## About This repository creates a react webpage that allows to extract a utility function from possibly inconsistent binary comparisons. It presents the users with a series of elements to compare, using merge-sort in the background to cleverly minimize the number of choices needed.
Then, it cleverly aggregates them, on the one hand by producing a graphical representation:
and on the other hand doing some fast and clever mean aggregation [^1]:
Initially, users could only input numbers, e.g., "A is `3` times better than B". But now, users can also input distributions, using the [squiggle](https://www.squiggle-language.com/) syntax, e.g., "A is `1 to 10` times better than B", or "A is `mm(normal(1, 10), uniform(0,100))` better than B". **If you want to use the utility function extractor for a project, we are happy to add a page for your project, like `utility-function-extractor.quantifieduncertainty.org/your-project`**. ## Built with - [Nextjs](https://nextjs.org/) - [Netlify](https://github.com/netlify/netlify-plugin-nextjs/#readme) - [React](https://reactjs.org/) - [Squiggle](https://www.squiggle-language.com/) - [Utility tools](https://github.com/quantified-uncertainty/utility-function-extractor/tree/master/packages/utility-tools) ## Usage Navigate to [utility-function-extractor.quantifieduncertainty.org/](https://utility-function-extractor.quantifieduncertainty.org/), and start comparing objects. You can change the list of objects to be compared by clicking on "advanced options". After comparing objects for a while, you will get a table and a graph with results. You can also use the [utility tools](https://github.com/quantified-uncertainty/utility-function-extractor/tree/master/packages/utility-tools) package to process these results, for which you will need the json of comparisons, which can be found in "Advanced options" -> "Load comparisons" ## Notes The core structure is json array of objects. Only the "name" attribute is required. If there is a "url", it is displayed nicely. ``` [ { "name": "Peter Parker", "someOptionalKey": "...", "anotherMoreOptionalKey": "...", }, { "name": "Spiderman", "someOptionalKey": "...", "anotherMoreOptionalKey": "..." } ] ``` The core structure for links is as follows: ``` [ { "source": "Peter Parker", "target": "Spiderman", "squiggleString": "1 to 100", "distance": 26.639800977355474 }, { "source": "Spiderman", "target": "Jonah Jameson", "squiggleString": "20 to 2000", "distance": 6.76997149080232 }, ] ``` A previous version of this webpage had a more complicated structure, but it has since been simplified. ## Contributions and help We welcome PR requests. ## License Distributed under the MIT License. See LICENSE.txt for more information. ## To do - [x] Extract merge, findPath and aggregatePath functionality into different repos - [x] Send to mongo upon completion - [x] Push to github - [x] Push to netlify - [x] Don't allow further comparisons after completion - [x] Paths table - [x] Add paths table - [x] warn that the paths table is approximate. - I really don't feel like re-adding this after having worked out the distribution rather than the mean aggregation - On the other hand, I think it does make it more user to other users. - [x] Change README. - [ ] Add functionality like names, etc. - I also don't feel like doing this - [ ] Look back at Amazon thing which has been running [^1]: The program takes each element as a reference point in turn, and computing the possible distances from that reference point to all other points, and taking the geometric mean of these distances. This produces a number representing the value of each element, such that the ratios between elements represent the user's preferences: a utility function. However, this isn't perfect; the principled approach woud be to aggregate the distributions rather than their means. But this principled approach is much more slowly. For the principled approach, see the `utility-tools` repository.