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---
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layout: developer-doc
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2020-05-20 11:00:25 +03:00
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title: Enso's Philosophy
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category: summary
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tags: [summary, design]
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order: 1
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---
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2019-12-20 19:42:54 +03:00
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# Enso: Simplicity and Correctness
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2020-07-21 15:59:40 +03:00
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2019-12-20 19:42:54 +03:00
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Enso is an award-winning, general-purpose, purely functional programming
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language with equivalent, first-class visual and textual representations and a
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highly expressive and novel type system.
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Enso has been designed from the ground up to be easy to use for people of all
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experience levels, providing power to those that want it while keeping it hidden
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from those that do not. Its type rich type system helps users to catch their
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mistakes before they happen, which combines with its performant runtime to
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drastically improve the quality of the end result. Enso is very much intended to
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be a production language (rather than a research project), and the user-focused
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development philosophy reflects that.
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From a technical point of view, Enso incorporates many of the recent innovations
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in the design and development of programming languages to improve the user
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experience. It provides higher-order functions, strict semantics with opt-in
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laziness, and opt-in algebraic data types, all under the auspices of a novel
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type system that merges gradual typing with a great user experience. Enso is the
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culmination of many years of research into functional programming languages,
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consolidating the work trail-blazed by Haskell, Idris and Agda, but also
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improvements in user-experience and ergonomics.
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All in all, Enso is a programming language unlike any other before it, a
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seamless blend of code and visual communication that can span organisations.
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> "The compiler is your assistant, and you interact with it to arrive at a
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> working program via a conversation, with information going both ways."
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>
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> – [Edwin Brady](https://twitter.com/edwinbrady/status/1115361451005423617)
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<!-- MarkdownTOC levels="2,3" autolink="true" -->
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2019-12-20 19:42:54 +03:00
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- [Why a New Programming Language?](#why-a-new-programming-language)
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- [Software Correctness Matters](#software-correctness-matters)
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- [Connections to your Data](#connections-to-your-data)
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- [Tenets of Enso](#tenets-of-enso)
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- [Visual and Textual](#visual-and-textual)
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- [Unified Syntax](#unified-syntax)
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- [Visual Communication](#visual-communication)
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- [One Right Way](#one-right-way)
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- [Help the User](#help-the-user)
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- [Simple Complexity](#simple-complexity)
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- [Powerful When Necessary](#powerful-when-necessary)
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- [Performance and Predictability](#performance-and-predictability)
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- [Explicit Over Implicit](#explicit-over-implicit)
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- [Guidance Over On-Boarding](#guidance-over-on-boarding)
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- [Designing Enso](#designing-enso)
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<!-- /MarkdownTOC -->
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2019-12-20 19:42:54 +03:00
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## Why a New Programming Language?
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2019-12-20 19:42:54 +03:00
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Since the 1980s, the way that programmers work and the tools that they use have
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changed remarkably little. However, there is a small but growing chorus that
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worries that the status quo is unsustainable: programmers are having problems
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keeping up with their own creations. "Even good programmers are struggling to
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make sense of the systems that they are working with," says Chris Granger, a
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software developer who worked as a lead at Microsoft on Visual Studio.
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We believe, without a drastic change to how software is created, that humanity's
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progress is going to be stymied. However, in contrast to many approaches to
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finding the next-generation interfaces for human-computer interaction, we
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believe that textual code should not be replaced, but instead _enhanced_. In the
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same way that writing and speaking coexist, there are times where code is more
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convenient than any other approach.
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## Software Correctness Matters
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"In September 2007, Jean Bookout was driving on the highway with her best friend
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in a Toyota Camry when the accelerator seemed to get stuck. When she took her
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foot off the pedal, the car didn't slow down. She tried the brakes but they
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seemed to have lost their power. As she swerved toward an off-ramp going 50
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miles per hour, she pulled the emergency brake. The car left a skid mark 150
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feet long before running into an embankment by the side of the road. The
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passenger was killed. Bookout woke up in a hospital a month later.
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"The incident was one of many in a nearly decade-long investigation into claims
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of so-called unintended acceleration in Toyota cars. Toyota blamed the incidents
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on poorly designed floor mats, “sticky” pedals, and driver error, but outsiders
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suspected that faulty software might be responsible. The National Highway
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Traffic Safety Administration enlisted software experts from NASA to perform an
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intensive review of Toyota’s code. After nearly 10 months, the NASA team hadn't
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found evidence that software was the cause—but said they couldn't prove it
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wasn't.
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"It was during litigation of the Bookout accident that someone finally found a
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convincing connection. Michael Barr, an expert witness for the plaintiff, had a
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team of software experts spend 18 months with the Toyota code, picking up where
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NASA left off. Using the same model as the Camry involved in the accident,
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Barr’s team demonstrated that there were more than 10 million ways for key tasks
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on the on-board computer to fail, potentially leading to unintended
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acceleration. They showed that as little as a single bit flip could make a car
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run out of control."
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The above text is part of an amazing article
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[The Coming Software Apocalypse](https://www.theatlantic.com/technology/archive/2017/09/saving-the-world-from-code/540393/)
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by James Somers, we strongly encourage you to read it all in order to understand
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the reasoning behind much of Enso's design principles.
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We believe that everyone should be able to process data and create software.
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Thus, we strongly disagree with the assumption that developers should learn how
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to formally prove properties about their programs, as it requires a very rare
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theoretical background. We believe that it's the responsibility of the language
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and its tooling to prove the correctness of the users' creation. _“Human
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intuition is poor at estimating the true probability of supposedly ‘extremely
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rare’ combinations of events in systems operating at a scale of millions of
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requests per second. That human fallibility means that some of the more subtle,
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dangerous bugs turn out to be errors in design; the code faithfully implements
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the intended design, but the design fails to correctly handle a particular
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‘rare’ scenario.”_, wrote Chris Newcombe, who was a leader on Amazon Web
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Services team and one of Steam's creators. Enso was designed to prove the
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correctness and provide as much valuable information to the user as possible in
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as automated and intuitive a fashion as possible.
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## Connections to your Data
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2020-05-15 13:41:26 +03:00
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Software creation is a very creative process. However, while using conventional
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languages, programmers are like chess players trying to play with a blindfold on
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- so much of their mental energy is spent just trying to picture where the
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pieces are that there’s hardly any left over to think about the game itself.
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Enso was designed around the idea that _people need an immediate connection to
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what they are making_, as described by by Brett Victor in his amazing talk
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[Inventing on Principle](https://vimeo.com/36579366). Any violation of this
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principle alienates users from the actual problems they are trying to solve,
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which consequently decreases their understanding and increases the number of
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mistakes they make.
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Enso's visual representation targets domains where data processing is the
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primary focus, including data science, machine learning, IoT, bioinformatics,
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predictive maintenance, computer graphics, sound processing and so on. Each
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domain requires a highly tailored toolbox for working with such data, and Enso
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provides a coherent and unified foundation for building such toolboxes, on top
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of a growing library of existing ones. At its core, Enso delivers a powerful
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environment for the modelling of data flows, with extensive inbuilt capabilities
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for data visualisation and manipulation.
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2019-06-11 19:07:54 +03:00
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## Tenets of Enso
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The design of a tool can have a _drastic_ effect on the
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[cognitive load](https://en.wikipedia.org/wiki/Cognitive_load) experienced by
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users. As we design Enso, we rely on a small set of principles to guide the
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design and evolution of the language, with the aim of making it easier to both
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express thoughts and understand existing logic.
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Enso's design is based on a small set of principles that all focus on minimising
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the cognitive load for users. They are elucidated below
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- **Visual and Textual:** The visual and textual syntaxes are both first-class.
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One is just as a canonical representation of the program as the other. New
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features must work across both.
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- **Unified Syntax:** The language syntax should be simple, concise, and be
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usable on both the type and term levels.
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- **Visual Communication:** A pure and functional language that lends itself
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easily to visualisation of data-flows.
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- **One Right Way:** There should, overwhelmingly, be only one way to perform a
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given task. Limited choice breeds simplicity.
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- **Help the User:** Enso should do its utmost to make things easier for the
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user, even if that involves accepting additional complexity in the
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implementation. This does not come at the exclusion of letting users access
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that power.
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- **Simple Complexity:** Though the language is backed by powerful functionality
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and compiler smarts, but this should be invisible to the users until they care
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to engage with it.
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- **Powerful When Necessary:** Designed to employ powerful techniques that
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confer safety and speed, allowing the users to write correct programs.
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- **Performance and Predictability:** Predictable performance, with integrated
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debugging and profiling features to help users diagnose their problems.
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- **Explicit Over Implicit:** The design of Enso and its libraries should
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_always_ account for making all behaviour explicit.
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- **Guidance Over On-Boarding:** While an on-boarding process can help new users
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get up to speed, the language itself should endeavour to be as helpful as
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possible.
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### Visual and Textual
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While Enso _is_ a programming language, the visual environment with which it
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ships is just as important. This means that when designing the language, and any
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new feature for the language, we need to explicitly account for how it works in
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both the visual and textual syntaxes.
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- **Necessity:** Is this functionality necessary in both environments, or is it
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compensating for a deficiency in one environment.
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- **Simplicity:** Features should seem uniform between the two environments as
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much as possible.
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- **Portability:** One environment should not expose any features not exposed by
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the other.
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Both syntaxes are of _equal_ importance when thinking about designing Enso, and
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so any functionality from one syntax that doesn't fit in the other should be
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rejected.
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### Unified Syntax
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With the syntax being the primary mode of interaction between users and Enso,
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whether it be visual or textual, it is important that it is consistent within
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itself. This is quite a nebulous concept, but it boils down to a few main
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factors:
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- The syntax should have a minimal number of constructs in it.
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- The syntax should use a coherent visual language in both its forms.
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- The type-level syntax should equal the value-level syntax, allowing a natural
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blend of programming with both types and terms.
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- The behaviour of the program should be immediately evident from the syntax
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(and so the syntax should not embody any context-sensitive behaviour).
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- The language syntax should be amenable to providing clear and descriptive
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diagnostics to users.
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- Special cases in the syntax should be avoided
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A key point of design for Enso's syntax is the notion that syntactic rules need
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to be remembered, so it is incredibly important to find a happy middle ground
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between _too many_ and _not enough_ syntactic constructs.
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### Visual Communication
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Humans are inherently visual creatures, and Enso is designed to enable a
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_visual_ style of communication. When designing new language features, it is
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overwhelmingly important to consider their impact on Enso's visualisation
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functionality.
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- _How_ they impact the existing visualisation capabilities.
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- _How_ they can be visualised themselves.
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### One Right Way
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Choice in a language inherently creates myriad ways to do things. This is
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singularly unhelpful in any programming language, let alone one intended to span
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all experience levels, as it increases the cognitive burden of using the
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language.
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To that end, it is significantly important to not introduce elements to the
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design that can already be achieved another way, or that can be achieved simply
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through a combination of existing features.
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However, there are sometimes cases where the duplication of functionality may be
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introduced while providing a significant ergonomic benefit to users. Under such
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circumstances, the trade-offs of the design decision must be very carefully
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weighted, and a decision made based on the balance between complexity and
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ergonomics.
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### Help the User
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Features with significant usability benefits for users should be weighted very
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highly in Enso's design. This is true _even_ when adding such a feature may
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bring significant complexity to the implementation of the language or tooling,
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as the user experience is paramount.
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2020-07-21 15:59:40 +03:00
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That is not to say, however, that _any and all_ complexity should be accepted in
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the aid of user experience. If the maintenance burden is too great, then it is
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likely that introducing such a photo will impact future UX improvements. To this
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end, it is always a careful balancing act, even if we tilt the scales heavily in
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favour of UX over simplicity of the implementation.
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### Simple Complexity
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A big part of Enso's design is the notion of employing sophisticated and
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cutting-edge techniques in programming language design. However, many languages
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that employ these techniques do so to the _detriment_ of the user experience.
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While this increased power may allow the system to guarantee more things, or
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perform better, it often means that the user has to contend with additional
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complexity. A huge part of the design of Enso is hiding this complexity from the
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user as much as is possible, ensuring that the focus of the language design is
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on a good user experience.
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Nevertheless, we do not intend to _bar_ users from this complexity. As much as
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Enso should provide a good user experience, it should also not stand in the way
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of power users.
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### Powerful When Necessary
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2020-07-21 15:59:40 +03:00
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2019-12-20 19:42:54 +03:00
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While we want to provide a simple tool to our users, this should not induce the
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language to shy away from necessary power.
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Sometimes, the expression of an idea in its most succinct requires powerful
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language constructs. Given that Enso doesn't want to limit the ability of its
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users to express things, it needs to provide this power. However, this power
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should be opt-in, with users not wanting the enhancements to expressiveness not
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having to know or care about it.
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### Performance and Predictability
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2020-07-21 15:59:40 +03:00
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2019-12-20 19:42:54 +03:00
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There is little that is more frustrating than the code you write running slowly
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for no explicable reason.
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To that end, Enso aims not only to be _fast_, meaning that users will not have
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to rely on other languages or tools for performance, but it also aims to be
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_predictable_. With Enso, 'predictable' means that it should be easy for
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advanced users to reason about the performance of their code. As a result, we
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aim for a sensible mapping from source code to machine execution, and aim to
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ensure that seemingly innocuous changes do not impact Enso's performance.
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### Explicit Over Implicit
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2020-07-21 15:59:40 +03:00
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2019-06-11 19:07:54 +03:00
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When designing Enso and its libraries, we don't want to have any behaviour of a
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function that is not recorded in its type, or its defaults. This gives rise to
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two main principles for designing Enso's APIs:
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1. Use the correct types to inform both users and the tools about the behaviour
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of the function.
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2. Use the inbuilt capabilities for named and default arguments to provide
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_sensible defaults_, for an API, without hiding behaviour.
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An example of this trade-off is reading a opening a file handle with
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`openHandle`.
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Unlike more specialised functions such as `readFile` and `writeFile`,
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`openHandle` is much more flexible about how it opens the file. In such cases,
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users making use of this file function can generally be assumed to want to open
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the file for both reading _and_ writing.
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This is the sensible, default, but it is made properly explicit by inclusion as
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a defaulted keyword argument to the function:
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2019-12-20 19:42:54 +03:00
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```ruby
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type File.Mode :
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2019-12-20 19:42:54 +03:00
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type Read
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type Write
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type RW
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type Append
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type RWA
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2019-06-11 19:07:54 +03:00
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openHandle : File.Path -> File.Mode -> File.Handle
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openHandle path -> fileMode = RW -> ...
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```
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In doing so, the design of the function tells the user the following things:
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- It takes a file path, which represents the location of a file on the user's
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local system (as opposed to a `Resource.Path`, which is a location for a
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generic resource).
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- It has an _explicit_ default behaviour that it opens the file for both reading
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and writing, that is defaulted as part of the definition, but can be
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overridden if necessary.
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As a result, this design allows for _explicit_ communication of the behaviour of
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the function, both under default, and non-default circumstances. Hence, the user
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who would like to open a file for appending (via `appendHandle`), as well as
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reading and writing, can call it as follows: `openHandle path (fileMode = RWA)`,
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or just `openHandle path RWA`.
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2019-12-20 19:42:54 +03:00
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### Guidance Over On-Boarding
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2020-07-21 15:59:40 +03:00
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2019-12-20 19:42:54 +03:00
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While it is important to have an on-boarding process to help bring new users up
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to speed, that process cannot be the only guidance that users of Enso get.
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To this end, it is _overwhelmingly_ important that the language is helpful and
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informative as much as is possible. This means things like the provision of
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intelligent suggestions to users based on the kinds of program they are writing.
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It means things like helpful and informative error messages that explain
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problems to the user in an intuitive fashion whilst not hiding the details.
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In essence, it means designing for the _enduring_ user experience of Enso,
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rather than purely the initial user experience.
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2019-06-11 19:07:54 +03:00
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## Designing Enso
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2020-07-21 15:59:40 +03:00
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2019-06-11 19:07:54 +03:00
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As Enso's design and functionality evolves, we have to take the utmost care to
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ensure that it doesn't balloon beyond control. As a result, every new feature
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that we contemplate adding to the language should advance these core tenets, and
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thereby ensure that it matches with the overall vision for Enso.
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2019-12-20 19:42:54 +03:00
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We stick to the above principles when we're _building_ the compiler as well,
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with code being liberally commented with need-to-know information, as well as
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for clean and clear design documents to accompany it.
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You can find out more about the various components that make up Enso by having a
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read of the design documents listed below. These documents are highly technical,
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and are not intended to be user-facing documentation.
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2020-04-17 14:12:28 +03:00
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- **[Semantics](semantics/):** A description of Enso's semantics, with a focus
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on both the main principles and the details.
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- **[Syntax](syntax/):** A description of Enso's syntax, with a focus on both
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the main principles behind its design and its nitty gritty details.
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- **[The Type System](types/):** A description of Enso's type system, starting
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at a very high level and slowly getting into more detail as the design
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evolves.
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- **[The Runtime](runtime/):** A description of the design for the runtime that
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is evolving in tandem with the runtime's development.
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