ligo/LexToken.mli
Christian Rinderknecht 457a0085f7
I added and alternate syntax for blocks of instructions.
The syntax: block { ... }
The other syntax: begin ... end
This implies adding a new keyword to LIGO: "block".
2019-03-25 16:38:07 +01:00

157 lines
5.1 KiB
OCaml

(* This signature defines the lexical tokens for LIGO
_Tokens_ are the abstract units which are used by the parser to
build the abstract syntax tree (AST), in other words, the stream of
tokens is the minimal model of the input program, carrying
implicitly all its structure in a linear encoding, and nothing
else, in particular, comments and whitespace are absent.
A _lexeme_ is a specific character string (concrete
representation) denoting a token (abstract representation). Tokens
can be thought of as sets, and lexemes as elements of those sets --
there is often an infinite number of lexemes, but a small number of
tokens. (Think of identifiers as lexemes and one token.)
The tokens are qualified here as being "lexical" because the
parser generator Menhir expects to define them, in which context
they are called "parsing tokens", and they are made to match each
other. (This is an idiosyncratic terminology.)
The type of the lexical tokens is the variant [t], also
aliased to [token].
*)
type lexeme = string
(* TOKENS *)
type t =
(* Literals *)
String of lexeme Region.reg
| Bytes of (lexeme * Hex.t) Region.reg
| Int of (lexeme * Z.t) Region.reg
| Ident of lexeme Region.reg
| Constr of lexeme Region.reg
(* Symbols *)
| SEMI of Region.t (* ";" *)
| COMMA of Region.t (* "," *)
| LPAR of Region.t (* "(" *)
| RPAR of Region.t (* ")" *)
| LBRACE of Region.t (* "{" *)
| RBRACE of Region.t (* "}" *)
| LBRACKET of Region.t (* "[" *)
| RBRACKET of Region.t (* "]" *)
| CONS of Region.t (* "#" *)
| VBAR of Region.t (* "|" *)
| ARROW of Region.t (* "->" *)
| ASS of Region.t (* ":=" *)
| EQUAL of Region.t (* "=" *)
| COLON of Region.t (* ":" *)
| LT of Region.t (* "<" *)
| LEQ of Region.t (* "<=" *)
| GT of Region.t (* ">" *)
| GEQ of Region.t (* ">=" *)
| NEQ of Region.t (* "=/=" *)
| PLUS of Region.t (* "+" *)
| MINUS of Region.t (* "-" *)
| SLASH of Region.t (* "/" *)
| TIMES of Region.t (* "*" *)
| DOT of Region.t (* "." *)
| WILD of Region.t (* "_" *)
| CAT of Region.t (* "^" *)
(* Keywords *)
| And of Region.t (* "and" *)
| Begin of Region.t (* "begin" *)
| Block of Region.t (* "block" *)
| Case of Region.t (* "case" *)
| Const of Region.t (* "const" *)
| Contains of Region.t (* "contains" *)
| Down of Region.t (* "down" *)
| Else of Region.t (* "else" *)
| End of Region.t (* "end" *)
| Entrypoint of Region.t (* "entrypoint" *)
| Fail of Region.t (* "fail" *)
| For of Region.t (* "for" *)
| From of Region.t (* "from" *)
| Function of Region.t (* "function" *)
| If of Region.t (* "if" *)
| In of Region.t (* "in" *)
| Is of Region.t (* "is" *)
| Map of Region.t (* "map" *)
| Mod of Region.t (* "mod" *)
| Not of Region.t (* "not" *)
| Of of Region.t (* "of" *)
| Or of Region.t (* "or" *)
| Patch of Region.t (* "patch" *)
| Procedure of Region.t (* "procedure" *)
| Record of Region.t (* "record" *)
| Remove of Region.t (* "remove" *)
| Set of Region.t (* "set" *)
| Skip of Region.t (* "skip" *)
| Step of Region.t (* "step" *)
| Storage of Region.t (* "storage" *)
| Then of Region.t (* "then" *)
| To of Region.t (* "to" *)
| Type of Region.t (* "type" *)
| Var of Region.t (* "var" *)
| While of Region.t (* "while" *)
| With of Region.t (* "with" *)
(* Data constructors *)
| C_False of Region.t (* "False" *)
| C_None of Region.t (* "None" *)
| C_Some of Region.t (* "Some" *)
| C_True of Region.t (* "True" *)
| C_Unit of Region.t (* "Unit" *)
(* Virtual tokens *)
| EOF of Region.t
type token = t
(* Projections
The difference between extracting the lexeme and a string from a
token is that the latter is the textual representation of the OCaml
value denoting the token (its abstract syntax), rather than its
lexeme (concrete syntax).
*)
val to_lexeme : token -> lexeme
val to_string : token -> ?offsets:bool -> [`Byte | `Point] -> string
val to_region : token -> Region.t
(* Injections *)
type int_err =
Non_canonical_zero
type ident_err = Reserved_name
val mk_string : lexeme -> Region.t -> token
val mk_bytes : lexeme -> Region.t -> token
val mk_int : lexeme -> Region.t -> (token, int_err) result
val mk_ident : lexeme -> Region.t -> (token, ident_err) result
val mk_constr : lexeme -> Region.t -> token
val mk_sym : lexeme -> Region.t -> token
val eof : Region.t -> token
(* Predicates *)
val is_string : token -> bool
val is_bytes : token -> bool
val is_int : token -> bool
val is_ident : token -> bool
val is_kwd : token -> bool
val is_constr : token -> bool
val is_sym : token -> bool
val is_eof : token -> bool