673 lines
14 KiB
Plaintext
673 lines
14 KiB
Plaintext
# System library
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haku comes with a set of built-in functions, called the _system library._
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This is a reference for these functions.
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## Preamble: how to read this reference
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Each function comes with a _signature description_.
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These descriptions read like this:
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```haku
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stroke
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thickness : number
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color : rgba
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position : vec
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-> scribble
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```
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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_.
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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`.
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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.
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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.
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If you try to use a function with the wrong type of value as its argument, it will fail with an error.
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For example, consider a brush where we pass a number as `stroke`'s `color` and `position` arguments.
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```haku
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stroke 1 1 1
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```
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This brush will fail to render, since `stroke` expects an `rgba` as its 2nd argument.
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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.
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- `vec` - a 4-dimensional vector, composed of four `number`s.
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- `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.
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- `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
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```haku
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-
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a : number
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-> number
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-
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a : vector
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-> 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.)
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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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+
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a : number
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b : number
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-> number
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+
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a : vector
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b : vector
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-> vector
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+
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a : rgba
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b : rgba
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-> rgba
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```
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`+` adds two numbers, vectors, or colors together.
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```haku
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-
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a : number
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b : number
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-> number
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-
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a : vector
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b : vector
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-> vector
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-
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a : rgba
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b : rgba
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-> 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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*
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a : number
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b : number
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-> number
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*
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a : vector
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b : vector
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-> vector
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*
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a : rgba
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b : rgba
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-> 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.
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Likewise for colors.
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```haku
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/
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a : number
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b : number
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-> number
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/
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a : vector
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b : vector
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-> vector
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/
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a : rgba
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b : rgba
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-> 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.
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Likewise for colors.
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```haku
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floor
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x : number
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-> number
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ceil
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x : number
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-> number
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round
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x : number
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-> number
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```
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`floor`, `ceil`, and `round` are rounding functions.
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Each of them rounds a little differently:
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- `floor` rounds towards -∞.
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- `ceil` rounds towards +∞.
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- `round` rounds half towards +∞.
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```haku
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abs
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x : number
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-> number
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```
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`abs` returns the absolute value of the given number.
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If `x` is less than zero, returns `-x`.
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Otherwise returns `x`.
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```haku
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mod
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x : number
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y : number
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-> number
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```
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`mod` is the modulo operation.
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It returns the remainder of dividing `x` by `y`.
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haku uses the Euclidean definition, which means the remainder returned by `mod` is _always non-negative_.
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```haku
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pow
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base : number
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exponent : number
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-> number
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```
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`pow` raises `base` to the given `exponent`.
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```haku
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sqrt
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x : number
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-> number
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cbrt
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x : nunber
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-> number
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```
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`sqrt` returns the square root of the given number.
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`cbrt` returns the cubic root of the given number.
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Other roots may be obtained using `pow x (1 / base)`.
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```haku
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exp
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x : number
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-> number
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ln
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x : number
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-> number
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```
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In the following functions, `e` is the base of the natural logarithm (approximately `2.7128`.)
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The `e` constant (Euler's number) is currently not exposed to haku source code; you have to define it yourself.
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`exp` is the exponential function `pow e x`.
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`ln` is the natural logarithm (logarithm base `e` of `x`.)
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```haku
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expMinus1
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x : number
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-> number
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ln1Plus
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x : number
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-> number
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```
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`expMinus1` is `pow e x - 1`, but accurate even when `x` is close to zero.
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`ln1Plus` is `ln (1 + x)`, but more accurate than if the operations are performed separately.
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```haku
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exp2
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x : number
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-> number
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```
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`exp2` is the exponential function `pow 2 x`.
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```haku
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log2
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x : number
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-> number
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log10
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x : number
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-> number
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```
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`log2` is the logarithm base `2` of `x`.
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`log10` is the logarithm base `10` of `x`.
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```haku
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hypot
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x : number
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y : number
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-> number
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```
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`hypot` is the hypotenuse of the Pythagorean triangle with right angle-adjacent sides `x` and `y`.
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```haku
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sin
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x : number
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-> number
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cos
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x : number
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-> number
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tan
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x : number
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-> number
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```
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`sin`, `cos`, and `tan` are the [trigonometric functions][] sine, cosine, and tangent.
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Their argument `x` is counted in radians.
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[trigonometric functions]: https://wikipedia.org/Trigonometric_functions
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```haku
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asin
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x : number
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-> number
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acos
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x : number
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-> number
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atan
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x : number
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-> number
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```
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`asin`, `acos`, and `atan` are the [inverse trigonometric functions][] arc sine, arc cosine, and arc tangent.
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Their argument `x` is counted in radians.
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[inverse trigonometric functions]: https://wikipedia.org/Inverse_trigonometric_functions
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```haku
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atan2
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y : number
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x : number
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-> number
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```
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`atan2` is the angle between the positive X axis and a line that passes through `(0, 0)` and `(x, y)`.
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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.
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```haku
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sinh
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x : number
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-> number
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cosh
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x : number
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-> number
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tanh
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x : number
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-> number
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asinh
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x : number
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-> number
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acosh
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x : number
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-> number
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atanh
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x : number
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-> number
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```
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`sinh`, `cosh`, `tanh`, `asinh`, `acosh`, and `atanh`, are the six [hyperbolic functions][].
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[hyperbolic functions]: https://en.wikipedia.org/wiki/Hyperbolic_functions
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## Logic
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The following functions are used to compare values and work with `boolean`s.
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```haku
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!
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a : _
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-> 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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==
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a : _
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b : _
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-> boolean
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!=
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a : _
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b : _
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-> 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.
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- 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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<
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a : _
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b : _
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-> boolean
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<=
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a : _
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b : _
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-> boolean
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>
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a : _
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b : _
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-> boolean
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>=
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a : _
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b : _
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-> 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`.
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`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.
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```haku
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boolAnd = \a, b ->
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if (a)
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if (b) True
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else False
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else False
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boolOr = \a, b ->
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if (a)
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True
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else
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if (b) True
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else False
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```
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## Vectors
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```haku
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vec
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x : number
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-> vec
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vec
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x : number
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y : number
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-> vec
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vec
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x : number
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y : number
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z : number
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-> vec
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vec
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x : number
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y : number
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z : number
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w : number
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-> 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.
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If any of the arguments are omitted, its corresponding dimension is initialized to zero.
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```haku
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vecX
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v : vec
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-> number
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vecY
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v : vec
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-> number
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vecZ
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v : vec
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-> number
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vecW
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v : vec
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-> 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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---
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## Colors
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```haku
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rgba
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r : number
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g : number
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b : number
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a : number
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-> rgba
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```
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Creates a new `rgba` with the given color channels.
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Note that unlike `vec`, all color channels have to be provided to form an `rgba`.
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```haku
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rgbaR
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color : rgba
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-> number
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rgbaG
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color : rgba
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-> number
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rgbaB
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color : rgba
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-> number
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rgbaA
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color : rgba
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-> number
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```
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`rgbaR`, `rgbaG`, `rgbaB`, `rgbaA` extract color channels out of an `rgba`.
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---
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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.
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This is because it's easier to do math on normalized colors.
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For example, consider multiplicatively blending two colors.
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```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 ->
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rgba (rgbaR a * rgbaR b) (rgbaG a * rgbaG b) (rgbaB a * rgbaB b) (rgbaA a * rgbaA b)
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```
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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.
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```haku
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-- NOTE: This example does NOT work correctly.
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mulRgba = \a, b ->
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let red = (rgbaR a * rgbaR b) / 255
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let green = (rgbaG a * rgbaG b) / 255
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let blue = (rgbaB a * rgbaB b) / 255
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let alpha = (rgbaA a * rgbaA b) / 255
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rgba red green blue alpha
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```
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Note that haku does not clamp colors to the `0` to `1` range.
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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`.
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- any number greater than `1` is clamped to `1`.
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- `∞` is clamped back to `1`.
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- `-∞` is clamped back to `0`.
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- any scribble with a `NaN` color is ignored.
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Before scribbles are drawn to the wall, colors are converted to 8-bit integers for more efficient rasterization and storage.
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This means some loss of precision will happen, which may cause issues with brushes like this one:
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```haku
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stroke 128 #00000004 (vec 0 0)
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```
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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.
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## Shapes
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```haku
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toShape
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value : _
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-> () | shape
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```
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Converts the given value to a shape.
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- For `shape`, clones the shape that was passed in.
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- For `vec`, returns a point `shape`.
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- For anything else, returns `()`.
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```haku
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line
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start : vec
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end : vec
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-> shape
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```
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Creates a line segment shape with the provided `start` and `end` points.
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```haku
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rect
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position : vec
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size : vec
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-> shape
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rect
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x : number
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y : number
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width : number
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height : number
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-> shape
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```
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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.
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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`.
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```haku
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circle
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center : vec
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radius : number
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-> shape
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circle
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x : number
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y : number
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radius : number
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-> shape
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```
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Creates a circle shape, with its center at `center`, with the provided radius.
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The alternative 3-argument version takes in the circle's center X/Y coordinates as separate arguments instead of aggregating them into a `vec`.
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## Scribbles
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```haku
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stroke
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thickness : number
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color : rgba
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shape : shapeLike
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-> scribble
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```
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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
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color : rgba
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shape : shapeLike
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-> scribble
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```
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Creates a fill scribble, which fills in the entire area of the provided shape with a solid color.
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Since this requires the shape to have a surface area, this does not do anything when point and `line` shapes are passed in.
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