squiggle/packages/website/docs/Api/DistGeneric.mdx

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---
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sidebar_position: 3
title: Distribution
---
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import TOCInline from "@theme/TOCInline";
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<TOCInline toc={toc} />
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## Distribution Creation
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### Normal Distribution
**Definitions**
```javascript
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normal: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
```javascript
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normal: (dict<{p5: frValueDistOrNumber, p95: frValueDistOrNumber}>) => distribution
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```
```javascript
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normal: (dict<{mean: frValueDistOrNumber, stdev: frValueDistOrNumber}>) => distribution
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```
**Examples**
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```js
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normal(5, 1);
normal({ p5: 4, p95: 10 });
normal({ mean: 5, stdev: 2 });
```
### Lognormal Distribution
**Definitions**
```javascript
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lognormal: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
```javascript
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lognormal: (dict<{p5: frValueDistOrNumber, p95: frValueDistOrNumber}>) => distribution
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```
```javascript
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lognormal: (dict<{mean: frValueDistOrNumber, stdev: frValueDistOrNumber}>) => distribution
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```
**Examples**
```javascript
lognormal(0.5, 0.8);
lognormal({ p5: 4, p95: 10 });
lognormal({ mean: 5, stdev: 2 });
```
### Uniform Distribution
**Definitions**
```javascript
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uniform: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
uniform(10, 12);
```
### Beta Distribution
**Definitions**
```javascript
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beta: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
beta(20, 25);
```
### Cauchy Distribution
**Definitions**
```javascript
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cauchy: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
cauchy(5, 1);
```
### Gamma Distribution
**Definitions**
```javascript
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gamma: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
gamma(5, 1);
```
### Logistic Distribution
**Definitions**
```javascript
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logistic: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
gamma(5, 1);
```
### To (Distribution)
**Definitions**
```javascript
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to: (frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
```javascript
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credibleIntervalToDistribution(frValueDistOrNumber, frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
5 to 10
to(5,10)
-5 to 5
```
### Exponential
**Definitions**
```javascript
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exponential: (frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
exponential(2);
```
### Bernoulli
**Definitions**
```javascript
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bernoulli: (frValueDistOrNumber) => distribution;
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```
**Examples**
```javascript
bernoulli(0.5);
```
### toContinuousPointSet
Converts a set of points to a continuous distribution
**Definitions**
```javascript
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toContinuousPointSet: (array<dict<{x: numeric, y: numeric}>>) => distribution
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```
**Examples**
```javascript
toContinuousPointSet([
{ x: 0, y: 0.1 },
{ x: 1, y: 0.2 },
{ x: 2, y: 0.15 },
{ x: 3, y: 0.1 },
]);
```
### toDiscretePointSet
Converts a set of points to a discrete distribution
**Definitions**
```javascript
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toDiscretePointSet: (array<dict<{x: numeric, y: numeric}>>) => distribution
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```
**Examples**
```javascript
toDiscretePointSet([
{ x: 0, y: 0.1 },
{ x: 1, y: 0.2 },
{ x: 2, y: 0.15 },
{ x: 3, y: 0.1 },
]);
```
## Functions
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### mixture
```javascript
mixture: (...distributionLike, weights:list<float>) => distribution
```
**Examples**
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```javascript
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mixture(normal(5, 1), normal(10, 1));
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mx(normal(5, 1), normal(10, 1), [0.3, 0.7]);
```
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### sample
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Get one random sample from the distribution
```javascript
sample(distribution) => number
```
**Examples**
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```javascript
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sample(normal(5, 2));
```
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### sampleN
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Get n random samples from the distribution
```javascript
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sampleN: (distribution, number) => list<number>
```
**Examples**
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```javascript
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sample: normal(5, 2), 100;
```
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### mean
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Get the distribution mean
```javascript
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mean: (distribution) => number;
```
**Examples**
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```javascript
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mean: normal(5, 2);
```
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### stdev
```javascript
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stdev: (distribution) => number;
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```
### variance
```javascript
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variance: (distribution) => number;
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```
### mode
```javascript
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mode: (distribution) => number;
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```
### cdf
```javascript
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cdf: (distribution, number) => number;
```
**Examples**
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```javascript
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cdf: normal(5, 2), 3;
```
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### pdf
```javascript
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pdf: (distribution, number) => number;
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```
**Examples**
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```javascript
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pdf(normal(5, 2), 3);
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```
### inv
```javascript
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inv: (distribution, number) => number;
```
**Examples**
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```javascript
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inv(normal(5, 2), 0.5);
```
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### toPointSet
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Converts a distribution to the pointSet format
```javascript
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toPointSet: (distribution) => pointSetDistribution;
```
**Examples**
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```javascript
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toPointSet(normal(5, 2));
```
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### toSampleSet
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Converts a distribution to the sampleSet format, with n samples
```javascript
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toSampleSet: (distribution, number) => sampleSetDistribution;
```
**Examples**
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```javascript
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toSampleSet(normal(5, 2), 1000);
```
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### truncateLeft
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Truncates the left side of a distribution. Returns either a pointSet distribution or a symbolic distribution.
```javascript
truncateLeft: (distribution, l => number) => distribution
```
**Examples**
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```javascript
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truncateLeft(normal(5, 2), 3);
```
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### truncateRight
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Truncates the right side of a distribution. Returns either a pointSet distribution or a symbolic distribution.
```javascript
truncateRight: (distribution, r => number) => distribution
```
**Examples**
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```javascript
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truncateLeft(normal(5, 2), 6);
```
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## Scoring
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### klDivergence
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KullbackLeibler divergence between two distributions
```javascript
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klDivergence: (distribution, distribution) => number;
```
**Examples**
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```javascript
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klDivergence(normal(5, 2), normal(5, 4)); // returns 0.57
```
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## Display
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### toString
```javascript
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toString: (distribution) => string;
```
**Examples**
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```javascript
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toString(normal(5, 2));
```
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### toSparkline
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Produce a sparkline of length n
```javascript
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toSparkline: (distribution, n = 20) => string;
```
**Examples**
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```javascript
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toSparkline(normal(5, 2), 10);
```
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### inspect
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Prints the value of the distribution to the Javascript console, then returns the distribution.
```javascript
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inspect: (distribution) => distribution;
```
**Examples**
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```javascript
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inspect(normal(5, 2));
```
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## Normalization
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### normalize
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Normalize a distribution. This means scaling it appropriately so that it's cumulative sum is equal to 1.
```javascript
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normalize: (distribution) => distribution;
```
**Examples**
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```javascript
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normalize(normal(5, 2));
```
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### isNormalized
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Check of a distribution is normalized. Most distributions are typically normalized, but there are some commands that could produce non-normalized distributions.
```javascript
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isNormalized: (distribution) => bool;
```
**Examples**
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```javascript
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isNormalized(normal(5, 2)); // returns true
```
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### integralSum
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Get the sum of the integral of a distribution. If the distribution is normalized, this will be 1.
```javascript
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integralSum: (distribution) => number;
```
**Examples**
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```javascript
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integralSum(normal(5, 2));
```
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## Algebraic Operations
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### add
```javascript
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add: (distributionLike, distributionLike) => distribution;
```
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### sum
```javascript
sum: (list<distributionLike>) => distribution
```
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### multiply
```javascript
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multiply: (distributionLike, distributionLike) => distribution;
```
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### product
```javascript
product: (list<distributionLike>) => distribution
```
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### subtract
```javascript
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subtract: (distributionLike, distributionLike) => distribution;
```
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### divide
```javascript
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divide: (distributionLike, distributionLike) => distribution;
```
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### pow
```javascript
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pow: (distributionLike, distributionLike) => distribution;
```
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### exp
```javascript
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exp: (distributionLike, distributionLike) => distribution;
```
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### log
```javascript
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log: (distributionLike, distributionLike) => distribution;
```
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### log10
```javascript
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log10: (distributionLike, distributionLike) => distribution;
```
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### unaryMinus
```javascript
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unaryMinus: (distribution) => distribution;
```
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## Pointwise Operations
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### dotAdd
```javascript
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dotAdd: (distributionLike, distributionLike) => distribution;
```
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### dotMultiply
```javascript
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dotMultiply: (distributionLike, distributionLike) => distribution;
```
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### dotSubtract
```javascript
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dotSubtract: (distributionLike, distributionLike) => distribution;
```
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### dotDivide
```javascript
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dotDivide: (distributionLike, distributionLike) => distribution;
```
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### dotPow
```javascript
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dotPow: (distributionLike, distributionLike) => distribution;
```
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### dotExp
```javascript
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dotExp: (distributionLike, distributionLike) => distribution;
```
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## Scale Operations
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### scaleMultiply
```javascript
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scaleMultiply: (distributionLike, number) => distribution;
```
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### scalePow
```javascript
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scalePow: (distributionLike, number) => distribution;
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```
### scaleExp
```javascript
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scaleExp: (distributionLike, number) => distribution;
```
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### scaleLog
```javascript
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scaleLog: (distributionLike, number) => distribution;
```
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### scaleLog10
```javascript
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scaleLog10: (distributionLike, number) => distribution;
```
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## Special
### Declaration (Continuous Function)
Adds metadata to a function of the input ranges. Works now for numeric and date inputs. This is useful when making predictions. It allows you to limit the domain that your prediction will be used and scored within.
```javascript
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declareFn: (dict<{fn: lambda, inputs: array<dict<{min: number, max: number}>>}>) => declaration
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```
**Examples**
```javascript
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declareFn({
fn: {|a,b| a },
inputs: [
{min: 0, max: 100},
{min: 30, max: 50}
]
})
```