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open Cmdliner
open Trace
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open Cli_helpers
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let main =
let term = Term . ( const print_endline $ const " Ligo needs a command. Do ligo --help " ) in
( term , Term . info " ligo " )
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let source n =
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let open Arg in
let info =
let docv = " SOURCE_FILE " in
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let doc = " $(docv) is the path to the .ligo or .mligo file of the contract. " in
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info ~ docv ~ doc [] in
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required @@ pos n ( some string ) None info
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let entry_point n =
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let open Arg in
let info =
let docv = " ENTRY_POINT " in
let doc = " $(docv) is entry-point that will be compiled. " in
info ~ docv ~ doc [] in
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required @@ pos n ( some string ) ( Some " main " ) info
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let expression purpose n =
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let open Arg in
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let docv = purpose ^ " _EXPRESSION " in
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let doc = " $(docv) is the expression that will be compiled. " in
let info = info ~ docv ~ doc [] in
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required @@ pos n ( some string ) None info
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let syntax =
let open Arg in
let info =
let docv = " SYNTAX " in
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let doc = " $(docv) is the syntax that will be used. Currently supported syntaxes are \" pascaligo \" and \" cameligo \" . By default, the syntax is guessed from the extension (.ligo and .mligo, respectively). " in
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info ~ docv ~ doc [ " syntax " ; " s " ] in
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value @@ opt string " auto " info
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let bigmap =
let open Arg in
let info =
let docv = " BIGMAP " in
let doc = " $(docv) is necessary when your storage embeds a big_map. " in
info ~ docv ~ doc [ " bigmap " ] in
value @@ flag info
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let amount =
let open Arg in
let info =
let docv = " AMOUNT " in
let doc = " $(docv) is the amount the dry-run transaction will use. " in
info ~ docv ~ doc [ " amount " ] in
value @@ opt string " 0 " info
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let display_format =
let open Arg in
let info =
let docv = " DISPLAY_FORMAT " in
let doc = " $(docv) is the format that will be used by the CLI. Available formats are 'dev', 'json', and 'human-readable' (default). When human-readable lacks details (we are still tweaking it), please contact us and use another format in the meanwhile. " in
info ~ docv ~ doc [ " format " ; " display-format " ] in
value @@ opt string " human-readable " info
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let michelson_code_format =
let open Arg in
let info =
let docv = " MICHELSON_FORMAT " in
let doc = " $(docv) is the format that will be used by compile-contract for the resulting Michelson. Available formats are 'micheline', and 'michelson' (default). Micheline is the format used by [XXX]. " in
info ~ docv ~ doc [ " michelson-format " ] in
value @@ opt string " michelson " info
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let compile_file =
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let f source entry_point syntax display_format michelson_format =
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toplevel ~ display_format @@
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let % bind michelson_format = Main . Display . michelson_format_of_string michelson_format in
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let % bind contract =
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trace ( simple_info " compiling contract to michelson " ) @@
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Ligo . Compile . Of_source . compile_file_contract_entry source entry_point ( Syntax_name syntax ) in
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ok @@ Format . asprintf " %a \n " ( Main . Display . michelson_pp michelson_format ) contract
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in
let term =
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Term . ( const f $ source 0 $ entry_point 1 $ syntax $ display_format $ michelson_code_format ) in
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let cmdname = " compile-contract " in
let docs = " Subcommand: compile a contract. See `ligo " ^ cmdname ^ " --help' for a list of options specific to this subcommand. " in
( term , Term . info ~ docs cmdname )
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let compile_parameter =
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let f source entry_point expression syntax display_format =
toplevel ~ display_format @@
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let % bind value =
trace ( simple_error " compile-input " ) @@
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Ligo . Run . Of_source . compile_file_contract_parameter source entry_point expression ( Syntax_name syntax ) in
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ok @@ Format . asprintf " %a \n " Tezos_utils . Michelson . pp value
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in
let term =
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Term . ( const f $ source 0 $ entry_point 1 $ expression " PARAMETER " 2 $ syntax $ display_format ) in
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let cmdname = " compile-parameter " in
let docs = " Subcommand: compile parameters to a michelson expression. The resulting michelson expression can be passed as an argument in a transaction which calls a contract. See `ligo " ^ cmdname ^ " --help' for a list of options specific to this subcommand. " in
( term , Term . info ~ docs cmdname )
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let compile_storage =
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let f source entry_point expression syntax display_format bigmap =
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toplevel ~ display_format @@
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let % bind value =
trace ( simple_error " compile-storage " ) @@
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Ligo . Run . Of_source . compile_file_contract_storage ~ value : bigmap source entry_point expression ( Syntax_name syntax ) in
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ok @@ Format . asprintf " %a \n " Tezos_utils . Michelson . pp value
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in
let term =
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Term . ( const f $ source 0 $ entry_point 1 $ expression " STORAGE " 2 $ syntax $ display_format $ bigmap ) in
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let cmdname = " compile-storage " in
let docs = " Subcommand: compile an initial storage in ligo syntax to a michelson expression. The resulting michelson expression can be passed as an argument in a transaction which originates a contract. See `ligo " ^ cmdname ^ " --help' for a list of options specific to this subcommand. " in
( term , Term . info ~ docs cmdname )
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let dry_run =
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let f source entry_point storage input amount syntax display_format bigmap =
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toplevel ~ display_format @@
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let % bind output =
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Ligo . Run . Of_source . run_contract ~ amount ~ storage_value : bigmap source entry_point storage input ( Syntax_name syntax ) in
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ok @@ Format . asprintf " %a \n " Ast_simplified . PP . expression output
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in
let term =
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Term . ( const f $ source 0 $ entry_point 1 $ expression " PARAMETER " 2 $ expression " STORAGE " 3 $ amount $ syntax $ display_format $ bigmap ) in
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let cmdname = " dry-run " in
let docs = " Subcommand: run a smart-contract with the given storage and input. " in
( term , Term . info ~ docs cmdname )
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let run_function =
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let f source entry_point parameter amount syntax display_format =
toplevel ~ display_format @@
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let % bind output =
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Ligo . Run . Of_source . run_function_entry ~ amount source entry_point parameter ( Syntax_name syntax ) in
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ok @@ Format . asprintf " %a \n " Ast_simplified . PP . expression output
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in
let term =
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Term . ( const f $ source 0 $ entry_point 1 $ expression " PARAMETER " 2 $ amount $ syntax $ display_format ) in
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let cmdname = " run-function " in
let docs = " Subcommand: run a function with the given parameter. " in
( term , Term . info ~ docs cmdname )
let evaluate_value =
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let f source entry_point amount syntax display_format =
toplevel ~ display_format @@
let % bind output =
Ligo . Run . Of_source . evaluate_entry ~ amount source entry_point ( Syntax_name syntax ) in
ok @@ Format . asprintf " %a \n " Ast_simplified . PP . expression output
in
let term =
Term . ( const f $ source 0 $ entry_point 1 $ amount $ syntax $ display_format ) in
let cmdname = " evaluate-value " in
let docs = " Subcommand: evaluate a given definition. " in
( term , Term . info ~ docs cmdname )
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let compile_expression =
let f expression syntax display_format =
toplevel ~ display_format @@
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(* This is an actual compiler entry-point, so we start with a blank state *)
let state = Typer . Solver . initial_state in
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let % bind value =
trace ( simple_error " compile-input " ) @@
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Ligo . Run . Of_source . compile_expression expression state ( Syntax_name syntax ) in
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ok @@ Format . asprintf " %a \n " Tezos_utils . Michelson . pp value
in
let term =
Term . ( const f $ expression " " 0 $ syntax $ display_format ) in
let cmdname = " compile-expression " in
let docs = " Subcommand: compile to a michelson value. " in
( term , Term . info ~ docs cmdname )
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let () = Term . exit @@ Term . eval_choice main [
compile_file ;
compile_parameter ;
compile_storage ;
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compile_expression ;
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dry_run ;
run_function ;
evaluate_value ;
]