Clarify the relationships between various kinds of structs and variants #1506
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| - Feature Name: clarified_adt_kinds | ||
| - Start Date: 2016-02-07 | ||
| - RFC PR: (leave this empty) | ||
| - Rust Issue: (leave this empty) | ||
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| # Summary | ||
| [summary]: #summary | ||
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| Provide a simple model describing three kinds of structs and variants and their relationships. | ||
| Provide a way to match on structs/variants in patterns regardless of their kind (`S{..}`). | ||
| Permit tuple structs and tuple variants with zero fields (`TS()`). | ||
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| # Motivation | ||
| [motivation]: #motivation | ||
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| There's some mental model lying under the current implementation of ADTs, but it is not written | ||
| out explicitly and not implemented completely consistently. | ||
| Writing this model out helps to identify its missing parts. | ||
| Some of this missing parts turn out to be practically useful. | ||
| This RFC can also serve as a piece of documentation. | ||
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| # Detailed design | ||
| [design]: #detailed-design | ||
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| The text below mostly talks about structures, but almost everything is equally applicable to | ||
| variants. | ||
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| ## Braced structs | ||
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| Braced structs are declared with braces (unsurprisingly). | ||
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| ``` | ||
| struct S { | ||
| field1: Type1, | ||
| field2: Type2, | ||
| field3: Type3, | ||
| } | ||
| ``` | ||
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| Braced structs are the basic struct kind, other kinds are built on top of them. | ||
| Braced structs have 0 or more user-named fields and are defined only in type namespace. | ||
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| Braced structs can be used in struct expressions `S{field1: expr, field2: expr}`, including | ||
| functional record update (FRU) `S{field1: expr, ..s}`/`S{..s}` and with struct patterns | ||
| `S{field1: pat, field2: pat}`/`S{field1: pat, ..}`/`S{..}`. | ||
| In all cases the path `S` of the expression or pattern is looked up in the type namespace. | ||
| Fields of a braced struct can be accessed with dot syntax `s.field1`. | ||
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| Note: struct *variants* are currently defined in the value namespace in addition to type namespace, | ||
| there are no particular reasons for this and this is probably temporary. | ||
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There was a problem hiding this comment. I guess this is because regular variants are in both namespaces and braced variants are a mistake. However, if we one day get named fields for functions, then I guess we could use struct names as ctor functions, so it might be useful. Too bad that ship has sailed for regular structs. |
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| ## Unit structs | ||
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| Unit structs are defined without any fields or brackets. | ||
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| ``` | ||
| struct US; | ||
| ``` | ||
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| Unit structs can be thought of as a single declaration for two things: a basic struct | ||
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| ``` | ||
| struct US {} | ||
| ``` | ||
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| and a constant with the same name | ||
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| ``` | ||
| const US: US = US{}; | ||
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There was a problem hiding this comment. c.f., an actual braced struct with zero fields, which is not in the value namespace There was a problem hiding this comment. I think that's the point. An empty struct-defined-with-without-braces is like an empty struct-defined-with-braces, plus a const like this. |
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| ``` | ||
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| Unit structs have 0 fields and are defined in both type (the type `US`) and value (the | ||
| constant `US`) namespaces. | ||
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| As a basic struct, a unit struct can participate in struct expressions `US{}`, including FRU | ||
| `US{..s}` and in struct patterns `US{}`/`US{..}`. In both cases the path `US` of the expression | ||
| or pattern is looked up in the type namespace. | ||
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There was a problem hiding this comment. A unit struct/variant pattern is a struct/variant pattern, not a constant pattern, and therefore is exhaustive. There was a problem hiding this comment. There's a "Note 1" below (I could expand it though). |
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| Fields of a unit struct could also be accessed with dot syntax, but it doesn't have any fields. | ||
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| As a constant, a unit struct can participate in unit struct expressions `US` and unit struct | ||
| patterns `US`, both of these are looked up in the value namespace in which the constant `US` is | ||
| defined. | ||
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| Note 1: the constant is not exactly a `const` item, there are subtle differences, but it's a close | ||
| approximation. | ||
| Note 2: the constant is pretty weirdly namespaced in case of unit *variants*, constants can't be | ||
| defined in "enum modules" manually. | ||
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| ## Tuple structs | ||
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| Tuple structs are declared with parentheses. | ||
| ``` | ||
| struct TS(Type0, Type1, Type2); | ||
| ``` | ||
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| Tuple structs can be thought of as a single declaration for two things: a basic struct | ||
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| ``` | ||
| struct TS { | ||
| 0: Type0, | ||
| 1: Type1, | ||
| 2: Type2, | ||
| } | ||
| ``` | ||
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| and a constructor function with the same name | ||
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| ``` | ||
| fn TS(arg0: Type0, arg1: Type1, arg2: Type2) -> TS { | ||
| TS{0: arg0, 1: arg1, 2: arg2} | ||
| } | ||
| ``` | ||
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| Tuple structs have 0 or more automatically-named fields and are defined in both type (the type `TS`) | ||
| and the value (the constructor function `TS`) namespaces. | ||
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| As a basic struct, a tuple struct can participate in struct expressions `TS{0: expr, 1: expr}`, | ||
| including FRU `TS{0: expr, ..ts}`/`TS{..ts}` and in struct patterns | ||
| `TS{0: pat, 1: pat}`/`TS{0: pat, ..}`/`TS{..}`. | ||
| In both cases the path `TS` of the expression or pattern is looked up in the type namespace. | ||
| Fields of a braced tuple can be accessed with dot syntax `ts.0`. | ||
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| As a constructor, a tuple struct can participate in tuple struct expressions `TS(expr, expr)` and | ||
| tuple struct patterns `TS(pat, pat)`/`TS(..)`, both of these are looked up in the value namespace | ||
| in which the constructor `TS` is defined. Tuple struct expressions `TS(expr, expr)` are usual | ||
| function calls, but the compiler reserves the right to make observable improvements to them based | ||
| on the additional knowledge, that `TS` is a constructor. | ||
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| Note: the automatically assigned field names are quite interesting, they are not identifiers | ||
| lexically (they are integer literals), so such fields can't be defined manually. | ||
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| ## Summary of the changes. | ||
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| Everything related to braced structs and unit structs is already implemented. | ||
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| New: Permit tuple structs and tuple variants with 0 fields. This restriction is artificial and can | ||
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There was a problem hiding this comment. Could you expand on the exact semantics here, I assume there is no interoperability between the different kinds of zero-sized structs. Whereas, a unit struct can be thought of as a single constant object, I would think of zero-field tuple structs generating a potentially infinite number of unique instances, but I can't think of how this makes an actual difference in code. There was a problem hiding this comment.
Can you expand on your intuition here? There was a problem hiding this comment.
, it's described in the section about tuple structs above. |
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| be lifted trivially. Macro writers dealing with tuple structs/variants will be happy to get rid of | ||
| this one special case. | ||
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There was a problem hiding this comment. examples of crates that had to implement workarounds because of this limitation? There was a problem hiding this comment. I have an anecdotal evidence from @DanielKeep but no concrete examples so far. There was a problem hiding this comment. A more subtle question might be crates that are broken, but haven't noticed yet, because nobody tried to make it generate a struct with no fields. |
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| New: Permit using tuple structs and tuple variants in braced struct patterns and expressions not | ||
| requiring naming their fields - `TS{..ts}`/`TS{}`/`TS{..}`. This doesn't require much effort to | ||
| implement as well. | ||
| This also means that `S{..}` patterns can be used to match structures and variants of any kind. | ||
| The desire to have such "match everything" patterns is sometimes expressed given | ||
| that number of fields in structures and variants can change from zero to non-zero and back during | ||
| development. | ||
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| New: Permit using tuple structs and tuple variants in braced struct patterns and expressions | ||
| requiring naming their fields - `TS{0: expr}`/`TS{0: pat}`/etc. This change looks a bit worse from | ||
| the cost/benefit point of view. There's not much motivation for it besides consistency and probably | ||
| shortening patterns like `ItemFn(name, _, _, _, _, _)` into something like `ItemFn{0: name, ..}`. | ||
| Automatic code generators (e.g. syntax extensions like `derive`) can probably benefit from the | ||
| ability to generate uniform code for all structure kinds as well. | ||
| The author of the RFC is ready to postpone or drop this particular extension at any moment. | ||
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| # Drawbacks | ||
| [drawbacks]: #drawbacks | ||
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| None. | ||
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| # Alternatives | ||
| [alternatives]: #alternatives | ||
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| None. | ||
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| # Unresolved questions | ||
| [unresolved]: #unresolved-questions | ||
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| None. | ||
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Do these have any use?
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No. (Not now at least.)
See rust-lang/rust#30882 (comment)