
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- `number` - a real number, with 32 bits of precision.
- `vec` - a 4-dimensional vector, composed of four `number`s.
- `rgba` - an RGBA color, composed of four `number`s.
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- `\a -> r` - a function taking in the parameter `a` and returning `r`, as returned by `\x -> x` literals.
- `list t` - a list of values, where each value is of the type `t`.
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- `shape` - a mathematical shape.
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- `shapeLike` - anything that can be turned into a `shape` using `toShape`.
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- `scribble` - something that can be drawn on the wall.
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Additionally, the syntax `a | b` may be used to signify that one of the listed types is accepted or returned.
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## Math
```haku
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-
a : number
-> number
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-
a : vector
-> vector
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```
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`-`, when used in its unary form `-x`, returns the number `x` with the opposite sign.
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When used on vectors, returns the same vector facing the reverse direction (the individual components are negated.)
This operation is not defined for colors, because it doesn't make sense to have a color with negative RGBA values.
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```haku
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+
a : number
b : number
-> number
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+
a : vector
b : vector
-> vector
+
a : rgba
b : rgba
-> rgba
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```
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`+` adds two numbers, vectors, or colors together.
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```haku
-
a : number
b : number
-> number
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-
a : vector
b : vector
-> vector
-
a : rgba
b : rgba
-> rgba
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```
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`-`, when used in its binary form `x - y`, subtracts two numbers, vectors, or colors from one another.
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```haku
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*
a : number
b : number
-> number
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*
a : vector
b : vector
-> vector
*
a : rgba
b : rgba
-> rgba
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```
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`*` multiplies two numbers together.
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When used on vectors, it scales them component-wise.
Likewise for colors.
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```haku
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/
a : number
b : number
-> number
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/
a : vector
b : vector
-> vector
/
a : rgba
b : rgba
-> rgba
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```
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`/` divides a number by another number.
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When used on vectors, it divides them component-wise.
Likewise for colors.
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```haku
floor
x : number
-> number
ceil
x : number
-> number
round
x : number
-> number
```
`floor`, `ceil`, and `round` are rounding functions.
Each of them rounds a little differently:
- `floor` rounds towards -∞.
- `ceil` rounds towards +∞.
- `round` rounds half towards +∞.
```haku
abs
x : number
-> number
```
`abs` returns the absolute value of the given number.
If `x` is less than zero, returns `-x`.
Otherwise returns `x`.
```haku
mod
x : number
y : number
-> number
```
`mod` is the modulo operation.
It returns the remainder of dividing `x` by `y`.
haku uses the Euclidean definition, which means the remainder returned by `mod` is _always non-negative_.
```haku
pow
base : number
exponent : number
-> number
```
`pow` raises `base` to the given `exponent`.
```haku
sqrt
x : number
-> number
cbrt
x : nunber
-> number
```
`sqrt` returns the square root of the given number.
`cbrt` returns the cubic root of the given number.
Other roots may be obtained using `pow x (1 / base)`.
```haku
exp
x : number
-> number
ln
x : number
-> number
```
In the following functions, `e` is the base of the natural logarithm (approximately `2.7128`.)
The `e` constant (Euler's number) is currently not exposed to haku source code; you have to define it yourself.
`exp` is the exponential function `pow e x`.
`ln` is the natural logarithm (logarithm base `e` of `x`.)
```haku
expMinus1
x : number
-> number
ln1Plus
x : number
-> number
```
`expMinus1` is `pow e x - 1`, but accurate even when `x` is close to zero.
`ln1Plus` is `ln (1 + x)`, but more accurate than if the operations are performed separately.
```haku
exp2
x : number
-> number
```
`exp2` is the exponential function `pow 2 x`.
```haku
log2
x : number
-> number
log10
x : number
-> number
```
`log2` is the logarithm base `2` of `x`.
`log10` is the logarithm base `10` of `x`.
```haku
hypot
x : number
y : number
-> number
```
`hypot` is the hypotenuse of the Pythagorean triangle with right angle-adjacent sides `x` and `y`.
```haku
sin
x : number
-> number
cos
x : number
-> number
tan
x : number
-> number
```
`sin`, `cos`, and `tan` are the [trigonometric functions][] sine, cosine, and tangent.
Their argument `x` is counted in radians.
[trigonometric functions]: https://wikipedia.org/Trigonometric_functions
```haku
asin
x : number
-> number
acos
x : number
-> number
atan
x : number
-> number
```
`asin`, `acos`, and `atan` are the [inverse trigonometric functions][] arc sine, arc cosine, and arc tangent.
Their argument `x` is counted in radians.
[inverse trigonometric functions]: https://wikipedia.org/Inverse_trigonometric_functions
```haku
atan2
y : number
x : number
-> number
```
`atan2` is the angle between the positive X axis and a line that passes through `(0, 0)` and `(x, y)`.
Note the reverse argument order---`y` comes first, due to `atan2` being a convenience function over `atan (y / x)` that is defined for all arguments.
```haku
sinh
x : number
-> number
cosh
x : number
-> number
tanh
x : number
-> number
asinh
x : number
-> number
acosh
x : number
-> number
atanh
x : number
-> number
```
`sinh`, `cosh`, `tanh`, `asinh`, `acosh`, and `atanh`, are the six [hyperbolic functions][].
[hyperbolic functions]: https://en.wikipedia.org/wiki/Hyperbolic_functions
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## Logic
The following functions are used to compare values and work with `boolean`s.
```haku
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!
a : _
-> boolean
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```
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If `b` is `()` or `False`, `not` returns `True`.
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Otherwise it returns `False`.
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```haku
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==
a : _
b : _
-> boolean
!=
a : _
b : _
-> boolean
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```
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`==` returns `True` if `a` and `b` are equal.
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Whether two values are considered equal depends on their type:
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- If the type of the two values differs, `False` is returned.
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- If the two values are `number`s:
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- If any of the values are `NaN`, `False` is returned.
- Otherwise `True` is returned if the two numbers have the exact same bit representation.
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- If the two values are `vec`s, `True` is returned if each of their `number` components is equal to each other using the rules above.
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- Likewise with `rgba`s.
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- All other types of values use _reference_ equality - `True` is returned only if `a` and `b` are located in the same place in memory.
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This more or less means that the values are considered equal if they are produced by the same call to a system function, in time.
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`!=` returns `!(a == b)`.
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```haku
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<
a : _
b : _
-> boolean
<=
a : _
b : _
-> boolean
>
a : _
b : _
-> boolean
>=
a : _
b : _
-> boolean
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```
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`<` returns `True` if `a` is less than `b`, and `<=` returns `True` if `a` is less than _or_ equal to `b`.
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Order is only well-defined for numbers.
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Other types may assume an arbitrary but consistent ordering - `()` may be less than `True`, or it may not be less than `True`, but this will not change between executions of the program.
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`a > b` is the same as `b < a`.
`a >= b` is the same as `b <= a`.
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---
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Note that `and` and `or` are currently missing from this list, but are reserved keywords.
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You can implement them using regular functions as a replacement.
```haku
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boolAnd = \a, b ->
if (a)
if (b) True
else False
else False
boolOr = \a, b ->
if (a)
True
else
if (b) True
else False
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```
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## Vectors
```haku
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vec
x : number
-> vec
vec
x : number
y : number
-> vec
vec
x : number
y : number
z : number
-> vec
vec
x : number
y : number
z : number
w : number
-> vec
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```
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Creates a new `vec` from one to four number values.
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A `vec` always has four dimensions.
If any of the arguments are omitted, its corresponding dimension is initialized to zero.
```haku
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vecX
v : vec
-> number
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vecY
v : vec
-> number
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vecZ
v : vec
-> number
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vecW
v : vec
-> number
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```
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`vecX`, `vecY`, `vecZ`, and `vecW` extract the individual components of a `vec`.
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---
## Colors
```haku
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rgba
r : number
g : number
b : number
a : number
-> rgba
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```
Creates a new `rgba` with the given color channels.
Note that unlike `vec`, all color channels have to be provided to form an `rgba`.
```haku
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rgbaR
color : rgba
-> number
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rgbaG
color : rgba
-> number
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rgbaB
color : rgba
-> number
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rgbaA
color : rgba
-> number
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```
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`rgbaR`, `rgbaG`, `rgbaB`, `rgbaA` extract color channels out of an `rgba`.
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---
haku uses RGBA values in a normalized `0` to `1` range rather than `0` to `255`, which may be unfamiliar if you're coming from other image editing software.
This is because it's easier to do math on normalized colors.
For example, consider multiplicatively blending two colors.
```haku
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-- This is how you can multiply two colors together.
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-- Note that the `*` operator works for colors, so you don't need to define this in your brushes.
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mulRgba = \a, b ->
rgba (rgbaR a * rgbaR b) (rgbaG a * rgbaG b) (rgbaB a * rgbaB b) (rgbaA a * rgbaA b)
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```
If haku represented colors using an 8-bit `0` to `255` range instead, to multiply two colors together, you would have to divide them by `255` to get them back into the correct range.
```haku
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-- NOTE: This example does NOT work correctly.
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mulRgba = \a, b ->
let red = (rgbaR a * rgbaR b) / 255
let green = (rgbaG a * rgbaG b) / 255
let blue = (rgbaB a * rgbaB b) / 255
let alpha = (rgbaA a * rgbaA b) / 255
rgba red green blue alpha
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```
Note that haku does not clamp colors to the `0` to `1` range.
It is perfectly valid to have a color that is out of range or even `NaN`, but when drawing scribbles:
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- any number less than `0` is clamped to `0`.
- any number greater than `1` is clamped to `1`.
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- `∞` is clamped back to `1`.
- `-∞` is clamped back to `0`.
- any scribble with a `NaN` color is ignored.
Before scribbles are drawn to the wall, colors are converted to 8-bit integers for more efficient rasterization and storage.
This means some loss of precision will happen, which may cause issues with brushes like this one:
```haku
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stroke 128 #00000004 (vec 0 0)
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```
If you try to to use this brush to fill up a single spot with black, you will notice that despite all the math suggesting so, the color will end up gray instead.
## Shapes
```haku
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toShape
value : _
-> () | shape
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```
Converts the given value to a shape.
- For `shape`, clones the shape that was passed in.
- For `vec`, returns a point `shape`.
- For anything else, returns `()`.
```haku
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line
start : vec
end : vec
-> shape
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```
Creates a line segment shape with the provided `start` and `end` points.
```haku
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rect
position : vec
size : vec
-> shape
rect
x : number
y : number
width : number
height : number
-> shape
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```
Creates a rectangle shape with its top-left corner at `position`, with a given `size` stretching from the top-left corner.
The alternative 4-argument version takes in the rectangle's X/Y coordinates, width, and height as separate arguments instead of aggregating them into a `vec`.
```haku
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circle
center : vec
radius : number
-> shape
circle
x : number
y : number
radius : number
-> shape
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```
Creates a circle shape, with its center at `center`, with the provided radius.
The alternative 3-argument version takes in the circle's center X/Y coordinates as separate arguments instead of aggregating them into a `vec`.
## Scribbles
```haku
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stroke
thickness : number
color : rgba
shape : shapeLike
-> scribble
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```
Creates a stroke scribble, which outlines the provided shape with a stroke of the given thickness and color.
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Point shapes are drawn as circles, and `line` shapes have round caps at the line's endpoints.
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```haku
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fill
color : rgba
shape : shapeLike
-> scribble
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```
Creates a fill scribble, which fills in the entire area of the provided shape with a solid color.
Since this requires the shape to have a surface area, this does not do anything when point and `line` shapes are passed in.