Types/NoiseExpression: Difference between revisions
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=== spot-noise === | === spot-noise === | ||
Generates random conical spots. The map is divided into square regions, and within each region, candidate points are chosen at random and target density, spot quantity, and radius are calculated for each point (or one of every '''skip_span'''candidate points) by configured expressions. Each spot contributes a quantity to a regional target total (which is the average of sampled target densities times the area of the region) until the total has been reached or a maximum spot count is hit. The output value of the function is the maximum height of any spot at a given point. | Generates random conical spots. The map is divided into square regions, and within each region, candidate points are chosen at random and target density, spot quantity, and radius are calculated for each point (or one of every '''skip_span''' candidate points) by configured expressions. Each spot contributes a quantity to a regional target total (which is the average of sampled target densities times the area of the region) until the total has been reached or a maximum spot count is hit. The output value of the function is the maximum height of any spot at a given point. | ||
The parameters that provide expressions to be evaluated for each point (all named '''something_expression''') need to actually return expression objects. | The parameters that provide expressions to be evaluated for each point (all named '''something_expression''') need to actually return expression objects. |
Revision as of 00:37, 28 February 2019
Basics
A fragment of a functional program used to generate coherent noise, probably for purposes related to terrain generation.
Noise expressions can be provided as object literals or built using functions in the built-in noise
library.
noise.define_noise_function
allows noise expressions to be defined using a shorthand
that's a subset of Lua (see example definition for an example and its literal equivalent).
Mandatory properties
type
Type: Types/string
Name of the type of this expression. Which other properties apply depend on the expression type.
Expression types
variable
Reference to a pre-defined variable, constant, or a named noise expression.
Predefined variables include "x", "y", and "distance".
Properties:
- variable_name: a Types/string
function-application
Apply a function to a list or associative array of arguments. Some functions expect arguments to be named and some expect them not to be.
Function calls are their own class of expression (as opposed to every function just being its own expression type) because function calls all have similar properties -- arguments are themselves expressions, a call to any pure function (i.e. most functions other than random()
) is referentially transparent and can be constant-folded if all of its arguments are constant, etc.
Properties:
- function_name (a string; see functions, below)
- arguments (a list or associative array of argument expressions)
literal-number
Evaluates to the same number every time, given by the literal_value property.
literal-string
Evaluates to the same string every time, given by the literal_value property.
Since the noise generation runtime has no notion of strings or use for them, this is useful only in constant contexts.
literal-object
Evaluates to the same object every time, given by the literal_value property.
e.g.
{
type = "literal-object",
literal_value = {
name = "Bob Hope",
birth_date = {
year = 1903,
month = 5,
day_of_month = 29
}
}
}
Since the noise generation runtime has no notion of objects or use for them, this is useful only in constant contexts, such as the points argument of the distance-from-nearest-point function.
literal-expression
Returns the expression represented by its literal-value property.
Functions
add
Arguments (positional): term, other term
Takes 2 positional arguments and adds them.
subtract
Arguments (positional): minuend, subtrahend
Takes 2 positional arguments and subtracts the second from the first.
multiply
Arguments (positional): factor, other factor
Takes 2 positional arguments and multiplies them.
divide
Arguments (positional): dividend, divisor
Takes 2 positional arguments and divides the first by the second.
exponentiate
Arguments (positional): base, exponent
Takes 2 positional arguments, and raises the first to the second power.
absolute-value
Arguments (positional): value to be absoluted
Takes a single positional argument and returns its absolute value. i.e. If the argument is negative, it is inverted.
clamp
Arguments (positional): value to be clamped, lower limit, upper limit
First argument is clamped between the second and third. The second is treated as a lower limit and the third the upper limit.
ridge
Arguments (positional): value to be ridged, lower limit, upper limit
Similar to clamp but the input value is folded back across the upper and lower limits until it lies between them.
factorio-basis-noise
Arguments (named):
- x
- y
- seed0 - integer between 0 and 4294967295 (inclusive) used to populate the backing random noise
- seed1 - integer between 0 and 255 (inclusive) used to provide extra randomness when sampling
- input_scale (default: 1) - x and y will be multiplied by this before sampling
- output_scale (default: 1) - output will be multiplied by this before being returned
Scaling input and output can be accomplished other ways, but are done so commonly as to be built into this function for performance reasons.
factorio-multioctave-noise
Arguments (named):
- x
- y
- seed0 - integer between 0 and 4294967295 (inclusive) used to populate the backing random noise
- seed1 - integer between 0 and 255 (inclusive) used to provide extra randomness when sampling
- octaves - how many layers of noise at different scales to sum
- persistence (constant) - how strong is each layer compared to the next larger one
- input_scale (default: 1) - x and y will be multiplied by this before sampling
- output_scale (default: 1) - output will be multiplied by this before being returned
spot-noise
Generates random conical spots. The map is divided into square regions, and within each region, candidate points are chosen at random and target density, spot quantity, and radius are calculated for each point (or one of every skip_span candidate points) by configured expressions. Each spot contributes a quantity to a regional target total (which is the average of sampled target densities times the area of the region) until the total has been reached or a maximum spot count is hit. The output value of the function is the maximum height of any spot at a given point.
The parameters that provide expressions to be evaluated for each point (all named something_expression) need to actually return expression objects.
The quantity of the spot is assumed to be the same as its volume. Since the volume of a cone is pi * radius^2 * height / 3</math>, the height ('peak value') of any given spot is calculated as 3 * quantity / (pi * radius^2)
Arguments (named):
- x (number)
- y (number)
- seed0 (constant integer) - random seed, part 1 - usually the map seed is used
- seed1 (constant integer) - random seed, part 2 - usually chosen to identify the noise layer
- region_size (constant integer, default: 512) - width/height of each region
- skip_offset (constant integer, default: 0) - offset of the first candidate point to use
- skip_span (constant integer, default: 1) - number of candidate points to skip over after each one used as a spot, including the used one
- candidate_point_count (constant integer, default:256) - how many candidate points to generate
- candidate_spot_count (constant integer, default depends on skip_span) - an alternative to candidate_point_count - number of spots to generate: ```candidate_spot_count = X``` is equivalent to candidate_point_count / skip_span = X
- minimum_candidate_point_spacing (constant number, default depends on region size) - minimum spacing to *try* to achieve while randomly picking points; spot noise may end up placing spots closer than this in crowded regions
- hard_region_target_quantity (constant boolean, default: true) - whether to place a hard limit on the total quantity in each region by reducing the size of any spot (which will be the last spot chosen) that would put it over the limit.
- density_expression (number-returningexpression) - an expression that will be evaluated for each candidate spot to calculate density at that point
- spot_quantity_expression (number-returningexpression) - an expression that will be evaluated for each candidate spot to calculate the spot's quantity
- spot_radius_expression (number-returning expression) - an expression that will be evaluated for each candidate spot to calculate the spot's radius (this, together with quantity, will determine the spots peak value)
- spot_favorability_expression (number-returning expression) - an expression that will be evaluated for each candidate spot to calculate the spot's favorability; spots with higher favorability will be considered first when building the final list of spots for a region
Example definition
To override the 'temperature' named noise expression with one that linearly increases to the southeast:
local noise = require("noise");
data:extend{
{
type = "noise-expression",
name = "togs-new-temperature-function",
intended_property = "temperature", -- As of 0.17, makes this available in the 'temperature generator' drop-down
expression = noise.define_noise_function( function(x,y,tile,map)
return (x + y) / 1000
end)
}
}
Which is equivalent to:
local noise = require("noise");
data:extend{
{
type = "noise-expression",
name = "temperature",
expression = {
type = "function-application",
function_name = "divide",
arguments = {
{
type = "function-application",
function_name = "add",
arguments = {
{
type = "variable",
variable_name = "x"
},
{
type = "variable",
variable_name = "y"
}
}
},
{
type = "literal-number",
literal_value = 1000
}
}
}
}
}