src/glossary.md - rust-lang/reference - Git at Google

 # Glossary

 ### Abstract syntax tree

 An ‘abstract syntax tree’, or ‘AST’, is an intermediate representation of
 the structure of the program when the compiler is compiling it.

 ### Alignment

 The alignment of a value specifies what addresses values are preferred to
 start at. Always a power of two. References to a value must be aligned.
 [More][alignment].

 ### Arity

 Arity refers to the number of arguments a function or operator takes.
 For some examples, `f(2, 3)` and `g(4, 6)` have arity 2, while `h(8, 2, 6)`
 has arity 3. The `!` operator has arity 1.

 ### Array

 An array, sometimes also called a fixed-size array or an inline array, is a value
 describing a collection of elements, each selected by an index that can be computed
 at run time by the program. It occupies a contiguous region of memory.

 ### Associated item

 An associated item is an item that is associated with another item. Associated
 items are defined in [implementations] and declared in [traits]. Only
 functions, constants, and type aliases can be associated. Contrast to a [free
 item].

 ### Blanket implementation

 Any implementation where a type appears [uncovered](#uncovered-type). `impl<T> Foo
 for T`, `impl<T> Bar<T> for T`, `impl<T> Bar<Vec<T>> for T`, and `impl<T> Bar<T>
 for Vec<T>` are considered blanket impls. However, `impl<T> Bar<Vec<T>> for
 Vec<T>` is not a blanket impl, as all instances of `T` which appear in this `impl`
 are covered by `Vec`.

 ### Bound

 Bounds are constraints on a type or trait. For example, if a bound
 is placed on the argument a function takes, types passed to that function
 must abide by that constraint.

 ### Combinator

 Combinators are higher-order functions that apply only functions and
 earlier defined combinators to provide a result from its arguments.
 They can be used to manage control flow in a modular fashion.

 ### Crate

 A crate is the unit of compilation and linking. There are different [types of
 crates], such as libraries or executables. Crates may link and refer to other
 library crates, called external crates. A crate has a self-contained tree of
 [modules], starting from an unnamed root module called the crate root. [Items]
 may be made visible to other crates by marking them as public in the crate
 root, including through [paths] of public modules.
 [More][crate].

 ### Dispatch

 Dispatch is the mechanism to determine which specific version of code is actually run when it involves polymorphism. Two major forms of dispatch are static dispatch and dynamic dispatch. Rust supports dynamic dispatch through the use of [trait objects][type.trait-object].

 ### Dynamically sized type

 A dynamically sized type (DST) is a type without a statically known size or alignment.

 ### Entity

 An [*entity*] is a language construct that can be referred to in some way
 within the source program, usually via a [path][paths]. Entities include
 [types], [items], [generic parameters], [variable bindings], [loop labels],
 [lifetimes], [fields], [attributes], and [lints].

 ### Expression

 An expression is a combination of values, constants, variables, operators
 and functions that evaluate to a single value, with or without side-effects.

 For example, `2 + (3 * 4)` is an expression that returns the value 14.

 ### Free item

 An [item] that is not a member of an [implementation], such as a *free
 function* or a *free const*. Contrast to an [associated item].

 ### Fundamental traits

 A fundamental trait is one where adding an impl of it for an existing type is a breaking change.
 The `Fn` traits and `Sized` are fundamental.

 ### Fundamental type constructors

 A fundamental type constructor is a type where implementing a [blanket implementation](#blanket-implementation) over it
 is a breaking change. `&`, `&mut`, `Box`, and `Pin`  are fundamental.

 Any time a type `T` is considered [local](#local-type), `&T`, `&mut T`, `Box<T>`, and `Pin<T>`
 are also considered local. Fundamental type constructors cannot [cover](#uncovered-type) other types.
 Any time the term "covered type" is used,
 the `T` in `&T`, `&mut T`, `Box<T>`, and `Pin<T>` is not considered covered.

 ### Inhabited

 A type is inhabited if it has constructors and therefore can be instantiated. An inhabited type is
 not "empty" in the sense that there can be values of the type. Opposite of
 [Uninhabited](#uninhabited).

 ### Inherent implementation

 An [implementation] that applies to a nominal type, not to a trait-type pair.
 [More][inherent implementation].

 ### Inherent method

 A [method] defined in an [inherent implementation], not in a trait
 implementation.

 ### Initialized

 A variable is initialized if it has been assigned a value and hasn't since been
 moved from. All other memory locations are assumed to be uninitialized. Only
 unsafe Rust can create a memory location without initializing it.

 ### Local trait

 A `trait` which was defined in the current crate. A trait definition is local
 or not independent of applied type arguments. Given `trait Foo<T, U>`,
 `Foo` is always local, regardless of the types substituted for `T` and `U`.

 ### Local type

 A `struct`, `enum`, or `union` which was defined in the current crate.
 This is not affected by applied type arguments. `struct Foo` is considered local, but
 `Vec<Foo>` is not. `LocalType<ForeignType>` is local. Type aliases do not
 affect locality.

 ### Module

 A module is a container for zero or more [items]. Modules are organized in a
 tree, starting from an unnamed module at the root called the crate root or the
 root module. [Paths] may be used to refer to items from other modules, which
 may be restricted by [visibility rules].
 [More][modules]

 ### Name

 A [*name*] is an [identifier] or [lifetime or loop label] that refers to an
 [entity](#entity). A *name binding* is when an entity declaration introduces
 an identifier or label associated with that entity. [Paths],
 identifiers, and labels are used to refer to an entity.

 ### Name resolution

 [*Name resolution*] is the compile-time process of tying [paths],
 [identifiers], and [labels] to [entity](#entity) declarations.

 ### Namespace

 A *namespace* is a logical grouping of declared [names](#name) based on the
 kind of [entity](#entity) the name refers to. Namespaces allow the occurrence
 of a name in one namespace to not conflict with the same name in another
 namespace.

 Within a namespace, names are organized in a hierarchy, where each level of
 the hierarchy has its own collection of named entities.

 ### Nominal types

 Types that can be referred to by a path directly. Specifically [enums],
 [structs], [unions], and [trait object types].

 ### Dyn-compatible traits

 [Traits] that can be used in [trait object types] (`dyn Trait`).
 Only traits that follow specific [rules][dyn compatibility] are *dyn compatible*.

 These were formerly known as *object safe* traits.

 ### Path

 A [*path*] is a sequence of one or more path segments used to refer to an
 [entity](#entity) in the current scope or other levels of a
 [namespace](#namespace) hierarchy.

 ### Prelude

 Prelude, or The Rust Prelude, is a small collection of items - mostly traits - that are
 imported into every module of every crate. The traits in the prelude are pervasive.

 ### Scope

 A [*scope*] is the region of source text where a named [entity](#entity) may
 be referenced with that name.

 ### Scrutinee

 A scrutinee is the expression that is matched on in `match` expressions and
 similar pattern matching constructs. For example, in `match x { A => 1, B => 2 }`,
 the expression `x` is the scrutinee.

 ### Size

 The size of a value has two definitions.

 The first is that it is how much memory must be allocated to store that value.

 The second is that it is the offset in bytes between successive elements in an
 array with that item type.

 It is a multiple of the alignment, including zero. The size can change
 depending on compiler version (as new optimizations are made) and target
 platform (similar to how `usize` varies per-platform).

 [More][alignment].

 ### Slice

 A slice is dynamically-sized view into a contiguous sequence, written as `[T]`.

 It is often seen in its borrowed forms, either mutable or shared. The shared
 slice type is `&[T]`, while the mutable slice type is `&mut [T]`, where `T` represents
 the element type.

 ### Statement

 A statement is the smallest standalone element of a programming language
 that commands a computer to perform an action.

 ### String literal

 A string literal is a string stored directly in the final binary, and so will be
 valid for the `'static` duration.

 Its type is `'static` duration borrowed string slice, `&'static str`.

 ### String slice

 A string slice is the most primitive string type in Rust, written as `str`. It is
 often seen in its borrowed forms, either mutable or shared. The shared
 string slice type is `&str`, while the mutable string slice type is `&mut str`.

 Strings slices are always valid UTF-8.

 ### Trait

 A trait is a language item that is used for describing the functionalities a type must provide.
 It allows a type to make certain promises about its behavior.

 Generic functions and generic structs can use traits to constrain, or bound, the types they accept.

 ### Turbofish

 Paths with generic parameters in expressions must prefix the opening brackets with a `::`.
 Combined with the angular brackets for generics, this looks like a fish `::<>`.
 As such, this syntax is colloquially referred to as turbofish syntax.

 Examples:

 ```rust
 let ok_num = Ok::<_, ()>(5);
 let vec = [1, 2, 3].iter().map(|n| n * 2).collect::<Vec<_>>();
 ```

 This `::` prefix is required to disambiguate generic paths with multiple comparisons in a comma-separate list.
 See [the bastion of the turbofish][turbofish test] for an example where not having the prefix would be ambiguous.

 ### Uncovered type

 A type which does not appear as an argument to another type. For example,
 `T` is uncovered, but the `T` in `Vec<T>` is covered. This is only relevant for
 type arguments.

 ### Undefined behavior

 Compile-time or run-time behavior that is not specified. This may result in,
 but is not limited to: process termination or corruption; improper, incorrect,
 or unintended computation; or platform-specific results.
 [More][undefined-behavior].

 ### Uninhabited

 A type is uninhabited if it has no constructors and therefore can never be instantiated. An
 uninhabited type is "empty" in the sense that there are no values of the type. The canonical
 example of an uninhabited type is the [never type] `!`, or an enum with no variants
 `enum Never { }`. Opposite of [Inhabited](#inhabited).

 [alignment]: type-layout.md#size-and-alignment
 [associated item]: #associated-item
 [attributes]: attributes.md
 [*entity*]: names.md
 [crate]: crates-and-source-files.md
 [dyn compatibility]: items/traits.md#dyn-compatibility
 [enums]: items/enumerations.md
 [fields]: expressions/field-expr.md
 [free item]: #free-item
 [generic parameters]: items/generics.md
 [identifier]: identifiers.md
 [identifiers]: identifiers.md
 [implementation]: items/implementations.md
 [implementations]: items/implementations.md
 [inherent implementation]: items/implementations.md#inherent-implementations
 [item]: items.md
 [items]: items.md
 [labels]: tokens.md#lifetimes-and-loop-labels
 [lifetime or loop label]: tokens.md#lifetimes-and-loop-labels
 [lifetimes]: tokens.md#lifetimes-and-loop-labels
 [lints]: attributes/diagnostics.md#lint-check-attributes
 [loop labels]: tokens.md#lifetimes-and-loop-labels
 [method]: items/associated-items.md#methods
 [modules]: items/modules.md
 [*Name resolution*]: names/name-resolution.md
 [*name*]: names.md
 [*namespace*]: names/namespaces.md
 [never type]: types/never.md
 [*path*]: paths.md
 [Paths]: paths.md
 [*scope*]: names/scopes.md
 [structs]: items/structs.md
 [trait object types]: types/trait-object.md
 [traits]: items/traits.md
 [turbofish test]: https://github.com/rust-lang/rust/blob/1.58.0/src/test/ui/parser/bastion-of-the-turbofish.rs
 [types of crates]: linkage.md
 [types]: types.md
 [undefined-behavior]: behavior-considered-undefined.md
 [unions]: items/unions.md
 [variable bindings]: patterns.md
 [visibility rules]: visibility-and-privacy.md

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	# Glossary

	### Abstract syntax tree

	An ‘abstract syntax tree’, or ‘AST’, is an intermediate representation of
	the structure of the program when the compiler is compiling it.

	### Alignment

	The alignment of a value specifies what addresses values are preferred to
	start at. Always a power of two. References to a value must be aligned.
	[More][alignment].

	### Arity

	Arity refers to the number of arguments a function or operator takes.
	For some examples, `f(2, 3)` and `g(4, 6)` have arity 2, while `h(8, 2, 6)`
	has arity 3. The `!` operator has arity 1.

	### Array

	An array, sometimes also called a fixed-size array or an inline array, is a value
	describing a collection of elements, each selected by an index that can be computed
	at run time by the program. It occupies a contiguous region of memory.

	### Associated item

	An associated item is an item that is associated with another item. Associated
	items are defined in [implementations] and declared in [traits]. Only
	functions, constants, and type aliases can be associated. Contrast to a [free
	item].

	### Blanket implementation

	Any implementation where a type appears [uncovered](#uncovered-type). `impl<T> Foo
	for T`, `impl<T> Bar<T> for T`, `impl<T> Bar<Vec<T>> for T`, and `impl<T> Bar<T>
	for Vec<T>` are considered blanket impls. However, `impl<T> Bar<Vec<T>> for
	Vec<T>` is not a blanket impl, as all instances of `T` which appear in this `impl`
	are covered by `Vec`.

	### Bound

	Bounds are constraints on a type or trait. For example, if a bound
	is placed on the argument a function takes, types passed to that function
	must abide by that constraint.

	### Combinator

	Combinators are higher-order functions that apply only functions and
	earlier defined combinators to provide a result from its arguments.
	They can be used to manage control flow in a modular fashion.

	### Crate

	A crate is the unit of compilation and linking. There are different [types of
	crates], such as libraries or executables. Crates may link and refer to other
	library crates, called external crates. A crate has a self-contained tree of
	[modules], starting from an unnamed root module called the crate root. [Items]
	may be made visible to other crates by marking them as public in the crate
	root, including through [paths] of public modules.
	[More][crate].

	### Dispatch

	Dispatch is the mechanism to determine which specific version of code is actually run when it involves polymorphism. Two major forms of dispatch are static dispatch and dynamic dispatch. Rust supports dynamic dispatch through the use of [trait objects][type.trait-object].

	### Dynamically sized type

	A dynamically sized type (DST) is a type without a statically known size or alignment.

	### Entity

	An [entity] is a language construct that can be referred to in some way
	within the source program, usually via a [path][paths]. Entities include
	[types], [items], [generic parameters], [variable bindings], [loop labels],
	[lifetimes], [fields], [attributes], and [lints].

	### Expression

	An expression is a combination of values, constants, variables, operators
	and functions that evaluate to a single value, with or without side-effects.

	For example, `2 + (3 * 4)` is an expression that returns the value 14.

	### Free item

	An [item] that is not a member of an [implementation], such as a *free
	function* or a free const. Contrast to an [associated item].

	### Fundamental traits

	A fundamental trait is one where adding an impl of it for an existing type is a breaking change.
	The `Fn` traits and `Sized` are fundamental.

	### Fundamental type constructors

	A fundamental type constructor is a type where implementing a [blanket implementation](#blanket-implementation) over it
	is a breaking change. `&`, `&mut`, `Box`, and `Pin` are fundamental.

	Any time a type `T` is considered [local](#local-type), `&T`, `&mut T`, `Box<T>`, and `Pin<T>`
	are also considered local. Fundamental type constructors cannot [cover](#uncovered-type) other types.
	Any time the term "covered type" is used,
	the `T` in `&T`, `&mut T`, `Box<T>`, and `Pin<T>` is not considered covered.

	### Inhabited

	A type is inhabited if it has constructors and therefore can be instantiated. An inhabited type is
	not "empty" in the sense that there can be values of the type. Opposite of
	[Uninhabited](#uninhabited).

	### Inherent implementation

	An [implementation] that applies to a nominal type, not to a trait-type pair.
	[More][inherent implementation].

	### Inherent method

	A [method] defined in an [inherent implementation], not in a trait
	implementation.

	### Initialized

	A variable is initialized if it has been assigned a value and hasn't since been
	moved from. All other memory locations are assumed to be uninitialized. Only
	unsafe Rust can create a memory location without initializing it.

	### Local trait

	A `trait` which was defined in the current crate. A trait definition is local
	or not independent of applied type arguments. Given `trait Foo<T, U>`,
	`Foo` is always local, regardless of the types substituted for `T` and `U`.

	### Local type

	A `struct`, `enum`, or `union` which was defined in the current crate.
	This is not affected by applied type arguments. `struct Foo` is considered local, but
	`Vec<Foo>` is not. `LocalType<ForeignType>` is local. Type aliases do not
	affect locality.

	### Module

	A module is a container for zero or more [items]. Modules are organized in a
	tree, starting from an unnamed module at the root called the crate root or the
	root module. [Paths] may be used to refer to items from other modules, which
	may be restricted by [visibility rules].
	[More][modules]

	### Name

	A [name] is an [identifier] or [lifetime or loop label] that refers to an
	[entity](#entity). A name binding is when an entity declaration introduces
	an identifier or label associated with that entity. [Paths],
	identifiers, and labels are used to refer to an entity.

	### Name resolution

	[Name resolution] is the compile-time process of tying [paths],
	[identifiers], and [labels] to [entity](#entity) declarations.

	### Namespace

	A namespace is a logical grouping of declared [names](#name) based on the
	kind of [entity](#entity) the name refers to. Namespaces allow the occurrence
	of a name in one namespace to not conflict with the same name in another
	namespace.

	Within a namespace, names are organized in a hierarchy, where each level of
	the hierarchy has its own collection of named entities.

	### Nominal types

	Types that can be referred to by a path directly. Specifically [enums],
	[structs], [unions], and [trait object types].

	### Dyn-compatible traits

	[Traits] that can be used in [trait object types] (`dyn Trait`).
	Only traits that follow specific [rules][dyn compatibility] are dyn compatible.

	These were formerly known as object safe traits.

	### Path

	A [path] is a sequence of one or more path segments used to refer to an
	[entity](#entity) in the current scope or other levels of a
	[namespace](#namespace) hierarchy.

	### Prelude

	Prelude, or The Rust Prelude, is a small collection of items - mostly traits - that are
	imported into every module of every crate. The traits in the prelude are pervasive.

	### Scope

	A [scope] is the region of source text where a named [entity](#entity) may
	be referenced with that name.

	### Scrutinee

	A scrutinee is the expression that is matched on in `match` expressions and
	similar pattern matching constructs. For example, in `match x { A => 1, B => 2 }`,
	the expression `x` is the scrutinee.

	### Size

	The size of a value has two definitions.

	The first is that it is how much memory must be allocated to store that value.

	The second is that it is the offset in bytes between successive elements in an
	array with that item type.

	It is a multiple of the alignment, including zero. The size can change
	depending on compiler version (as new optimizations are made) and target
	platform (similar to how `usize` varies per-platform).

	[More][alignment].

	### Slice

	A slice is dynamically-sized view into a contiguous sequence, written as `[T]`.

	It is often seen in its borrowed forms, either mutable or shared. The shared
	slice type is `&[T]`, while the mutable slice type is `&mut [T]`, where `T` represents
	the element type.

	### Statement

	A statement is the smallest standalone element of a programming language
	that commands a computer to perform an action.

	### String literal

	A string literal is a string stored directly in the final binary, and so will be
	valid for the `'static` duration.

	Its type is `'static` duration borrowed string slice, `&'static str`.

	### String slice

	A string slice is the most primitive string type in Rust, written as `str`. It is
	often seen in its borrowed forms, either mutable or shared. The shared
	string slice type is `&str`, while the mutable string slice type is `&mut str`.

	Strings slices are always valid UTF-8.

	### Trait

	A trait is a language item that is used for describing the functionalities a type must provide.
	It allows a type to make certain promises about its behavior.

	Generic functions and generic structs can use traits to constrain, or bound, the types they accept.

	### Turbofish

	Paths with generic parameters in expressions must prefix the opening brackets with a `::`.
	Combined with the angular brackets for generics, this looks like a fish `::<>`.
	As such, this syntax is colloquially referred to as turbofish syntax.

	Examples:

	```rust
	let ok_num = Ok::<_, ()>(5);
	let vec = [1, 2, 3].iter().map(\|n\| n * 2).collect::<Vec<_>>();
	```

	This `::` prefix is required to disambiguate generic paths with multiple comparisons in a comma-separate list.
	See [the bastion of the turbofish][turbofish test] for an example where not having the prefix would be ambiguous.

	### Uncovered type

	A type which does not appear as an argument to another type. For example,
	`T` is uncovered, but the `T` in `Vec<T>` is covered. This is only relevant for
	type arguments.

	### Undefined behavior

	Compile-time or run-time behavior that is not specified. This may result in,
	but is not limited to: process termination or corruption; improper, incorrect,
	or unintended computation; or platform-specific results.
	[More][undefined-behavior].

	### Uninhabited

	A type is uninhabited if it has no constructors and therefore can never be instantiated. An
	uninhabited type is "empty" in the sense that there are no values of the type. The canonical
	example of an uninhabited type is the [never type] `!`, or an enum with no variants
	`enum Never { }`. Opposite of [Inhabited](#inhabited).

	[alignment]: type-layout.md#size-and-alignment
	[associated item]: #associated-item
	[attributes]: attributes.md
	[entity]: names.md
	[crate]: crates-and-source-files.md
	[dyn compatibility]: items/traits.md#dyn-compatibility
	[enums]: items/enumerations.md
	[fields]: expressions/field-expr.md
	[free item]: #free-item
	[generic parameters]: items/generics.md
	[identifier]: identifiers.md
	[identifiers]: identifiers.md
	[implementation]: items/implementations.md
	[implementations]: items/implementations.md
	[inherent implementation]: items/implementations.md#inherent-implementations
	[item]: items.md
	[items]: items.md
	[labels]: tokens.md#lifetimes-and-loop-labels
	[lifetime or loop label]: tokens.md#lifetimes-and-loop-labels
	[lifetimes]: tokens.md#lifetimes-and-loop-labels
	[lints]: attributes/diagnostics.md#lint-check-attributes
	[loop labels]: tokens.md#lifetimes-and-loop-labels
	[method]: items/associated-items.md#methods
	[modules]: items/modules.md
	[Name resolution]: names/name-resolution.md
	[name]: names.md
	[namespace]: names/namespaces.md
	[never type]: types/never.md
	[path]: paths.md
	[Paths]: paths.md
	[scope]: names/scopes.md
	[structs]: items/structs.md
	[trait object types]: types/trait-object.md
	[traits]: items/traits.md
	[turbofish test]: https://github.com/rust-lang/rust/blob/1.58.0/src/test/ui/parser/bastion-of-the-turbofish.rs
	[types of crates]: linkage.md
	[types]: types.md
	[undefined-behavior]: behavior-considered-undefined.md
	[unions]: items/unions.md
	[variable bindings]: patterns.md
	[visibility rules]: visibility-and-privacy.md

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