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---
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layout: developer-doc
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title: Naming
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category: syntax
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tags: [syntax, naming]
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order: 2
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---
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# Naming
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This file describes the syntax for naming language constructs in Enso, as well
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as the various rules that names follow.
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Names in Enso are restricted to using ASCII characters. This arises from the
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simple fact that all names should be easy to type without less common input
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methods. Furthermore, we enforce a rigid style for naming. This is in aid of
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giving Enso code a uniform identity.
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<!-- MarkdownTOC levels="2,3" autolink="true" -->
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- [Naming Constructs](#naming-constructs)
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- [External Identifiers](#external-identifiers)
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- [Pattern Contexts](#pattern-contexts)
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- [Localised Naming](#localised-naming)
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- [Operator Naming](#operator-naming)
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- [Modifier Operators](#modifier-operators)
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- [Reserved Names](#reserved-names)
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<!-- /MarkdownTOC -->
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## Naming Constructs
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Given that Enso is dependently-typed, with no artificial separation between the
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type and value-level syntaxes, an arbitrary name can refer to both types and
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values. This means that naming itself can become a bit of a concern. At first
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glance, there is no meaningful syntax-based disambiguation in certain contexts
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(such as patterns and type signatures) between introducing a fresh variable, or
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an occurrence of one already in scope.
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As we still want to have a minimal syntax for such use-cases, Enso enforces the
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following rules around naming:
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- All identifiers are named as follows. This is known as 'variable' form.
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- Each 'word' in the identifier must be lower-case or a number.
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- Words in the identifier are separated using `_`.
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- Numbers may not occur as the first 'word' in an identifier.
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- An identifier named as above can be referred to by capitalizing the first
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letter of each 'word' in the identifier. This is known as 'referent' form.
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- No mixed-format names are allowed (e.g. `HTTP`, `foO`, `make_New`, or
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`Make_new`). These should be rejected by the compiler.
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- We _strongly encourage_ using capitalised identifiers to refer to atoms.
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Name resolution obeys the following rules:
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- Contexts where it is _ambiguous_ as to whether a name is fresh or should refer
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to an identifier in scope are known as _pattern contexts_.
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- In a [pattern context](#pattern-contexts), an identifier in referent form will
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_always_ refer to a name in scope, whereas an identifier in variable form is
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interpreted as the creation of a fresh identifier.
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- This behaviour _only_ occurs in pattern contexts. In all other contexts, both
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conventions refer to that name already in scope.
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- Operator names behave as variable names when placed in a prefix position (e.g.
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`+ a b`).
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- Operator names behave as referent names when placed in an infix position (e.g.
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`a + b`).
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- All literals (e.g. `1` and `"Hello"`) are treated as referent names.
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Identifiers are introduced by:
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- Naming them in a binding (assignments and function arguments).
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- Using them in a pattern matching context (free variables).
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- Using them in a type ascription (free variables).
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### External Identifiers
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As Enso has the ability to interface with many other programming languages in a
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highly-integrated fashion, it needs to be able to use naming styles from other
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languages natively. To do this, we have the concept of a _third_ kind of
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identifier, called the 'external' identifier.
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An external identifier is one that doesn't match either the variable or referent
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forms described above, for example `someJavaName`. It is not an _exclusive_
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category, however. Common styles of naming functions in Python, for example,
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will usually lex as variable identifiers.
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> The actionables for this section are:
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>
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> - Work out how and where to make a variable/referent distinction for external
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> names.
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## Pattern Contexts
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A pattern context is a span in the code where variable identifiers (as described
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above) can be used to introduce new identifiers into the scope containing the
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pattern context. The following spans are pattern contexts:
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- The left-hand-side of the assignment operator (`=`).
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- The right-hand-side of the ascription operator (`:`).
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- The left-hand-side of the arrow operator (`->`).
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- Within the curly braces `{}` delimiting a typeset literal.
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The following behaviours occur within a pattern context:
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- Variable names are matched against corresponding portions of the expression
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and are introduced into scope.
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- Type names require that the matched value is of a given structure (be that
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matching a typeset, atom, or some combination thereof), and allows for
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matching these fields recursively.
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- Any literals (e.g. numbers) behave as type names.
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- In any place where a variable identifier may be introduced in a pattern
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context, an `_` (known as an ignore) may be substituted. This does _not_ bind
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a new name, and hence cannot be used later.
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In the core language, it should be noted that all non-trivial constructs are
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desugared into the set of above constructs plus `case ... of` expressions. This
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means that these are the _only_ constructs which introduce pattern contexts.
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> Actionables for this section are:
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>
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> - Clarify exactly what "corresponding portions of the expression" actually
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> means in a formal sense.
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## Localised Naming
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We do, however, recognise that there is sometimes a need for unicode characters
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in names (e.g. designing a high-level visual library that targets a narrow
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domain in a specific country). To that end, Enso allows users to specify
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optional localised names as part of a function's documentation.
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Special support is provided for providing completions based on these localised
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names in the language server, and in Enso Studio.
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## Operator Naming
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Operator names are those built solely from operator symbols (e.g. `+` or `<*>`).
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Operator symbols are defined as characters in the following set.
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```
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;!$%&*+-/<>?^~|:\\=
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```
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Please note that not every sequence that can be created from the above is a
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_valid_ operator name, as some may collide with built-in language constructs
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(e.g. `[` and `]`, which start and end a vector literal respectively).
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### Modifier Operators
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Barring specially defined operators (`=`, `==`, `!=`, `#=`, `>=` and `<=`), any
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operator that ends with an equals sign `=` is called a _modifier_ operator.
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These will, in the future, have special treatment in the language.
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## Reserved Names
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Even though we do not intend to reserve any names at the level of the lexer or
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parser, there are a number of constructs so core to the operation of Enso as a
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language that we do not want to let them be overridden or redefined by users.
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These constructs are known as reserved names, and these restrictions are
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enforced in the compiler.
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We reserve these names because allowing their redefinition would severely hinder
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the readability and consistency of Enso code. They are as follows:
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- `type`: This reserved name is used to define new atoms and typesets.
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- `->`: This reserved name is the 'function' type, and represents a mapping from
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the type of its first operand to the type of its second operand.
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- `:`: This reserved name is the type attribution operator. It ascribes the type
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described by its right operand to its left operand.
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- `=`: This reserved name is the assignment operator, and assigns the value of
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its right operand to the name on its left. Under the hood this desugars to the
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relevant implementation of monadic bind.
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- `.`: This is the forward function chaining operator.
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- `case ... of`: This reserved name is the case expression that is fundamental
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to the operation of control flow in the language.
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- `this`: This reserved name is the one used to refer to the enclosing type in a
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method or type definition.
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- `here`: This reserved name is the one used to refer to the enclosing module.
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- `in`: Used to specify the monadic context(s) in a type signature.
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Many of these reserved words are implemented as macros in the parser, but these
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macros are always in scope and cannot be overridden, hidden, or redefined.
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> The actionables for this section are as follows:
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>
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> - In the future, we need to determine if we need `all` and `each` explicit
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> keywords in the case of dependency. Explicit examples are required.
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