Merge branch 'feature/transpiler' into 'dev'
Feature/transpiler See merge request ligolang/ligo!696
This commit is contained in:
commit
b1ccaef07e
@ -139,7 +139,7 @@ let optimize =
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module Helpers = Ligo.Compile.Helpers
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module Helpers = Ligo.Compile.Helpers
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module Compile = Ligo.Compile
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module Compile = Ligo.Compile
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module Uncompile = Ligo.Uncompile
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module Decompile = Ligo.Decompile
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module Run = Ligo.Run.Of_michelson
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module Run = Ligo.Run.Of_michelson
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let compile_file =
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let compile_file =
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@ -285,7 +285,7 @@ let compile_parameter =
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let interpret =
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let interpret =
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let f expression init_file syntax amount balance sender source predecessor_timestamp display_format =
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let f expression init_file syntax amount balance sender source predecessor_timestamp display_format =
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return_result ~display_format (Uncompile.Formatter.expression_format) @@
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return_result ~display_format (Decompile.Formatter.expression_format) @@
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let%bind (decl_list,state,env) = match init_file with
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let%bind (decl_list,state,env) = match init_file with
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| Some init_file ->
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| Some init_file ->
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let%bind typed_prg,state = Compile.Utils.type_file init_file syntax Env in
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let%bind typed_prg,state = Compile.Utils.type_file init_file syntax Env in
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@ -299,7 +299,7 @@ let interpret =
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let%bind compiled_exp = Compile.Of_mini_c.aggregate_and_compile_expression decl_list mini_c_exp in
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let%bind compiled_exp = Compile.Of_mini_c.aggregate_and_compile_expression decl_list mini_c_exp in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind runres = Run.run_expression ~options compiled_exp.expr compiled_exp.expr_ty in
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let%bind runres = Run.run_expression ~options compiled_exp.expr compiled_exp.expr_ty in
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Uncompile.uncompile_expression typed_exp.type_expression runres
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Decompile.Of_michelson.decompile_expression typed_exp.type_expression runres
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in
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in
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let term =
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let term =
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Term.(const f $ expression "EXPRESSION" 0 $ init_file $ syntax $ amount $ balance $ sender $ source $ predecessor_timestamp $ display_format ) in
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Term.(const f $ expression "EXPRESSION" 0 $ init_file $ syntax $ amount $ balance $ sender $ source $ predecessor_timestamp $ display_format ) in
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@ -345,7 +345,7 @@ let compile_storage =
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let dry_run =
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let dry_run =
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let f source_file entry_point storage input amount balance sender source predecessor_timestamp syntax display_format =
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let f source_file entry_point storage input amount balance sender source predecessor_timestamp syntax display_format =
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return_result ~display_format (Uncompile.Formatter.expression_format) @@
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return_result ~display_format (Decompile.Formatter.expression_format) @@
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let%bind typed_prg,state = Compile.Utils.type_file source_file syntax (Contract entry_point) in
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let%bind typed_prg,state = Compile.Utils.type_file source_file syntax (Contract entry_point) in
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let env = Ast_typed.program_environment Environment.default typed_prg in
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let env = Ast_typed.program_environment Environment.default typed_prg in
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let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
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let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
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@ -359,7 +359,7 @@ let dry_run =
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind runres = Run.run_contract ~options michelson_prg.expr michelson_prg.expr_ty args_michelson in
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let%bind runres = Run.run_contract ~options michelson_prg.expr michelson_prg.expr_ty args_michelson in
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Uncompile.uncompile_typed_program_entry_function_result typed_prg entry_point runres
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Decompile.Of_michelson.decompile_typed_program_entry_function_result typed_prg entry_point runres
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in
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in
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let term =
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let term =
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Term.(const f $ source_file 0 $ entry_point 1 $ expression "PARAMETER" 2 $ expression "STORAGE" 3 $ amount $ balance $ sender $ source $ predecessor_timestamp $ syntax $ display_format) in
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Term.(const f $ source_file 0 $ entry_point 1 $ expression "PARAMETER" 2 $ expression "STORAGE" 3 $ amount $ balance $ sender $ source $ predecessor_timestamp $ syntax $ display_format) in
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@ -369,7 +369,7 @@ let dry_run =
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let run_function =
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let run_function =
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let f source_file entry_point parameter amount balance sender source predecessor_timestamp syntax display_format =
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let f source_file entry_point parameter amount balance sender source predecessor_timestamp syntax display_format =
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return_result ~display_format (Uncompile.Formatter.expression_format) @@
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return_result ~display_format (Decompile.Formatter.expression_format) @@
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let%bind typed_prg,state = Compile.Utils.type_file source_file syntax Env in
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let%bind typed_prg,state = Compile.Utils.type_file source_file syntax Env in
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let env = Ast_typed.program_environment Environment.default typed_prg in
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let env = Ast_typed.program_environment Environment.default typed_prg in
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let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
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let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
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@ -386,7 +386,7 @@ let run_function =
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let%bind michelson = Compile.Of_mini_c.aggregate_and_compile_expression mini_c_prg compiled_applied in
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let%bind michelson = Compile.Of_mini_c.aggregate_and_compile_expression mini_c_prg compiled_applied in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind runres = Run.run_expression ~options michelson.expr michelson.expr_ty in
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let%bind runres = Run.run_expression ~options michelson.expr michelson.expr_ty in
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Uncompile.uncompile_typed_program_entry_function_result typed_prg entry_point runres
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Decompile.Of_michelson.decompile_typed_program_entry_function_result typed_prg entry_point runres
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in
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in
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let term =
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let term =
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Term.(const f $ source_file 0 $ entry_point 1 $ expression "PARAMETER" 2 $ amount $ balance $ sender $ source $ predecessor_timestamp $ syntax $ display_format) in
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Term.(const f $ source_file 0 $ entry_point 1 $ expression "PARAMETER" 2 $ amount $ balance $ sender $ source $ predecessor_timestamp $ syntax $ display_format) in
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@ -396,14 +396,14 @@ let run_function =
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let evaluate_value =
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let evaluate_value =
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let f source_file entry_point amount balance sender source predecessor_timestamp syntax display_format =
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let f source_file entry_point amount balance sender source predecessor_timestamp syntax display_format =
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return_result ~display_format Uncompile.Formatter.expression_format @@
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return_result ~display_format Decompile.Formatter.expression_format @@
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let%bind typed_prg,_ = Compile.Utils.type_file source_file syntax Env in
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let%bind typed_prg,_ = Compile.Utils.type_file source_file syntax Env in
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let%bind mini_c = Compile.Of_typed.compile typed_prg in
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let%bind mini_c = Compile.Of_typed.compile typed_prg in
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let%bind (exp,_) = trace_option Main_errors.entrypoint_not_found @@ Mini_c.get_entry mini_c entry_point in
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let%bind (exp,_) = trace_option Main_errors.entrypoint_not_found @@ Mini_c.get_entry mini_c entry_point in
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let%bind compiled = Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp in
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let%bind compiled = Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind options = Run.make_dry_run_options {predecessor_timestamp ; amount ; balance ; sender ; source } in
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let%bind runres = Run.run_expression ~options compiled.expr compiled.expr_ty in
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let%bind runres = Run.run_expression ~options compiled.expr compiled.expr_ty in
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Uncompile.uncompile_typed_program_entry_expression_result typed_prg entry_point runres
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Decompile.Of_michelson.decompile_typed_program_entry_expression_result typed_prg entry_point runres
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in
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in
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let term =
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let term =
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Term.(const f $ source_file 0 $ entry_point 1 $ amount $ balance $ sender $ source $ predecessor_timestamp $ syntax $ display_format) in
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Term.(const f $ source_file 0 $ entry_point 1 $ amount $ balance $ sender $ source $ predecessor_timestamp $ syntax $ display_format) in
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@ -449,6 +449,41 @@ let list_declarations =
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let doc = "Subcommand: List all the top-level declarations." in
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let doc = "Subcommand: List all the top-level declarations." in
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(Term.ret term , Term.info ~doc cmdname)
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(Term.ret term , Term.info ~doc cmdname)
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let transpile_contract =
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let f source_file new_syntax syntax display_format =
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return_result ~display_format (Parser.Formatter.ppx_format) @@
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let%bind core = Compile.Utils.to_core source_file syntax in
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let%bind sugar = Decompile.Of_core.decompile core in
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let%bind imperative = Decompile.Of_sugar.decompile sugar in
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let%bind buffer = Decompile.Of_imperative.decompile imperative (Syntax_name new_syntax) in
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ok @@ buffer
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in
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let term =
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Term.(const f $ source_file 0 $ req_syntax 1 $ syntax $ display_format) in
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let cmdname = "transpile-contract" in
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let doc = "Subcommand: Transpile a contract to another syntax." in
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(Term.ret term , Term.info ~doc cmdname)
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let transpile_expression =
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let f expression new_syntax syntax display_format =
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return_result ~display_format (Parser.Formatter.ppx_format) @@
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let%bind v_syntax = Helpers.syntax_to_variant (Syntax_name syntax) None in
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let%bind n_syntax = Decompile.Helpers.syntax_to_variant (Syntax_name new_syntax) None in
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let%bind imperative = Compile.Of_source.compile_expression v_syntax expression in
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let%bind sugar = Compile.Of_imperative.compile_expression imperative in
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let%bind core = Compile.Of_sugar.compile_expression sugar in
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let%bind sugar = Decompile.Of_core.decompile_expression core in
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let%bind imperative = Decompile.Of_sugar.decompile_expression sugar in
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let%bind buffer = Decompile.Of_imperative.decompile_expression imperative n_syntax in
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ok @@ buffer
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in
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let term =
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Term.(const f $ expression "" 1 $ req_syntax 2 $ req_syntax 0 $ display_format) in
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let cmdname = "transpile-expression" in
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let doc = "Subcommand: Transpile an expression to another syntax." in
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(Term.ret term , Term.info ~doc cmdname)
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let run ?argv () =
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let run ?argv () =
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Term.eval_choice ?argv main [
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Term.eval_choice ?argv main [
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temp_ligo_interpreter ;
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temp_ligo_interpreter ;
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@ -457,6 +492,8 @@ let run ?argv () =
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compile_parameter ;
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compile_parameter ;
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compile_storage ;
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compile_storage ;
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compile_expression ;
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compile_expression ;
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transpile_contract ;
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transpile_expression ;
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interpret ;
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interpret ;
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dry_run ;
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dry_run ;
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run_function ;
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run_function ;
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@ -87,6 +87,12 @@ let%expect_test _ =
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run-function
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run-function
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Subcommand: Run a function with the given parameter.
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Subcommand: Run a function with the given parameter.
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transpile-contract
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Subcommand: Transpile a contract to another syntax.
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transpile-expression
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Subcommand: Transpile an expression to another syntax.
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OPTIONS
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OPTIONS
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--help[=FMT] (default=auto)
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--help[=FMT] (default=auto)
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Show this help in format FMT. The value FMT must be one of `auto',
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Show this help in format FMT. The value FMT must be one of `auto',
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@ -181,6 +187,12 @@ let%expect_test _ =
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run-function
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run-function
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Subcommand: Run a function with the given parameter.
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Subcommand: Run a function with the given parameter.
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transpile-contract
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Subcommand: Transpile a contract to another syntax.
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|
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transpile-expression
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Subcommand: Transpile an expression to another syntax.
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|
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OPTIONS
|
OPTIONS
|
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--help[=FMT] (default=auto)
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--help[=FMT] (default=auto)
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Show this help in format FMT. The value FMT must be one of `auto',
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Show this help in format FMT. The value FMT must be one of `auto',
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|
2085
src/bin/expect_tests/transpiler_test.ml
Normal file
2085
src/bin/expect_tests/transpiler_test.ml
Normal file
File diff suppressed because it is too large
Load Diff
@ -18,97 +18,97 @@ let syntax_to_variant (Syntax_name syntax) source =
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| _ -> fail (invalid_syntax syntax)
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| _ -> fail (invalid_syntax syntax)
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|
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|
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let parsify_pascaligo source =
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let parse_and_abstract_pascaligo source =
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let%bind raw = trace parser_tracer @@
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let%bind raw = trace parser_tracer @@
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Parser.Pascaligo.parse_file source in
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Parser.Pascaligo.parse_file source in
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let%bind imperative = trace cit_pascaligo_tracer @@
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let%bind imperative = trace cit_pascaligo_tracer @@
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Tree_abstraction.Pascaligo.compile_program raw
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Tree_abstraction.Pascaligo.compile_program raw
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in ok imperative
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in ok imperative
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|
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let parsify_expression_pascaligo source =
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let parse_and_abstract_expression_pascaligo source =
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let%bind raw = trace parser_tracer @@
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let%bind raw = trace parser_tracer @@
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Parser.Pascaligo.parse_expression source in
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Parser.Pascaligo.parse_expression source in
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let%bind imperative = trace cit_pascaligo_tracer @@
|
let%bind imperative = trace cit_pascaligo_tracer @@
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Tree_abstraction.Pascaligo.compile_expression raw
|
Tree_abstraction.Pascaligo.compile_expression raw
|
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in ok imperative
|
in ok imperative
|
||||||
|
|
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let parsify_cameligo source =
|
let parse_and_abstract_cameligo source =
|
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let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
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Parser.Cameligo.parse_file source in
|
Parser.Cameligo.parse_file source in
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let%bind imperative = trace cit_cameligo_tracer @@
|
let%bind imperative = trace cit_cameligo_tracer @@
|
||||||
Tree_abstraction.Cameligo.compile_program raw
|
Tree_abstraction.Cameligo.compile_program raw
|
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in ok imperative
|
in ok imperative
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||||||
|
|
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let parsify_expression_cameligo source =
|
let parse_and_abstract_expression_cameligo source =
|
||||||
let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
|
||||||
Parser.Cameligo.parse_expression source in
|
Parser.Cameligo.parse_expression source in
|
||||||
let%bind imperative = trace cit_cameligo_tracer @@
|
let%bind imperative = trace cit_cameligo_tracer @@
|
||||||
Tree_abstraction.Cameligo.compile_expression raw
|
Tree_abstraction.Cameligo.compile_expression raw
|
||||||
in ok imperative
|
in ok imperative
|
||||||
|
|
||||||
let parsify_reasonligo source =
|
let parse_and_abstract_reasonligo source =
|
||||||
let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
|
||||||
Parser.Reasonligo.parse_file source in
|
Parser.Reasonligo.parse_file source in
|
||||||
let%bind imperative = trace cit_cameligo_tracer @@
|
let%bind imperative = trace cit_cameligo_tracer @@
|
||||||
Tree_abstraction.Cameligo.compile_program raw
|
Tree_abstraction.Cameligo.compile_program raw
|
||||||
in ok imperative
|
in ok imperative
|
||||||
|
|
||||||
let parsify_expression_reasonligo source =
|
let parse_and_abstract_expression_reasonligo source =
|
||||||
let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
|
||||||
Parser.Reasonligo.parse_expression source in
|
Parser.Reasonligo.parse_expression source in
|
||||||
let%bind imperative = trace cit_cameligo_tracer @@
|
let%bind imperative = trace cit_cameligo_tracer @@
|
||||||
Tree_abstraction.Cameligo.compile_expression raw
|
Tree_abstraction.Cameligo.compile_expression raw
|
||||||
in ok imperative
|
in ok imperative
|
||||||
|
|
||||||
let parsify syntax source : (Ast_imperative.program, _) Trace.result =
|
let parse_and_abstract syntax source : (Ast_imperative.program, _) Trace.result =
|
||||||
let%bind parsify =
|
let%bind parse_and_abstract =
|
||||||
match syntax with
|
match syntax with
|
||||||
PascaLIGO -> ok parsify_pascaligo
|
PascaLIGO -> ok parse_and_abstract_pascaligo
|
||||||
| CameLIGO -> ok parsify_cameligo
|
| CameLIGO -> ok parse_and_abstract_cameligo
|
||||||
| ReasonLIGO -> ok parsify_reasonligo in
|
| ReasonLIGO -> ok parse_and_abstract_reasonligo in
|
||||||
let%bind parsified = parsify source in
|
let%bind parsified = parse_and_abstract source in
|
||||||
let%bind applied = trace self_ast_imperative_tracer @@
|
let%bind applied = trace self_ast_imperative_tracer @@
|
||||||
Self_ast_imperative.all_program parsified in
|
Self_ast_imperative.all_program parsified in
|
||||||
ok applied
|
ok applied
|
||||||
|
|
||||||
let parsify_expression syntax source =
|
let parse_and_abstract_expression syntax source =
|
||||||
let%bind parsify = match syntax with
|
let%bind parse_and_abstract = match syntax with
|
||||||
PascaLIGO -> ok parsify_expression_pascaligo
|
PascaLIGO -> ok parse_and_abstract_expression_pascaligo
|
||||||
| CameLIGO -> ok parsify_expression_cameligo
|
| CameLIGO -> ok parse_and_abstract_expression_cameligo
|
||||||
| ReasonLIGO -> ok parsify_expression_reasonligo in
|
| ReasonLIGO -> ok parse_and_abstract_expression_reasonligo in
|
||||||
let%bind parsified = parsify source in
|
let%bind parsified = parse_and_abstract source in
|
||||||
let%bind applied = trace self_ast_imperative_tracer @@
|
let%bind applied = trace self_ast_imperative_tracer @@
|
||||||
Self_ast_imperative.all_expression parsified
|
Self_ast_imperative.all_expression parsified
|
||||||
in ok applied
|
in ok applied
|
||||||
|
|
||||||
let parsify_string_reasonligo source =
|
let parse_and_abstract_string_reasonligo source =
|
||||||
let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
|
||||||
Parser.Reasonligo.parse_string source in
|
Parser.Reasonligo.parse_string source in
|
||||||
let%bind imperative = trace cit_cameligo_tracer @@
|
let%bind imperative = trace cit_cameligo_tracer @@
|
||||||
Tree_abstraction.Cameligo.compile_program raw
|
Tree_abstraction.Cameligo.compile_program raw
|
||||||
in ok imperative
|
in ok imperative
|
||||||
|
|
||||||
let parsify_string_pascaligo source =
|
let parse_and_abstract_string_pascaligo source =
|
||||||
let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
|
||||||
Parser.Pascaligo.parse_string source in
|
Parser.Pascaligo.parse_string source in
|
||||||
let%bind imperative = trace cit_pascaligo_tracer @@
|
let%bind imperative = trace cit_pascaligo_tracer @@
|
||||||
Tree_abstraction.Pascaligo.compile_program raw
|
Tree_abstraction.Pascaligo.compile_program raw
|
||||||
in ok imperative
|
in ok imperative
|
||||||
|
|
||||||
let parsify_string_cameligo source =
|
let parse_and_abstract_string_cameligo source =
|
||||||
let%bind raw = trace parser_tracer @@
|
let%bind raw = trace parser_tracer @@
|
||||||
Parser.Cameligo.parse_string source in
|
Parser.Cameligo.parse_string source in
|
||||||
let%bind imperative = trace cit_cameligo_tracer @@
|
let%bind imperative = trace cit_cameligo_tracer @@
|
||||||
Tree_abstraction.Cameligo.compile_program raw
|
Tree_abstraction.Cameligo.compile_program raw
|
||||||
in ok imperative
|
in ok imperative
|
||||||
|
|
||||||
let parsify_string syntax source =
|
let parse_and_abstract_string syntax source =
|
||||||
let%bind parsify =
|
let%bind parse_and_abstract =
|
||||||
match syntax with
|
match syntax with
|
||||||
PascaLIGO -> ok parsify_string_pascaligo
|
PascaLIGO -> ok parse_and_abstract_string_pascaligo
|
||||||
| CameLIGO -> ok parsify_string_cameligo
|
| CameLIGO -> ok parse_and_abstract_string_cameligo
|
||||||
| ReasonLIGO -> ok parsify_string_reasonligo in
|
| ReasonLIGO -> ok parse_and_abstract_string_reasonligo in
|
||||||
let%bind parsified = parsify source in
|
let%bind parsified = parse_and_abstract source in
|
||||||
let%bind applied = trace self_ast_imperative_tracer @@
|
let%bind applied = trace self_ast_imperative_tracer @@
|
||||||
Self_ast_imperative.all_program parsified
|
Self_ast_imperative.all_program parsified
|
||||||
in ok applied
|
in ok applied
|
||||||
|
@ -24,10 +24,12 @@ let compile_expression ?(env = Ast_typed.Environment.empty) ~(state : Typesystem
|
|||||||
let apply (entry_point : string) (param : Ast_core.expression) : (Ast_core.expression , _) result =
|
let apply (entry_point : string) (param : Ast_core.expression) : (Ast_core.expression , _) result =
|
||||||
let name = Var.of_name entry_point in
|
let name = Var.of_name entry_point in
|
||||||
let entry_point_var : Ast_core.expression =
|
let entry_point_var : Ast_core.expression =
|
||||||
{ expression_content = Ast_core.E_variable name ;
|
{ content = Ast_core.E_variable name ;
|
||||||
|
sugar = None ;
|
||||||
location = Virtual "generated entry-point variable" } in
|
location = Virtual "generated entry-point variable" } in
|
||||||
let applied : Ast_core.expression =
|
let applied : Ast_core.expression =
|
||||||
{ expression_content = Ast_core.E_application {lamb=entry_point_var; args=param} ;
|
{ content = Ast_core.E_application {lamb=entry_point_var; args=param} ;
|
||||||
|
sugar = None ;
|
||||||
location = Virtual "generated application" } in
|
location = Virtual "generated application" } in
|
||||||
ok applied
|
ok applied
|
||||||
|
|
||||||
|
@ -3,10 +3,6 @@ open Trace
|
|||||||
open Ast_imperative
|
open Ast_imperative
|
||||||
open Purification
|
open Purification
|
||||||
|
|
||||||
type form =
|
|
||||||
| Contract of string
|
|
||||||
| Env
|
|
||||||
|
|
||||||
let compile (program : program) : (Ast_sugar.program, _) result =
|
let compile (program : program) : (Ast_sugar.program, _) result =
|
||||||
trace purification_tracer @@ compile_program program
|
trace purification_tracer @@ compile_program program
|
||||||
|
|
||||||
|
@ -3,16 +3,16 @@ open Helpers
|
|||||||
|
|
||||||
let compile (source_filename:string) syntax : (Ast_imperative.program , _) result =
|
let compile (source_filename:string) syntax : (Ast_imperative.program , _) result =
|
||||||
let%bind syntax = syntax_to_variant syntax (Some source_filename) in
|
let%bind syntax = syntax_to_variant syntax (Some source_filename) in
|
||||||
let%bind abstract = parsify syntax source_filename in
|
let%bind abstract = parse_and_abstract syntax source_filename in
|
||||||
ok abstract
|
ok abstract
|
||||||
|
|
||||||
let compile_string (source:string) syntax : (Ast_imperative.program , _) result =
|
let compile_string (source:string) syntax : (Ast_imperative.program , _) result =
|
||||||
let%bind abstract = parsify_string syntax source in
|
let%bind abstract = parse_and_abstract_string syntax source in
|
||||||
ok abstract
|
ok abstract
|
||||||
|
|
||||||
let compile_expression : v_syntax -> string -> (Ast_imperative.expression , _) result =
|
let compile_expression : v_syntax -> string -> (Ast_imperative.expression , _) result =
|
||||||
fun syntax exp ->
|
fun syntax exp ->
|
||||||
parsify_expression syntax exp
|
parse_and_abstract_expression syntax exp
|
||||||
|
|
||||||
let compile_contract_input : string -> string -> v_syntax -> (Ast_imperative.expression , _) result =
|
let compile_contract_input : string -> string -> v_syntax -> (Ast_imperative.expression , _) result =
|
||||||
fun storage parameter syntax ->
|
fun storage parameter syntax ->
|
||||||
|
@ -3,10 +3,6 @@ open Ast_sugar
|
|||||||
open Desugaring
|
open Desugaring
|
||||||
open Main_errors
|
open Main_errors
|
||||||
|
|
||||||
type form =
|
|
||||||
| Contract of string
|
|
||||||
| Env
|
|
||||||
|
|
||||||
let compile (program : program) : (Ast_core.program , _) result =
|
let compile (program : program) : (Ast_core.program , _) result =
|
||||||
trace desugaring_tracer @@ compile_program program
|
trace desugaring_tracer @@ compile_program program
|
||||||
|
|
||||||
|
@ -1,17 +1,30 @@
|
|||||||
(library
|
(library
|
||||||
(name uncompile)
|
(name decompile)
|
||||||
(public_name ligo.uncompile)
|
(public_name ligo.decompile)
|
||||||
(libraries
|
(libraries
|
||||||
|
main_errors
|
||||||
simple-utils
|
simple-utils
|
||||||
|
tezos-utils
|
||||||
|
parser
|
||||||
|
tree_abstraction
|
||||||
|
ast_imperative
|
||||||
|
self_ast_imperative
|
||||||
purification
|
purification
|
||||||
|
ast_sugar
|
||||||
|
self_ast_sugar
|
||||||
desugaring
|
desugaring
|
||||||
|
ast_core
|
||||||
|
self_ast_core
|
||||||
typer_new
|
typer_new
|
||||||
typer
|
typer
|
||||||
ast_typed
|
ast_typed
|
||||||
|
self_ast_typed
|
||||||
|
interpreter
|
||||||
spilling
|
spilling
|
||||||
mini_c
|
mini_c
|
||||||
|
self_mini_c
|
||||||
stacking
|
stacking
|
||||||
main_errors
|
self_michelson
|
||||||
)
|
)
|
||||||
(preprocess
|
(preprocess
|
||||||
(pps ppx_let bisect_ppx --conditional)
|
(pps ppx_let bisect_ppx --conditional)
|
78
src/main/decompile/helpers.ml
Normal file
78
src/main/decompile/helpers.ml
Normal file
@ -0,0 +1,78 @@
|
|||||||
|
open Trace
|
||||||
|
open Main_errors
|
||||||
|
|
||||||
|
type s_syntax = Syntax_name of string
|
||||||
|
type v_syntax = PascaLIGO | CameLIGO | ReasonLIGO
|
||||||
|
|
||||||
|
let syntax_to_variant (Syntax_name syntax) source =
|
||||||
|
match syntax, source with
|
||||||
|
"auto", Some sf ->
|
||||||
|
(match Filename.extension sf with
|
||||||
|
".ligo" | ".pligo" -> ok PascaLIGO
|
||||||
|
| ".mligo" -> ok CameLIGO
|
||||||
|
| ".religo" -> ok ReasonLIGO
|
||||||
|
| ext -> fail (syntax_auto_detection ext))
|
||||||
|
| ("pascaligo" | "PascaLIGO"), _ -> ok PascaLIGO
|
||||||
|
| ("cameligo" | "CameLIGO"), _ -> ok CameLIGO
|
||||||
|
| ("reasonligo" | "ReasonLIGO"), _ -> ok ReasonLIGO
|
||||||
|
| _ -> fail (invalid_syntax syntax)
|
||||||
|
|
||||||
|
let specialise_and_print_pascaligo program =
|
||||||
|
let%bind cst = trace cit_pascaligo_tracer @@
|
||||||
|
Tree_abstraction.Pascaligo.decompile_program program in
|
||||||
|
let%bind source = trace pretty_tracer @@
|
||||||
|
Parser.Pascaligo.pretty_print cst
|
||||||
|
in ok source
|
||||||
|
|
||||||
|
let specialise_and_print_expression_pascaligo expression =
|
||||||
|
let%bind cst = trace cit_pascaligo_tracer @@
|
||||||
|
Tree_abstraction.Pascaligo.decompile_expression expression in
|
||||||
|
let%bind source = trace pretty_tracer @@
|
||||||
|
Parser.Pascaligo.pretty_print_expression cst
|
||||||
|
in ok source
|
||||||
|
|
||||||
|
let specialise_and_print_cameligo program =
|
||||||
|
let%bind cst = trace cit_cameligo_tracer @@
|
||||||
|
Tree_abstraction.Cameligo.decompile_program program in
|
||||||
|
let%bind source = trace pretty_tracer @@
|
||||||
|
Parser.Cameligo.pretty_print cst
|
||||||
|
in ok source
|
||||||
|
|
||||||
|
let specialise_and_print_expression_cameligo expression =
|
||||||
|
let%bind cst = trace cit_cameligo_tracer @@
|
||||||
|
Tree_abstraction.Cameligo.decompile_expression expression in
|
||||||
|
let%bind source = trace pretty_tracer @@
|
||||||
|
Parser.Cameligo.pretty_print_expression cst
|
||||||
|
in ok source
|
||||||
|
|
||||||
|
let specialise_and_print_reasonligo program =
|
||||||
|
let%bind cst = trace cit_cameligo_tracer @@
|
||||||
|
Tree_abstraction.Cameligo.decompile_program program in
|
||||||
|
let%bind source = trace pretty_tracer @@
|
||||||
|
Parser.Reasonligo.pretty_print cst
|
||||||
|
in ok source
|
||||||
|
|
||||||
|
let specialise_and_print_expression_reasonligo expression =
|
||||||
|
let%bind cst = trace cit_cameligo_tracer @@
|
||||||
|
Tree_abstraction.Cameligo.decompile_expression expression in
|
||||||
|
let%bind source = trace pretty_tracer @@
|
||||||
|
Parser.Reasonligo.pretty_print_expression cst
|
||||||
|
in ok source
|
||||||
|
|
||||||
|
|
||||||
|
let specialise_and_print syntax source : (Buffer.t, _) Trace.result =
|
||||||
|
let%bind specialise_and_print =
|
||||||
|
match syntax with
|
||||||
|
PascaLIGO -> ok specialise_and_print_pascaligo
|
||||||
|
| CameLIGO -> ok specialise_and_print_cameligo
|
||||||
|
| ReasonLIGO -> ok specialise_and_print_reasonligo in
|
||||||
|
let%bind source = specialise_and_print source in
|
||||||
|
ok source
|
||||||
|
|
||||||
|
let specialise_and_print_expression syntax source =
|
||||||
|
let%bind specialise_and_print = match syntax with
|
||||||
|
PascaLIGO -> ok specialise_and_print_expression_pascaligo
|
||||||
|
| CameLIGO -> ok specialise_and_print_expression_cameligo
|
||||||
|
| ReasonLIGO -> ok specialise_and_print_expression_reasonligo in
|
||||||
|
let%bind source = specialise_and_print source in
|
||||||
|
ok source
|
10
src/main/decompile/of_core.ml
Normal file
10
src/main/decompile/of_core.ml
Normal file
@ -0,0 +1,10 @@
|
|||||||
|
open Trace
|
||||||
|
open Ast_core
|
||||||
|
open Desugaring
|
||||||
|
open Main_errors
|
||||||
|
|
||||||
|
let decompile (program : program) : (Ast_sugar.program , _) result =
|
||||||
|
trace sugaring_tracer @@ decompile_program program
|
||||||
|
|
||||||
|
let decompile_expression (e : expression) : (Ast_sugar.expression , _) result =
|
||||||
|
trace sugaring_tracer @@ decompile_expression e
|
10
src/main/decompile/of_imperative.ml
Normal file
10
src/main/decompile/of_imperative.ml
Normal file
@ -0,0 +1,10 @@
|
|||||||
|
open Trace
|
||||||
|
open Ast_imperative
|
||||||
|
open Helpers
|
||||||
|
|
||||||
|
let decompile (program : program) syntax : (_ , _) result =
|
||||||
|
let%bind syntax = syntax_to_variant syntax None in
|
||||||
|
specialise_and_print syntax program
|
||||||
|
|
||||||
|
let decompile_expression (e : expression) syntax : (_ , _) result =
|
||||||
|
specialise_and_print_expression syntax e
|
@ -5,7 +5,7 @@ open Trace
|
|||||||
open Simple_utils.Runned_result
|
open Simple_utils.Runned_result
|
||||||
|
|
||||||
type ret_type = Function | Expression
|
type ret_type = Function | Expression
|
||||||
let uncompile_value func_or_expr program entry ex_ty_value =
|
let decompile_value func_or_expr program entry ex_ty_value =
|
||||||
let%bind output_type =
|
let%bind output_type =
|
||||||
let%bind entry_expression = trace_option entrypoint_not_found @@ Ast_typed.get_entry program entry in
|
let%bind entry_expression = trace_option entrypoint_not_found @@ Ast_typed.get_entry program entry in
|
||||||
match func_or_expr with
|
match func_or_expr with
|
||||||
@ -14,30 +14,30 @@ let uncompile_value func_or_expr program entry ex_ty_value =
|
|||||||
| Function ->
|
| Function ->
|
||||||
let%bind (_,output_type) = trace_option entrypoint_not_a_function @@ Ast_typed.get_t_function entry_expression.type_expression in
|
let%bind (_,output_type) = trace_option entrypoint_not_a_function @@ Ast_typed.get_t_function entry_expression.type_expression in
|
||||||
ok output_type in
|
ok output_type in
|
||||||
let%bind mini_c = trace uncompile_michelson @@ Stacking.Decompiler.decompile_value ex_ty_value in
|
let%bind mini_c = trace decompile_michelson @@ Stacking.Decompiler.decompile_value ex_ty_value in
|
||||||
let%bind typed = trace uncompile_mini_c @@ Spilling.decompile mini_c output_type in
|
let%bind typed = trace decompile_mini_c @@ Spilling.decompile mini_c output_type in
|
||||||
let%bind core = trace uncompile_typed @@ Typer.untype_expression typed in
|
let%bind core = trace decompile_typed @@ Typer.untype_expression typed in
|
||||||
ok @@ core
|
ok @@ core
|
||||||
|
|
||||||
let uncompile_typed_program_entry_expression_result program entry runned_result =
|
let decompile_typed_program_entry_expression_result program entry runned_result =
|
||||||
match runned_result with
|
match runned_result with
|
||||||
| Fail s -> ok (Fail s)
|
| Fail s -> ok (Fail s)
|
||||||
| Success ex_ty_value ->
|
| Success ex_ty_value ->
|
||||||
let%bind uncompiled_value = uncompile_value Expression program entry ex_ty_value in
|
let%bind decompiled_value = decompile_value Expression program entry ex_ty_value in
|
||||||
ok (Success uncompiled_value)
|
ok (Success decompiled_value)
|
||||||
|
|
||||||
let uncompile_typed_program_entry_function_result program entry runned_result =
|
let decompile_typed_program_entry_function_result program entry runned_result =
|
||||||
match runned_result with
|
match runned_result with
|
||||||
| Fail s -> ok (Fail s)
|
| Fail s -> ok (Fail s)
|
||||||
| Success ex_ty_value ->
|
| Success ex_ty_value ->
|
||||||
let%bind uncompiled_value = uncompile_value Function program entry ex_ty_value in
|
let%bind decompiled_value = decompile_value Function program entry ex_ty_value in
|
||||||
ok (Success uncompiled_value)
|
ok (Success decompiled_value)
|
||||||
|
|
||||||
let uncompile_expression type_value runned_result =
|
let decompile_expression type_value runned_result =
|
||||||
match runned_result with
|
match runned_result with
|
||||||
| Fail s -> ok (Fail s)
|
| Fail s -> ok (Fail s)
|
||||||
| Success ex_ty_value ->
|
| Success ex_ty_value ->
|
||||||
let%bind mini_c = trace uncompile_michelson @@ Stacking.Decompiler.decompile_value ex_ty_value in
|
let%bind mini_c = trace decompile_michelson @@ Stacking.Decompiler.decompile_value ex_ty_value in
|
||||||
let%bind typed = trace uncompile_mini_c @@ Spilling.decompile mini_c type_value in
|
let%bind typed = trace decompile_mini_c @@ Spilling.decompile mini_c type_value in
|
||||||
let%bind uncompiled_value = trace uncompile_typed @@ Typer.untype_expression typed in
|
let%bind decompiled_value = trace decompile_typed @@ Typer.untype_expression typed in
|
||||||
ok (Success uncompiled_value)
|
ok (Success decompiled_value)
|
10
src/main/decompile/of_sugar.ml
Normal file
10
src/main/decompile/of_sugar.ml
Normal file
@ -0,0 +1,10 @@
|
|||||||
|
open Trace
|
||||||
|
open Ast_sugar
|
||||||
|
open Purification
|
||||||
|
open Main_errors
|
||||||
|
|
||||||
|
let decompile (program : program) : (Ast_imperative.program , _) result =
|
||||||
|
trace depurification_tracer @@ decompile_program program
|
||||||
|
|
||||||
|
let decompile_expression (e : expression) : (Ast_imperative.expression , _) result =
|
||||||
|
trace depurification_tracer @@ decompile_expression e
|
@ -4,7 +4,7 @@
|
|||||||
(libraries
|
(libraries
|
||||||
run
|
run
|
||||||
compile
|
compile
|
||||||
uncompile
|
decompile
|
||||||
main_errors
|
main_errors
|
||||||
)
|
)
|
||||||
(preprocess
|
(preprocess
|
||||||
|
@ -1,5 +1,5 @@
|
|||||||
module Run = Run
|
module Run = Run
|
||||||
module Compile = Compile
|
module Compile = Compile
|
||||||
module Uncompile = Uncompile
|
module Decompile = Decompile
|
||||||
module Display = Display
|
module Display = Display
|
||||||
module Formatter = Main_errors.Formatter
|
module Formatter = Main_errors.Formatter
|
||||||
|
@ -121,9 +121,12 @@ let rec error_ppformat' : display_format:string display_format ->
|
|||||||
| `Main_michelson_execution_error _ -> Format.fprintf f "@[<hv>Error of execution@]"
|
| `Main_michelson_execution_error _ -> Format.fprintf f "@[<hv>Error of execution@]"
|
||||||
|
|
||||||
| `Main_parser e -> Parser.Errors.error_ppformat ~display_format f e
|
| `Main_parser e -> Parser.Errors.error_ppformat ~display_format f e
|
||||||
|
| `Main_pretty _e -> () (*no error in this pass*)
|
||||||
| `Main_self_ast_imperative e -> Self_ast_imperative.Errors.error_ppformat ~display_format f e
|
| `Main_self_ast_imperative e -> Self_ast_imperative.Errors.error_ppformat ~display_format f e
|
||||||
| `Main_purification e -> Purification.Errors.error_ppformat ~display_format f e
|
| `Main_purification e -> Purification.Errors.error_ppformat ~display_format f e
|
||||||
|
| `Main_depurification _e -> () (*no error in this pass*)
|
||||||
| `Main_desugaring _e -> () (*no error in this pass*)
|
| `Main_desugaring _e -> () (*no error in this pass*)
|
||||||
|
| `Main_sugaring _e -> () (*no error in this pass*)
|
||||||
| `Main_cit_pascaligo e -> Tree_abstraction.Pascaligo.Errors.error_ppformat ~display_format f e
|
| `Main_cit_pascaligo e -> Tree_abstraction.Pascaligo.Errors.error_ppformat ~display_format f e
|
||||||
| `Main_cit_cameligo e -> Tree_abstraction.Cameligo.Errors.error_ppformat ~display_format f e
|
| `Main_cit_cameligo e -> Tree_abstraction.Cameligo.Errors.error_ppformat ~display_format f e
|
||||||
| `Main_typer e -> Typer.Errors.error_ppformat ~display_format f e
|
| `Main_typer e -> Typer.Errors.error_ppformat ~display_format f e
|
||||||
@ -133,9 +136,9 @@ let rec error_ppformat' : display_format:string display_format ->
|
|||||||
| `Main_spilling e -> Spilling.Errors.error_ppformat ~display_format f e
|
| `Main_spilling e -> Spilling.Errors.error_ppformat ~display_format f e
|
||||||
| `Main_stacking e -> Stacking.Errors.error_ppformat ~display_format f e
|
| `Main_stacking e -> Stacking.Errors.error_ppformat ~display_format f e
|
||||||
|
|
||||||
| `Main_uncompile_michelson e -> Stacking.Errors.error_ppformat ~display_format f e
|
| `Main_decompile_michelson e -> Stacking.Errors.error_ppformat ~display_format f e
|
||||||
| `Main_uncompile_mini_c e -> Spilling.Errors.error_ppformat ~display_format f e
|
| `Main_decompile_mini_c e -> Spilling.Errors.error_ppformat ~display_format f e
|
||||||
| `Main_uncompile_typed e -> Typer.Errors.error_ppformat ~display_format f e
|
| `Main_decompile_typed e -> Typer.Errors.error_ppformat ~display_format f e
|
||||||
)
|
)
|
||||||
|
|
||||||
let error_ppformat : display_format:string display_format ->
|
let error_ppformat : display_format:string display_format ->
|
||||||
@ -272,9 +275,12 @@ let rec error_jsonformat : Types.all -> J.t = fun a ->
|
|||||||
| `Main_entrypoint_not_found -> json_error ~stage:"top-level glue" ~content:(`String "Missing entrypoint")
|
| `Main_entrypoint_not_found -> json_error ~stage:"top-level glue" ~content:(`String "Missing entrypoint")
|
||||||
|
|
||||||
| `Main_parser e -> Parser.Errors.error_jsonformat e
|
| `Main_parser e -> Parser.Errors.error_jsonformat e
|
||||||
|
| `Main_pretty _ -> `Null (*no error in this pass*)
|
||||||
| `Main_self_ast_imperative e -> Self_ast_imperative.Errors.error_jsonformat e
|
| `Main_self_ast_imperative e -> Self_ast_imperative.Errors.error_jsonformat e
|
||||||
| `Main_purification e -> Purification.Errors.error_jsonformat e
|
| `Main_purification e -> Purification.Errors.error_jsonformat e
|
||||||
|
| `Main_depurification _ -> `Null (*no error in this pass*)
|
||||||
| `Main_desugaring _ -> `Null (*no error in this pass*)
|
| `Main_desugaring _ -> `Null (*no error in this pass*)
|
||||||
|
| `Main_sugaring _ -> `Null (*no error in this pass*)
|
||||||
| `Main_cit_pascaligo e -> Tree_abstraction.Pascaligo.Errors.error_jsonformat e
|
| `Main_cit_pascaligo e -> Tree_abstraction.Pascaligo.Errors.error_jsonformat e
|
||||||
| `Main_cit_cameligo e -> Tree_abstraction.Cameligo.Errors.error_jsonformat e
|
| `Main_cit_cameligo e -> Tree_abstraction.Cameligo.Errors.error_jsonformat e
|
||||||
| `Main_typer e -> Typer.Errors.error_jsonformat e
|
| `Main_typer e -> Typer.Errors.error_jsonformat e
|
||||||
@ -284,9 +290,9 @@ let rec error_jsonformat : Types.all -> J.t = fun a ->
|
|||||||
| `Main_self_mini_c e -> Self_mini_c.Errors.error_jsonformat e
|
| `Main_self_mini_c e -> Self_mini_c.Errors.error_jsonformat e
|
||||||
| `Main_stacking e -> Stacking.Errors.error_jsonformat e
|
| `Main_stacking e -> Stacking.Errors.error_jsonformat e
|
||||||
|
|
||||||
| `Main_uncompile_michelson e -> Stacking.Errors.error_jsonformat e
|
| `Main_decompile_michelson e -> Stacking.Errors.error_jsonformat e
|
||||||
| `Main_uncompile_mini_c e -> Spilling.Errors.error_jsonformat e
|
| `Main_decompile_mini_c e -> Spilling.Errors.error_jsonformat e
|
||||||
| `Main_uncompile_typed e -> Typer.Errors.error_jsonformat e
|
| `Main_decompile_typed e -> Typer.Errors.error_jsonformat e
|
||||||
|
|
||||||
let error_format : _ Display.format = {
|
let error_format : _ Display.format = {
|
||||||
pp = error_ppformat;
|
pp = error_ppformat;
|
||||||
|
@ -5,11 +5,14 @@ type all = Types.all
|
|||||||
(* passes tracers *)
|
(* passes tracers *)
|
||||||
|
|
||||||
let parser_tracer (e:Parser.Errors.parser_error) : all = `Main_parser e
|
let parser_tracer (e:Parser.Errors.parser_error) : all = `Main_parser e
|
||||||
|
let pretty_tracer (e:Parser.Errors.parser_error) : all = `Main_pretty e
|
||||||
let cit_cameligo_tracer (e:Tree_abstraction.Cameligo.Errors.abs_error) : all = `Main_cit_cameligo e
|
let cit_cameligo_tracer (e:Tree_abstraction.Cameligo.Errors.abs_error) : all = `Main_cit_cameligo e
|
||||||
let cit_pascaligo_tracer (e:Tree_abstraction.Pascaligo.Errors.abs_error) : all = `Main_cit_pascaligo e
|
let cit_pascaligo_tracer (e:Tree_abstraction.Pascaligo.Errors.abs_error) : all = `Main_cit_pascaligo e
|
||||||
let self_ast_imperative_tracer (e:Self_ast_imperative.Errors.self_ast_imperative_error) : all = `Main_self_ast_imperative e
|
let self_ast_imperative_tracer (e:Self_ast_imperative.Errors.self_ast_imperative_error) : all = `Main_self_ast_imperative e
|
||||||
let purification_tracer (e:Purification.Errors.purification_error) : all = `Main_purification e
|
let purification_tracer (e:Purification.Errors.purification_error) : all = `Main_purification e
|
||||||
|
let depurification_tracer (e:Purification.Errors.purification_error) : all = `Main_depurification e
|
||||||
let desugaring_tracer (e:Desugaring.Errors.desugaring_error) : all = `Main_desugaring e
|
let desugaring_tracer (e:Desugaring.Errors.desugaring_error) : all = `Main_desugaring e
|
||||||
|
let sugaring_tracer (e:Desugaring.Errors.desugaring_error) : all = `Main_sugaring e
|
||||||
let typer_tracer (e:Typer.Errors.typer_error) : all = `Main_typer e
|
let typer_tracer (e:Typer.Errors.typer_error) : all = `Main_typer e
|
||||||
let self_ast_typed_tracer (e:Self_ast_typed.Errors.self_ast_typed_error) : all = `Main_self_ast_typed e
|
let self_ast_typed_tracer (e:Self_ast_typed.Errors.self_ast_typed_error) : all = `Main_self_ast_typed e
|
||||||
let self_mini_c_tracer (e:Self_mini_c.Errors.self_mini_c_error) : all = `Main_self_mini_c e
|
let self_mini_c_tracer (e:Self_mini_c.Errors.self_mini_c_error) : all = `Main_self_mini_c e
|
||||||
@ -17,9 +20,9 @@ let spilling_tracer (e:Spilling.Errors.spilling_error) : all = `Main_spilling e
|
|||||||
let stacking_tracer (e:Stacking.Errors.stacking_error) : all = `Main_stacking e
|
let stacking_tracer (e:Stacking.Errors.stacking_error) : all = `Main_stacking e
|
||||||
let interpret_tracer (e:Interpreter.interpreter_error) : all = `Main_interpreter e
|
let interpret_tracer (e:Interpreter.interpreter_error) : all = `Main_interpreter e
|
||||||
|
|
||||||
let uncompile_mini_c : Spilling.Errors.spilling_error -> all = fun e -> `Main_uncompile_mini_c e
|
let decompile_mini_c : Spilling.Errors.spilling_error -> all = fun e -> `Main_decompile_mini_c e
|
||||||
let uncompile_typed : Typer.Errors.typer_error -> all = fun e -> `Main_uncompile_typed e
|
let decompile_typed : Typer.Errors.typer_error -> all = fun e -> `Main_decompile_typed e
|
||||||
let uncompile_michelson : Stacking.Errors.stacking_error -> all = fun e -> `Main_uncompile_michelson e
|
let decompile_michelson : Stacking.Errors.stacking_error -> all = fun e -> `Main_decompile_michelson e
|
||||||
|
|
||||||
(* top-level glue (in between passes) *)
|
(* top-level glue (in between passes) *)
|
||||||
|
|
||||||
|
@ -21,9 +21,12 @@ type all =
|
|||||||
| `Main_michelson_execution_error of Proto_alpha_utils.Trace.tezos_alpha_error list
|
| `Main_michelson_execution_error of Proto_alpha_utils.Trace.tezos_alpha_error list
|
||||||
|
|
||||||
| `Main_parser of Parser.Errors.parser_error
|
| `Main_parser of Parser.Errors.parser_error
|
||||||
|
| `Main_pretty of Parser.Errors.parser_error
|
||||||
| `Main_self_ast_imperative of Self_ast_imperative.Errors.self_ast_imperative_error
|
| `Main_self_ast_imperative of Self_ast_imperative.Errors.self_ast_imperative_error
|
||||||
| `Main_purification of Purification.Errors.purification_error
|
| `Main_purification of Purification.Errors.purification_error
|
||||||
|
| `Main_depurification of Purification.Errors.purification_error
|
||||||
| `Main_desugaring of Desugaring.Errors.desugaring_error
|
| `Main_desugaring of Desugaring.Errors.desugaring_error
|
||||||
|
| `Main_sugaring of Desugaring.Errors.desugaring_error
|
||||||
| `Main_cit_pascaligo of Tree_abstraction.Pascaligo.Errors.abs_error
|
| `Main_cit_pascaligo of Tree_abstraction.Pascaligo.Errors.abs_error
|
||||||
| `Main_cit_cameligo of Tree_abstraction.Cameligo.Errors.abs_error
|
| `Main_cit_cameligo of Tree_abstraction.Cameligo.Errors.abs_error
|
||||||
| `Main_typer of Typer.Errors.typer_error
|
| `Main_typer of Typer.Errors.typer_error
|
||||||
@ -33,9 +36,9 @@ type all =
|
|||||||
| `Main_spilling of Spilling.Errors.spilling_error
|
| `Main_spilling of Spilling.Errors.spilling_error
|
||||||
| `Main_stacking of Stacking.Errors.stacking_error
|
| `Main_stacking of Stacking.Errors.stacking_error
|
||||||
|
|
||||||
| `Main_uncompile_michelson of Stacking.Errors.stacking_error
|
| `Main_decompile_michelson of Stacking.Errors.stacking_error
|
||||||
| `Main_uncompile_mini_c of Spilling.Errors.spilling_error
|
| `Main_decompile_mini_c of Spilling.Errors.spilling_error
|
||||||
| `Main_uncompile_typed of Typer.Errors.typer_error
|
| `Main_decompile_typed of Typer.Errors.typer_error
|
||||||
| `Main_entrypoint_not_a_function
|
| `Main_entrypoint_not_a_function
|
||||||
| `Main_entrypoint_not_found
|
| `Main_entrypoint_not_found
|
||||||
| `Main_invalid_amount of string
|
| `Main_invalid_amount of string
|
||||||
|
@ -145,11 +145,24 @@ let preprocess source = apply (fun () -> Unit.preprocess source)
|
|||||||
|
|
||||||
(* Pretty-print a file (after parsing it). *)
|
(* Pretty-print a file (after parsing it). *)
|
||||||
|
|
||||||
let pretty_print source =
|
let pretty_print cst =
|
||||||
match parse_file source with
|
let doc = Pretty.print cst in
|
||||||
Stdlib.Error _ as e -> e
|
let buffer = Buffer.create 131 in
|
||||||
| Ok ast ->
|
let width =
|
||||||
let doc = Pretty.print (fst ast) in
|
match Terminal_size.get_columns () with
|
||||||
|
None -> 60
|
||||||
|
| Some c -> c in
|
||||||
|
let () = PPrint.ToBuffer.pretty 1.0 width buffer doc
|
||||||
|
in Trace.ok buffer
|
||||||
|
|
||||||
|
let pretty_print_from_source source =
|
||||||
|
match parse_file source with
|
||||||
|
Stdlib.Error _ as e -> e
|
||||||
|
| Ok cst ->
|
||||||
|
pretty_print @@ fst cst
|
||||||
|
|
||||||
|
let pretty_print_expression cst =
|
||||||
|
let doc = Pretty.pp_expr cst in
|
||||||
let buffer = Buffer.create 131 in
|
let buffer = Buffer.create 131 in
|
||||||
let width =
|
let width =
|
||||||
match Terminal_size.get_columns () with
|
match Terminal_size.get_columns () with
|
||||||
|
@ -22,4 +22,9 @@ val parse_expression : string -> (CST.expr , Errors.parser_error) result
|
|||||||
val preprocess : string -> (Buffer.t , Errors.parser_error) result
|
val preprocess : string -> (Buffer.t , Errors.parser_error) result
|
||||||
|
|
||||||
(** Pretty-print a given CameLIGO file (after parsing it). *)
|
(** Pretty-print a given CameLIGO file (after parsing it). *)
|
||||||
val pretty_print : string -> (Buffer.t, Errors.parser_error) result
|
val pretty_print_from_source : string -> (Buffer.t, Errors.parser_error) result
|
||||||
|
|
||||||
|
(** Take a CameLIGO cst and pretty_print it *)
|
||||||
|
val pretty_print : CST.t -> (Buffer.t, _) result
|
||||||
|
|
||||||
|
val pretty_print_expression : CST.expr -> (Buffer.t, _) result
|
||||||
|
@ -93,7 +93,7 @@ tuple(item):
|
|||||||
|
|
||||||
list__(item):
|
list__(item):
|
||||||
"[" sep_or_term_list(item,";")? "]" {
|
"[" sep_or_term_list(item,";")? "]" {
|
||||||
let compound = Brackets ($1,$3)
|
let compound = Some (Brackets ($1,$3))
|
||||||
and region = cover $1 $3 in
|
and region = cover $1 $3 in
|
||||||
let elements, terminator =
|
let elements, terminator =
|
||||||
match $2 with
|
match $2 with
|
||||||
@ -194,7 +194,7 @@ record_type:
|
|||||||
let () = Utils.nsepseq_to_list ne_elements
|
let () = Utils.nsepseq_to_list ne_elements
|
||||||
|> Scoping.check_fields in
|
|> Scoping.check_fields in
|
||||||
let region = cover $1 $3
|
let region = cover $1 $3
|
||||||
and value = {compound = Braces ($1,$3); ne_elements; terminator}
|
and value = {compound = Some (Braces ($1,$3)); ne_elements; terminator}
|
||||||
in TRecord {region; value} }
|
in TRecord {region; value} }
|
||||||
|
|
||||||
field_decl:
|
field_decl:
|
||||||
@ -300,7 +300,7 @@ record_pattern:
|
|||||||
"{" sep_or_term_list(field_pattern,";") "}" {
|
"{" sep_or_term_list(field_pattern,";") "}" {
|
||||||
let ne_elements, terminator = $2 in
|
let ne_elements, terminator = $2 in
|
||||||
let region = cover $1 $3 in
|
let region = cover $1 $3 in
|
||||||
let value = {compound = Braces ($1,$3); ne_elements; terminator}
|
let value = {compound = Some (Braces ($1,$3)); ne_elements; terminator}
|
||||||
in {region; value} }
|
in {region; value} }
|
||||||
|
|
||||||
field_pattern:
|
field_pattern:
|
||||||
@ -377,22 +377,18 @@ if_then_else(right_expr):
|
|||||||
test = $2;
|
test = $2;
|
||||||
kwd_then = $3;
|
kwd_then = $3;
|
||||||
ifso = $4;
|
ifso = $4;
|
||||||
kwd_else = $5;
|
ifnot = Some($5,$6)}
|
||||||
ifnot = $6}
|
|
||||||
in ECond {region; value} }
|
in ECond {region; value} }
|
||||||
|
|
||||||
if_then(right_expr):
|
if_then(right_expr):
|
||||||
"if" expr "then" right_expr {
|
"if" expr "then" right_expr {
|
||||||
let the_unit = ghost, ghost in
|
|
||||||
let ifnot = EUnit (wrap_ghost the_unit) in
|
|
||||||
let stop = expr_to_region $4 in
|
let stop = expr_to_region $4 in
|
||||||
let region = cover $1 stop in
|
let region = cover $1 stop in
|
||||||
let value = {kwd_if = $1;
|
let value = {kwd_if = $1;
|
||||||
test = $2;
|
test = $2;
|
||||||
kwd_then = $3;
|
kwd_then = $3;
|
||||||
ifso = $4;
|
ifso = $4;
|
||||||
kwd_else = ghost;
|
ifnot = None}
|
||||||
ifnot}
|
|
||||||
in ECond {region; value} }
|
in ECond {region; value} }
|
||||||
|
|
||||||
base_if_then_else__open(x):
|
base_if_then_else__open(x):
|
||||||
@ -630,7 +626,7 @@ record_expr:
|
|||||||
"{" sep_or_term_list(field_assignment,";") "}" {
|
"{" sep_or_term_list(field_assignment,";") "}" {
|
||||||
let ne_elements, terminator = $2 in
|
let ne_elements, terminator = $2 in
|
||||||
let region = cover $1 $3 in
|
let region = cover $1 $3 in
|
||||||
let value = {compound = Braces ($1,$3);
|
let value = {compound = Some (Braces ($1,$3));
|
||||||
ne_elements;
|
ne_elements;
|
||||||
terminator}
|
terminator}
|
||||||
in {region; value} }
|
in {region; value} }
|
||||||
@ -643,7 +639,7 @@ update_record:
|
|||||||
lbrace = $1;
|
lbrace = $1;
|
||||||
record = $2;
|
record = $2;
|
||||||
kwd_with = $3;
|
kwd_with = $3;
|
||||||
updates = {value = {compound = Braces (ghost, ghost);
|
updates = {value = {compound = None;
|
||||||
ne_elements;
|
ne_elements;
|
||||||
terminator};
|
terminator};
|
||||||
region = cover $3 $5};
|
region = cover $3 $5};
|
||||||
@ -671,7 +667,7 @@ path :
|
|||||||
sequence:
|
sequence:
|
||||||
"begin" series? "end" {
|
"begin" series? "end" {
|
||||||
let region = cover $1 $3
|
let region = cover $1 $3
|
||||||
and compound = BeginEnd ($1,$3) in
|
and compound = Some (BeginEnd ($1,$3)) in
|
||||||
let elements = $2 in
|
let elements = $2 in
|
||||||
let value = {compound; elements; terminator=None}
|
let value = {compound; elements; terminator=None}
|
||||||
in {region; value} }
|
in {region; value} }
|
||||||
@ -691,7 +687,7 @@ let_in_sequence:
|
|||||||
let seq = $6 in
|
let seq = $6 in
|
||||||
let stop = nsepseq_to_region expr_to_region seq in
|
let stop = nsepseq_to_region expr_to_region seq in
|
||||||
let region = cover $1 stop in
|
let region = cover $1 stop in
|
||||||
let compound = BeginEnd (Region.ghost, Region.ghost) in
|
let compound = None in
|
||||||
let elements = Some seq in
|
let elements = Some seq in
|
||||||
let value = {compound; elements; terminator=None} in
|
let value = {compound; elements; terminator=None} in
|
||||||
let body = ESeq {region; value} in
|
let body = ESeq {region; value} in
|
||||||
|
@ -173,13 +173,15 @@ and pp_clause {value; _} =
|
|||||||
pp_pattern pattern ^^ prefix 4 1 (string " ->") (pp_expr rhs)
|
pp_pattern pattern ^^ prefix 4 1 (string " ->") (pp_expr rhs)
|
||||||
|
|
||||||
and pp_cond_expr {value; _} =
|
and pp_cond_expr {value; _} =
|
||||||
let {test; ifso; kwd_else; ifnot; _} = value in
|
let {test; ifso; ifnot; _} = value in
|
||||||
let test = string "if " ^^ group (nest 3 (pp_expr test))
|
let test = string "if " ^^ group (nest 3 (pp_expr test))
|
||||||
and ifso = string "then" ^^ group (nest 2 (break 1 ^^ pp_expr ifso))
|
and ifso = string "then" ^^ group (nest 2 (break 1 ^^ pp_expr ifso))
|
||||||
and ifnot = string "else" ^^ group (nest 2 (break 1 ^^ pp_expr ifnot))
|
in match ifnot with
|
||||||
in if kwd_else#is_ghost
|
Some (_,ifnot) ->
|
||||||
then test ^/^ ifso
|
let ifnot = string "else" ^^ group (nest 2 (break 1 ^^ pp_expr ifnot)) in
|
||||||
else test ^/^ ifso ^/^ ifnot
|
test ^/^ ifso ^/^ ifnot
|
||||||
|
| None ->
|
||||||
|
test ^/^ ifso
|
||||||
|
|
||||||
and pp_annot_expr {value; _} =
|
and pp_annot_expr {value; _} =
|
||||||
let expr, _, type_expr = value.inside in
|
let expr, _, type_expr = value.inside in
|
||||||
@ -243,18 +245,15 @@ and pp_injection :
|
|||||||
let sep = string ";" ^^ break 1 in
|
let sep = string ";" ^^ break 1 in
|
||||||
let elements = Utils.sepseq_to_list elements in
|
let elements = Utils.sepseq_to_list elements in
|
||||||
let elements = separate_map sep printer elements in
|
let elements = separate_map sep printer elements in
|
||||||
match pp_compound compound with
|
match Option.map pp_compound compound with
|
||||||
None -> elements
|
None -> elements
|
||||||
| Some (opening, closing) ->
|
| Some (opening, closing) ->
|
||||||
string opening ^^ nest 1 elements ^^ string closing
|
string opening ^^ nest 1 elements ^^ string closing
|
||||||
|
|
||||||
and pp_compound = function
|
and pp_compound = function
|
||||||
BeginEnd (start, _) ->
|
BeginEnd (_, _) -> ("begin","end")
|
||||||
if start#is_ghost then None else Some ("begin","end")
|
| Braces (_, _) -> ("{","}")
|
||||||
| Braces (start, _) ->
|
| Brackets (_, _) -> ("[","]")
|
||||||
if start#is_ghost then None else Some ("{","}")
|
|
||||||
| Brackets (start, _) ->
|
|
||||||
if start#is_ghost then None else Some ("[","]")
|
|
||||||
|
|
||||||
and pp_constr_expr = function
|
and pp_constr_expr = function
|
||||||
ENone _ -> string "None"
|
ENone _ -> string "None"
|
||||||
@ -282,7 +281,7 @@ and pp_ne_injection :
|
|||||||
fun printer {value; _} ->
|
fun printer {value; _} ->
|
||||||
let {compound; ne_elements; _} = value in
|
let {compound; ne_elements; _} = value in
|
||||||
let elements = pp_nsepseq ";" printer ne_elements in
|
let elements = pp_nsepseq ";" printer ne_elements in
|
||||||
match pp_compound compound with
|
match Option.map pp_compound compound with
|
||||||
None -> elements
|
None -> elements
|
||||||
| Some (opening, closing) ->
|
| Some (opening, closing) ->
|
||||||
string opening ^^ nest 1 elements ^^ string closing
|
string opening ^^ nest 1 elements ^^ string closing
|
||||||
@ -356,8 +355,8 @@ and pp_let_in {value; _} =
|
|||||||
| Some _ -> "let rec " in
|
| Some _ -> "let rec " in
|
||||||
let binding = pp_let_binding binding
|
let binding = pp_let_binding binding
|
||||||
and attr = pp_attributes attributes
|
and attr = pp_attributes attributes
|
||||||
in string let_str ^^ binding ^^ attr
|
in string let_str ^^ binding ^^ attr ^^ string " in"
|
||||||
^^ hardline ^^ group (string "in " ^^ nest 3 (pp_expr body))
|
^^ hardline ^^ group (pp_expr body)
|
||||||
|
|
||||||
and pp_fun {value; _} =
|
and pp_fun {value; _} =
|
||||||
let {binders; lhs_type; body; _} = value in
|
let {binders; lhs_type; body; _} = value in
|
||||||
@ -375,7 +374,7 @@ and pp_seq {value; _} =
|
|||||||
let sep = string ";" ^^ hardline in
|
let sep = string ";" ^^ hardline in
|
||||||
let elements = Utils.sepseq_to_list elements in
|
let elements = Utils.sepseq_to_list elements in
|
||||||
let elements = separate_map sep pp_expr elements in
|
let elements = separate_map sep pp_expr elements in
|
||||||
match pp_compound compound with
|
match Option.map pp_compound compound with
|
||||||
None -> elements
|
None -> elements
|
||||||
| Some (opening, closing) ->
|
| Some (opening, closing) ->
|
||||||
string opening
|
string opening
|
||||||
@ -406,7 +405,7 @@ and pp_variants {value; _} =
|
|||||||
let head = pp_variant head in
|
let head = pp_variant head in
|
||||||
let head = if tail = [] then head else ifflat head (blank 2 ^^ head) in
|
let head = if tail = [] then head else ifflat head (blank 2 ^^ head) in
|
||||||
let rest = List.map snd tail in
|
let rest = List.map snd tail in
|
||||||
let app variant = break 1 ^^ string "| " ^^ pp_variant variant
|
let app variant = group (break 1 ^^ string "| " ^^ pp_variant variant)
|
||||||
in head ^^ concat_map app rest
|
in head ^^ concat_map app rest
|
||||||
|
|
||||||
and pp_variant {value; _} =
|
and pp_variant {value; _} =
|
||||||
|
@ -5,6 +5,7 @@ module Scoping = Parser_pascaligo.Scoping
|
|||||||
module Region = Simple_utils.Region
|
module Region = Simple_utils.Region
|
||||||
module ParErr = Parser_pascaligo.ParErr
|
module ParErr = Parser_pascaligo.ParErr
|
||||||
module SSet = Set.Make (String)
|
module SSet = Set.Make (String)
|
||||||
|
module Pretty = Parser_pascaligo.Pretty
|
||||||
|
|
||||||
(* Mock IOs TODO: Fill them with CLI options *)
|
(* Mock IOs TODO: Fill them with CLI options *)
|
||||||
|
|
||||||
@ -153,3 +154,23 @@ let parse_expression source = apply (fun () -> Unit.expr_in_string source)
|
|||||||
(* Preprocessing a contract in a file *)
|
(* Preprocessing a contract in a file *)
|
||||||
|
|
||||||
let preprocess source = apply (fun () -> Unit.preprocess source)
|
let preprocess source = apply (fun () -> Unit.preprocess source)
|
||||||
|
|
||||||
|
let pretty_print cst =
|
||||||
|
let doc = Pretty.print cst in
|
||||||
|
let buffer = Buffer.create 131 in
|
||||||
|
let width =
|
||||||
|
match Terminal_size.get_columns () with
|
||||||
|
None -> 60
|
||||||
|
| Some c -> c in
|
||||||
|
let () = PPrint.ToBuffer.pretty 1.0 width buffer doc
|
||||||
|
in Trace.ok buffer
|
||||||
|
|
||||||
|
let pretty_print_expression cst =
|
||||||
|
let doc = Pretty.pp_expr cst in
|
||||||
|
let buffer = Buffer.create 131 in
|
||||||
|
let width =
|
||||||
|
match Terminal_size.get_columns () with
|
||||||
|
None -> 60
|
||||||
|
| Some c -> c in
|
||||||
|
let () = PPrint.ToBuffer.pretty 1.0 width buffer doc
|
||||||
|
in Trace.ok buffer
|
||||||
|
@ -21,3 +21,8 @@ val parse_expression : string -> (CST.expr, parser_error) result
|
|||||||
|
|
||||||
(** Preprocess a given PascaLIGO file and preprocess it. *)
|
(** Preprocess a given PascaLIGO file and preprocess it. *)
|
||||||
val preprocess : string -> (Buffer.t, parser_error) result
|
val preprocess : string -> (Buffer.t, parser_error) result
|
||||||
|
|
||||||
|
(** Take a PascaLIGO cst and pretty_print it *)
|
||||||
|
val pretty_print : CST.t -> (Buffer.t, _) result
|
||||||
|
|
||||||
|
val pretty_print_expression : CST.expr -> (Buffer.t, _) result
|
||||||
|
@ -255,23 +255,6 @@ fun_expr:
|
|||||||
|
|
||||||
open_fun_decl:
|
open_fun_decl:
|
||||||
ioption ("recursive") "function" fun_name parameters type_expr_colon? "is"
|
ioption ("recursive") "function" fun_name parameters type_expr_colon? "is"
|
||||||
block "with" expr {
|
|
||||||
Scoping.check_reserved_name $3;
|
|
||||||
let stop = expr_to_region $9 in
|
|
||||||
let region = cover $2 stop
|
|
||||||
and value = {kwd_recursive= $1;
|
|
||||||
kwd_function = $2;
|
|
||||||
fun_name = $3;
|
|
||||||
param = $4;
|
|
||||||
ret_type = $5;
|
|
||||||
kwd_is = $6;
|
|
||||||
block_with = Some ($7, $8);
|
|
||||||
return = $9;
|
|
||||||
terminator = None;
|
|
||||||
attributes = None}
|
|
||||||
in {region; value}
|
|
||||||
}
|
|
||||||
| ioption ("recursive") "function" fun_name parameters type_expr_colon? "is"
|
|
||||||
expr {
|
expr {
|
||||||
Scoping.check_reserved_name $3;
|
Scoping.check_reserved_name $3;
|
||||||
let stop = expr_to_region $7 in
|
let stop = expr_to_region $7 in
|
||||||
@ -282,11 +265,11 @@ open_fun_decl:
|
|||||||
param = $4;
|
param = $4;
|
||||||
ret_type = $5;
|
ret_type = $5;
|
||||||
kwd_is = $6;
|
kwd_is = $6;
|
||||||
block_with = None;
|
|
||||||
return = $7;
|
return = $7;
|
||||||
terminator = None;
|
terminator = None;
|
||||||
attributes = None}
|
attributes = None}
|
||||||
in {region; value} }
|
in {region; value}
|
||||||
|
}
|
||||||
|
|
||||||
fun_decl:
|
fun_decl:
|
||||||
open_fun_decl ";"? {
|
open_fun_decl ";"? {
|
||||||
@ -588,7 +571,7 @@ case_clause(rhs):
|
|||||||
|
|
||||||
assignment:
|
assignment:
|
||||||
lhs ":=" rhs {
|
lhs ":=" rhs {
|
||||||
let stop = rhs_to_region $3 in
|
let stop = expr_to_region $3 in
|
||||||
let region = cover (lhs_to_region $1) stop
|
let region = cover (lhs_to_region $1) stop
|
||||||
and value = {lhs = $1; assign = $2; rhs = $3}
|
and value = {lhs = $1; assign = $2; rhs = $3}
|
||||||
in {region; value} }
|
in {region; value} }
|
||||||
@ -665,6 +648,20 @@ expr:
|
|||||||
| cond_expr { $1 }
|
| cond_expr { $1 }
|
||||||
| disj_expr { $1 }
|
| disj_expr { $1 }
|
||||||
| fun_expr { EFun $1 }
|
| fun_expr { EFun $1 }
|
||||||
|
| block_with { EBlock $1 }
|
||||||
|
|
||||||
|
block_with :
|
||||||
|
block "with" expr {
|
||||||
|
let start = $2
|
||||||
|
and stop = expr_to_region $3 in
|
||||||
|
let region = cover start stop in
|
||||||
|
let value : CST.block_with = {
|
||||||
|
block = $1;
|
||||||
|
kwd_with = $2;
|
||||||
|
expr = $3;
|
||||||
|
}
|
||||||
|
in {value;region}
|
||||||
|
}
|
||||||
|
|
||||||
cond_expr:
|
cond_expr:
|
||||||
"if" expr "then" expr ";"? "else" expr {
|
"if" expr "then" expr ";"? "else" expr {
|
||||||
|
@ -81,7 +81,7 @@ and pp_variants {value; _} =
|
|||||||
let head = if tail = [] then head
|
let head = if tail = [] then head
|
||||||
else ifflat head (string " " ^^ head) in
|
else ifflat head (string " " ^^ head) in
|
||||||
let rest = List.map snd tail in
|
let rest = List.map snd tail in
|
||||||
let app variant = break 1 ^^ string "| " ^^ pp_variant variant
|
let app variant = group (break 1 ^^ string "| " ^^ pp_variant variant)
|
||||||
in head ^^ concat_map app rest
|
in head ^^ concat_map app rest
|
||||||
|
|
||||||
and pp_variant {value; _} =
|
and pp_variant {value; _} =
|
||||||
@ -136,7 +136,7 @@ and pp_fun_expr {value; _} =
|
|||||||
|
|
||||||
and pp_fun_decl {value; _} =
|
and pp_fun_decl {value; _} =
|
||||||
let {kwd_recursive; fun_name; param;
|
let {kwd_recursive; fun_name; param;
|
||||||
ret_type; block_with; return; attributes; _} = value in
|
ret_type; return; attributes; _} = value in
|
||||||
let start =
|
let start =
|
||||||
match kwd_recursive with
|
match kwd_recursive with
|
||||||
None -> string "function"
|
None -> string "function"
|
||||||
@ -145,10 +145,9 @@ and pp_fun_decl {value; _} =
|
|||||||
let parameters = pp_par pp_parameters param in
|
let parameters = pp_par pp_parameters param in
|
||||||
let expr = pp_expr return in
|
let expr = pp_expr return in
|
||||||
let body =
|
let body =
|
||||||
match block_with with
|
match return with
|
||||||
None -> group (nest 2 (break 1 ^^ expr))
|
EBlock _ -> group (break 1 ^^ expr)
|
||||||
| Some (b,_) -> hardline ^^ pp_block b ^^ string " with"
|
| _ -> group (nest 2 (break 1 ^^ expr))
|
||||||
^^ group (nest 4 (break 1 ^^ expr))
|
|
||||||
and attr =
|
and attr =
|
||||||
match attributes with
|
match attributes with
|
||||||
None -> empty
|
None -> empty
|
||||||
@ -379,6 +378,14 @@ and pp_expr = function
|
|||||||
| EPar e -> pp_par pp_expr e
|
| EPar e -> pp_par pp_expr e
|
||||||
| EFun e -> pp_fun_expr e
|
| EFun e -> pp_fun_expr e
|
||||||
| ECodeInj e -> pp_code_inj e
|
| ECodeInj e -> pp_code_inj e
|
||||||
|
| EBlock e -> pp_block_with e
|
||||||
|
|
||||||
|
and pp_block_with {value; _} =
|
||||||
|
let {block;kwd_with; expr;_} = value in
|
||||||
|
let expr = value.expr in
|
||||||
|
let expr = pp_expr expr in
|
||||||
|
group(pp_block block ^^ string " with"
|
||||||
|
^^ group (nest 4 (break 1 ^^ expr)))
|
||||||
|
|
||||||
and pp_annot_expr {value; _} =
|
and pp_annot_expr {value; _} =
|
||||||
let expr, _, type_expr = value.inside in
|
let expr, _, type_expr = value.inside in
|
||||||
|
@ -4147,30 +4147,6 @@ contract: Function With
|
|||||||
|
|
||||||
<YOUR SYNTAX ERROR MESSAGE HERE>
|
<YOUR SYNTAX ERROR MESSAGE HERE>
|
||||||
|
|
||||||
contract: Recursive Function Ident LPAR Const Ident COLON Ident RPAR COLON String Is Begin Skip End While
|
|
||||||
##
|
|
||||||
## Ends in an error in state: 582.
|
|
||||||
##
|
|
||||||
## open_fun_decl -> Recursive Function Ident parameters COLON type_expr Is block . With expr [ Type SEMI Recursive RBRACE Function End EOF Const Attributes ]
|
|
||||||
##
|
|
||||||
## The known suffix of the stack is as follows:
|
|
||||||
## Recursive Function Ident parameters COLON type_expr Is block
|
|
||||||
##
|
|
||||||
|
|
||||||
<YOUR SYNTAX ERROR MESSAGE HERE>
|
|
||||||
|
|
||||||
contract: Recursive Function Ident LPAR Const Ident COLON Ident RPAR COLON String Is Begin Skip End With With
|
|
||||||
##
|
|
||||||
## Ends in an error in state: 583.
|
|
||||||
##
|
|
||||||
## open_fun_decl -> Recursive Function Ident parameters COLON type_expr Is block With . expr [ Type SEMI Recursive RBRACE Function End EOF Const Attributes ]
|
|
||||||
##
|
|
||||||
## The known suffix of the stack is as follows:
|
|
||||||
## Recursive Function Ident parameters COLON type_expr Is block With
|
|
||||||
##
|
|
||||||
|
|
||||||
<YOUR SYNTAX ERROR MESSAGE HERE>
|
|
||||||
|
|
||||||
contract: Recursive Function Ident LPAR Const Ident COLON Ident RPAR COLON String Is With
|
contract: Recursive Function Ident LPAR Const Ident COLON Ident RPAR COLON String Is With
|
||||||
##
|
##
|
||||||
## Ends in an error in state: 89.
|
## Ends in an error in state: 89.
|
||||||
|
@ -146,12 +146,25 @@ let parse_expression source = apply (fun () -> Unit.expr_in_string source)
|
|||||||
let preprocess source = apply (fun () -> Unit.preprocess source)
|
let preprocess source = apply (fun () -> Unit.preprocess source)
|
||||||
|
|
||||||
(* Pretty-print a file (after parsing it). *)
|
(* Pretty-print a file (after parsing it). *)
|
||||||
|
let pretty_print cst =
|
||||||
let pretty_print source =
|
let doc = Pretty.print cst in
|
||||||
match parse_file source with
|
let buffer = Buffer.create 131 in
|
||||||
Stdlib.Error _ as e -> e
|
let width =
|
||||||
| Ok ast ->
|
match Terminal_size.get_columns () with
|
||||||
let doc = Pretty.print (fst ast) in
|
None -> 60
|
||||||
|
| Some c -> c in
|
||||||
|
let () = PPrint.ToBuffer.pretty 1.0 width buffer doc
|
||||||
|
in Trace.ok buffer
|
||||||
|
|
||||||
|
let pretty_print_from_source source =
|
||||||
|
match parse_file source with
|
||||||
|
Stdlib.Error _ as e -> e
|
||||||
|
| Ok cst ->
|
||||||
|
pretty_print @@ fst cst
|
||||||
|
|
||||||
|
|
||||||
|
let pretty_print_expression cst =
|
||||||
|
let doc = Pretty.pp_expr cst in
|
||||||
let buffer = Buffer.create 131 in
|
let buffer = Buffer.create 131 in
|
||||||
let width =
|
let width =
|
||||||
match Terminal_size.get_columns () with
|
match Terminal_size.get_columns () with
|
||||||
|
@ -21,5 +21,10 @@ val parse_expression : string -> (CST.expr , Errors.parser_error) result
|
|||||||
(** Preprocess a given ReasonLIGO file and preprocess it. *)
|
(** Preprocess a given ReasonLIGO file and preprocess it. *)
|
||||||
val preprocess : string -> (Buffer.t , Errors.parser_error) result
|
val preprocess : string -> (Buffer.t , Errors.parser_error) result
|
||||||
|
|
||||||
(** Pretty-print a given CameLIGO file (after parsing it). *)
|
(** Pretty-print a given ReasonLIGO file (after parsing it). *)
|
||||||
val pretty_print : string -> (Buffer.t , Errors.parser_error) result
|
val pretty_print_from_source : string -> (Buffer.t , Errors.parser_error) result
|
||||||
|
|
||||||
|
(** Take a ReasonLIGO cst and pretty_print it *)
|
||||||
|
val pretty_print : CST.t -> (Buffer.t, _) result
|
||||||
|
|
||||||
|
val pretty_print_expression : CST.expr -> (Buffer.t, _) result
|
||||||
|
@ -131,7 +131,7 @@ tuple(item):
|
|||||||
|
|
||||||
list__(item):
|
list__(item):
|
||||||
"[" sep_or_term_list(item,";")? "]" {
|
"[" sep_or_term_list(item,";")? "]" {
|
||||||
let compound = Brackets ($1,$3)
|
let compound = Some (Brackets ($1,$3))
|
||||||
and region = cover $1 $3 in
|
and region = cover $1 $3 in
|
||||||
let elements, terminator =
|
let elements, terminator =
|
||||||
match $2 with
|
match $2 with
|
||||||
@ -224,7 +224,7 @@ record_type:
|
|||||||
let () = Utils.nsepseq_to_list ne_elements
|
let () = Utils.nsepseq_to_list ne_elements
|
||||||
|> Scoping.check_fields in
|
|> Scoping.check_fields in
|
||||||
let region = cover $1 $3
|
let region = cover $1 $3
|
||||||
and value = {compound = Braces ($1,$3); ne_elements; terminator}
|
and value = {compound = Some(Braces ($1,$3)); ne_elements; terminator}
|
||||||
in TRecord {region; value} }
|
in TRecord {region; value} }
|
||||||
|
|
||||||
type_expr_field:
|
type_expr_field:
|
||||||
@ -362,7 +362,7 @@ record_pattern:
|
|||||||
"{" sep_or_term_list(field_pattern,",") "}" {
|
"{" sep_or_term_list(field_pattern,",") "}" {
|
||||||
let ne_elements, terminator = $2 in
|
let ne_elements, terminator = $2 in
|
||||||
let region = cover $1 $3 in
|
let region = cover $1 $3 in
|
||||||
let value = {compound = Braces ($1,$3);
|
let value = {compound = Some (Braces ($1,$3));
|
||||||
ne_elements;
|
ne_elements;
|
||||||
terminator}
|
terminator}
|
||||||
in {region; value} }
|
in {region; value} }
|
||||||
@ -592,15 +592,12 @@ parenthesized_expr:
|
|||||||
|
|
||||||
if_then(right_expr):
|
if_then(right_expr):
|
||||||
"if" parenthesized_expr "{" closed_if ";"? "}" {
|
"if" parenthesized_expr "{" closed_if ";"? "}" {
|
||||||
let the_unit = ghost, ghost in
|
|
||||||
let ifnot = EUnit {region=ghost; value=the_unit} in
|
|
||||||
let region = cover $1 $6 in
|
let region = cover $1 $6 in
|
||||||
let value = {kwd_if = $1;
|
let value = {kwd_if = $1;
|
||||||
test = $2;
|
test = $2;
|
||||||
kwd_then = $3;
|
kwd_then = $3;
|
||||||
ifso = $4;
|
ifso = $4;
|
||||||
kwd_else = ghost;
|
ifnot = None}
|
||||||
ifnot}
|
|
||||||
in ECond {region; value} }
|
in ECond {region; value} }
|
||||||
|
|
||||||
if_then_else(right_expr):
|
if_then_else(right_expr):
|
||||||
@ -611,8 +608,7 @@ if_then_else(right_expr):
|
|||||||
test = $2;
|
test = $2;
|
||||||
kwd_then = $3;
|
kwd_then = $3;
|
||||||
ifso = $4;
|
ifso = $4;
|
||||||
kwd_else = $6;
|
ifnot = Some ($6,$9)}
|
||||||
ifnot = $9}
|
|
||||||
in ECond {region; value} }
|
in ECond {region; value} }
|
||||||
|
|
||||||
base_if_then_else__open(x):
|
base_if_then_else__open(x):
|
||||||
@ -825,7 +821,7 @@ list_or_spread:
|
|||||||
let elts, terminator = $4 in
|
let elts, terminator = $4 in
|
||||||
let elts = Utils.nsepseq_cons $2 $3 elts in
|
let elts = Utils.nsepseq_cons $2 $3 elts in
|
||||||
let value = {
|
let value = {
|
||||||
compound = Brackets ($1,$5);
|
compound = Some (Brackets ($1,$5));
|
||||||
elements = Some elts;
|
elements = Some elts;
|
||||||
terminator}
|
terminator}
|
||||||
and region = cover $1 $5 in
|
and region = cover $1 $5 in
|
||||||
@ -837,7 +833,7 @@ list_or_spread:
|
|||||||
in EList (ECons {region; value})
|
in EList (ECons {region; value})
|
||||||
}
|
}
|
||||||
| "[" expr? "]" {
|
| "[" expr? "]" {
|
||||||
let compound = Brackets ($1,$3)
|
let compound = Some (Brackets ($1,$3))
|
||||||
and elements =
|
and elements =
|
||||||
match $2 with
|
match $2 with
|
||||||
None -> None
|
None -> None
|
||||||
@ -913,7 +909,7 @@ update_record:
|
|||||||
lbrace = $1;
|
lbrace = $1;
|
||||||
record = $3;
|
record = $3;
|
||||||
kwd_with = $4;
|
kwd_with = $4;
|
||||||
updates = {value = {compound = Braces (ghost, ghost);
|
updates = {value = {compound = None;
|
||||||
ne_elements;
|
ne_elements;
|
||||||
terminator};
|
terminator};
|
||||||
region = cover $4 $6};
|
region = cover $4 $6};
|
||||||
@ -949,7 +945,7 @@ exprs:
|
|||||||
in
|
in
|
||||||
let sequence = ESeq {
|
let sequence = ESeq {
|
||||||
value = {
|
value = {
|
||||||
compound = BeginEnd (ghost, ghost);
|
compound = None;
|
||||||
elements = Some val_;
|
elements = Some val_;
|
||||||
terminator = snd c};
|
terminator = snd c};
|
||||||
region = sequence_region
|
region = sequence_region
|
||||||
@ -982,7 +978,7 @@ more_field_assignments:
|
|||||||
sequence:
|
sequence:
|
||||||
"{" exprs "}" {
|
"{" exprs "}" {
|
||||||
let elts, _region = $2 in
|
let elts, _region = $2 in
|
||||||
let compound = Braces ($1, $3) in
|
let compound = Some (Braces ($1, $3)) in
|
||||||
let value = {compound;
|
let value = {compound;
|
||||||
elements = Some elts;
|
elements = Some elts;
|
||||||
terminator = None} in
|
terminator = None} in
|
||||||
@ -991,7 +987,7 @@ sequence:
|
|||||||
|
|
||||||
record:
|
record:
|
||||||
"{" field_assignment more_field_assignments? "}" {
|
"{" field_assignment more_field_assignments? "}" {
|
||||||
let compound = Braces ($1,$4) in
|
let compound = Some (Braces ($1,$4)) in
|
||||||
let region = cover $1 $4 in
|
let region = cover $1 $4 in
|
||||||
|
|
||||||
match $3 with
|
match $3 with
|
||||||
@ -1010,7 +1006,7 @@ record:
|
|||||||
let field_name = {$2 with value} in
|
let field_name = {$2 with value} in
|
||||||
let comma, elts = $3 in
|
let comma, elts = $3 in
|
||||||
let ne_elements = Utils.nsepseq_cons field_name comma elts in
|
let ne_elements = Utils.nsepseq_cons field_name comma elts in
|
||||||
let compound = Braces ($1,$4) in
|
let compound = Some (Braces ($1,$4)) in
|
||||||
let region = cover $1 $4 in
|
let region = cover $1 $4 in
|
||||||
{value = {compound; ne_elements; terminator = None}; region} }
|
{value = {compound; ne_elements; terminator = None}; region} }
|
||||||
|
|
||||||
|
@ -179,13 +179,13 @@ and pp_clause {value; _} =
|
|||||||
prefix 4 1 (pp_pattern pattern ^^ string " =>") (pp_expr rhs)
|
prefix 4 1 (pp_pattern pattern ^^ string " =>") (pp_expr rhs)
|
||||||
|
|
||||||
and pp_cond_expr {value; _} =
|
and pp_cond_expr {value; _} =
|
||||||
let {test; ifso; kwd_else; ifnot; _} = value in
|
let {test; ifso; ifnot; _} = value in
|
||||||
let if_then =
|
let if_then =
|
||||||
string "if" ^^ string " (" ^^ pp_expr test ^^ string ")" ^^ string " {" ^^ break 0
|
string "if" ^^ string " (" ^^ pp_expr test ^^ string ")" ^^ string " {" ^^ break 0
|
||||||
^^ group (nest 2 (break 2 ^^ pp_expr ifso)) ^^ hardline ^^ string "}" in
|
^^ group (nest 2 (break 2 ^^ pp_expr ifso)) ^^ hardline ^^ string "}" in
|
||||||
if kwd_else#is_ghost then
|
match ifnot with
|
||||||
if_then
|
None -> if_then
|
||||||
else
|
| Some (_,ifnot) ->
|
||||||
if_then
|
if_then
|
||||||
^^ string " else" ^^ string " {" ^^ break 0 ^^ group (nest 2 (break 2 ^^ pp_expr ifnot)) ^^ hardline ^^ string "}"
|
^^ string " else" ^^ string " {" ^^ break 0 ^^ group (nest 2 (break 2 ^^ pp_expr ifnot)) ^^ hardline ^^ string "}"
|
||||||
|
|
||||||
@ -252,18 +252,15 @@ and pp_injection :
|
|||||||
let sep = (string ",") ^^ break 1 in
|
let sep = (string ",") ^^ break 1 in
|
||||||
let elements = Utils.sepseq_to_list elements in
|
let elements = Utils.sepseq_to_list elements in
|
||||||
let elements = separate_map sep printer elements in
|
let elements = separate_map sep printer elements in
|
||||||
match pp_compound compound with
|
match Option.map pp_compound compound with
|
||||||
None -> elements
|
None -> elements
|
||||||
| Some (opening, closing) ->
|
| Some (opening, closing) ->
|
||||||
string opening ^^ nest 1 elements ^^ string closing
|
string opening ^^ nest 1 elements ^^ string closing
|
||||||
|
|
||||||
and pp_compound = function
|
and pp_compound = function
|
||||||
BeginEnd (start, _) ->
|
BeginEnd (_, _) -> ("begin","end")
|
||||||
if start#is_ghost then None else Some ("begin","end")
|
| Braces (_, _) -> ("{","}")
|
||||||
| Braces (start, _) ->
|
| Brackets (_, _) -> ("[","]")
|
||||||
if start#is_ghost then None else Some ("{","}")
|
|
||||||
| Brackets (start, _) ->
|
|
||||||
if start#is_ghost then None else Some ("[","]")
|
|
||||||
|
|
||||||
and pp_constr_expr = function
|
and pp_constr_expr = function
|
||||||
ENone _ -> string "None"
|
ENone _ -> string "None"
|
||||||
@ -291,7 +288,7 @@ and pp_ne_injection :
|
|||||||
fun printer {value; _} ->
|
fun printer {value; _} ->
|
||||||
let {compound; ne_elements; _} = value in
|
let {compound; ne_elements; _} = value in
|
||||||
let elements = pp_nsepseq "," printer ne_elements in
|
let elements = pp_nsepseq "," printer ne_elements in
|
||||||
match pp_compound compound with
|
match Option.map pp_compound compound with
|
||||||
None -> elements
|
None -> elements
|
||||||
| Some (opening, closing) ->
|
| Some (opening, closing) ->
|
||||||
string opening ^^ nest 2 (break 0 ^^ elements) ^^ break 1 ^^ string closing
|
string opening ^^ nest 2 (break 0 ^^ elements) ^^ break 1 ^^ string closing
|
||||||
@ -387,7 +384,7 @@ and pp_seq {value; _} =
|
|||||||
let sep = string ";" ^^ hardline in
|
let sep = string ";" ^^ hardline in
|
||||||
let elements = Utils.sepseq_to_list elements in
|
let elements = Utils.sepseq_to_list elements in
|
||||||
let elements = separate_map sep pp_expr elements in
|
let elements = separate_map sep pp_expr elements in
|
||||||
match pp_compound compound with
|
match Option.map pp_compound compound with
|
||||||
None -> elements
|
None -> elements
|
||||||
| Some (opening, closing) ->
|
| Some (opening, closing) ->
|
||||||
string opening
|
string opening
|
||||||
|
@ -2,7 +2,11 @@ module CST = Cst.Cameligo
|
|||||||
module AST = Ast_imperative
|
module AST = Ast_imperative
|
||||||
|
|
||||||
module Compiler = Compiler
|
module Compiler = Compiler
|
||||||
|
module Decompiler = Decompiler
|
||||||
module Errors = Errors
|
module Errors = Errors
|
||||||
|
|
||||||
let compile_program = Compiler.compile_program
|
let compile_program = Compiler.compile_program
|
||||||
let compile_expression = Compiler.compile_expression
|
let compile_expression = Compiler.compile_expression
|
||||||
|
|
||||||
|
let decompile_program = Decompiler.decompile_program
|
||||||
|
let decompile_expression = Decompiler.decompile_expression
|
||||||
|
@ -8,5 +8,7 @@ module Errors = Errors
|
|||||||
|
|
||||||
|
|
||||||
val compile_expression : CST.expr -> (AST.expr, Errors.abs_error) result
|
val compile_expression : CST.expr -> (AST.expr, Errors.abs_error) result
|
||||||
|
|
||||||
val compile_program : CST.ast -> (AST.program, Errors.abs_error) result
|
val compile_program : CST.ast -> (AST.program, Errors.abs_error) result
|
||||||
|
|
||||||
|
val decompile_expression : AST.expr -> (CST.expr, _) result
|
||||||
|
val decompile_program : AST.program -> (CST.ast, _) result
|
||||||
|
@ -11,6 +11,7 @@ module Option = Simple_utils.Option
|
|||||||
|
|
||||||
open Combinators
|
open Combinators
|
||||||
|
|
||||||
|
let (<@) f g x = f (g x)
|
||||||
let nseq_to_list (hd, tl) = hd :: tl
|
let nseq_to_list (hd, tl) = hd :: tl
|
||||||
let npseq_to_list (hd, tl) = hd :: (List.map snd tl)
|
let npseq_to_list (hd, tl) = hd :: (List.map snd tl)
|
||||||
let npseq_to_nelist (hd, tl) = hd, (List.map snd tl)
|
let npseq_to_nelist (hd, tl) = hd, (List.map snd tl)
|
||||||
@ -491,7 +492,8 @@ in trace (abstracting_expr_tracer t) @@
|
|||||||
let (c , loc) = r_split c in
|
let (c , loc) = r_split c in
|
||||||
let%bind expr = compile_expression c.test in
|
let%bind expr = compile_expression c.test in
|
||||||
let%bind match_true = compile_expression c.ifso in
|
let%bind match_true = compile_expression c.ifso in
|
||||||
let%bind match_false = compile_expression c.ifnot in
|
let%bind match_false = bind_map_option (compile_expression <@ snd) c.ifnot in
|
||||||
|
let match_false = Option.unopt ~default:(e_unit ()) match_false in
|
||||||
return @@ e_cond ~loc expr match_true match_false
|
return @@ e_cond ~loc expr match_true match_false
|
||||||
| ECodeInj ci ->
|
| ECodeInj ci ->
|
||||||
let ci, loc = r_split ci in
|
let ci, loc = r_split ci in
|
||||||
@ -541,7 +543,7 @@ and compile_fun lamb' : (expr , abs_error) result =
|
|||||||
let aux ((var : Raw.variable) , ty_opt) =
|
let aux ((var : Raw.variable) , ty_opt) =
|
||||||
match var.value , ty_opt with
|
match var.value , ty_opt with
|
||||||
| "storage" , None ->
|
| "storage" , None ->
|
||||||
ok (var , t_variable ~loc @@ Var.fresh ~name:"storage" ())
|
ok (var , t_variable_ez ~loc "storage")
|
||||||
| _ , None ->
|
| _ , None ->
|
||||||
fail @@ untyped_fun_param var
|
fail @@ untyped_fun_param var
|
||||||
| _ , Some ty -> (
|
| _ , Some ty -> (
|
||||||
|
504
src/passes/03-tree_abstraction/cameligo/decompiler.ml
Normal file
504
src/passes/03-tree_abstraction/cameligo/decompiler.ml
Normal file
@ -0,0 +1,504 @@
|
|||||||
|
module AST = Ast_imperative
|
||||||
|
module CST = Cst.Cameligo
|
||||||
|
module Predefined = Predefined.Tree_abstraction.Cameligo
|
||||||
|
|
||||||
|
open Trace
|
||||||
|
|
||||||
|
(* General tools *)
|
||||||
|
let (<@) f g x = f (g x)
|
||||||
|
|
||||||
|
(* Utils *)
|
||||||
|
let rg = Region.ghost
|
||||||
|
let wrap : type a. a -> a CST.reg = fun value -> {value;region=rg}
|
||||||
|
let list_to_sepseq lst =
|
||||||
|
match lst with
|
||||||
|
[] -> None
|
||||||
|
| hd :: lst ->
|
||||||
|
let aux e = (rg, e) in
|
||||||
|
Some (hd, List.map aux lst)
|
||||||
|
let list_to_nsepseq lst =
|
||||||
|
match list_to_sepseq lst with
|
||||||
|
Some s -> ok @@ s
|
||||||
|
| None -> failwith "List is empty"
|
||||||
|
|
||||||
|
let nelist_to_npseq (hd, lst) = (hd, List.map (fun e -> (rg, e)) lst)
|
||||||
|
let npseq_cons hd lst = hd,(rg, fst lst)::(snd lst)
|
||||||
|
|
||||||
|
let par a = CST.{lpar=rg;inside=a;rpar=rg}
|
||||||
|
let inject compound a = CST.{compound;elements=a;terminator=Some(rg)}
|
||||||
|
let ne_inject compound a = CST.{compound;ne_elements=a;terminator=Some(rg)}
|
||||||
|
let prefix_colon a = (rg, a)
|
||||||
|
let braces = Some (CST.Braces (rg,rg))
|
||||||
|
let brackets = Some (CST.Brackets (rg,rg))
|
||||||
|
let beginEnd = Some (CST.BeginEnd (rg,rg))
|
||||||
|
|
||||||
|
(* Decompiler *)
|
||||||
|
|
||||||
|
let decompile_variable : type a. a Var.t -> CST.variable = fun var ->
|
||||||
|
let var = Format.asprintf "%a" Var.pp var in
|
||||||
|
if String.contains var '#' then
|
||||||
|
let var = String.split_on_char '#' var in
|
||||||
|
wrap @@ "gen__" ^ (String.concat "" var)
|
||||||
|
else
|
||||||
|
if String.length var > 4 && String.equal "gen__" @@ String.sub var 0 5 then
|
||||||
|
wrap @@ "user__" ^ var
|
||||||
|
else
|
||||||
|
wrap @@ var
|
||||||
|
|
||||||
|
let rec decompile_type_expr : AST.type_expression -> _ result = fun te ->
|
||||||
|
let return te = ok @@ te in
|
||||||
|
match te.type_content with
|
||||||
|
T_sum sum ->
|
||||||
|
let sum = AST.CMap.to_kv_list sum in
|
||||||
|
let aux (AST.Constructor c, AST.{ctor_type;_}) =
|
||||||
|
let constr = wrap c in
|
||||||
|
let%bind arg = decompile_type_expr ctor_type in
|
||||||
|
let arg = Some (rg, arg) in
|
||||||
|
let variant : CST.variant = {constr;arg} in
|
||||||
|
ok @@ wrap variant
|
||||||
|
in
|
||||||
|
let%bind sum = bind_map_list aux sum in
|
||||||
|
let%bind sum = list_to_nsepseq sum in
|
||||||
|
return @@ CST.TSum (wrap sum)
|
||||||
|
| T_record record ->
|
||||||
|
let record = AST.LMap.to_kv_list record in
|
||||||
|
let aux (AST.Label c, AST.{field_type;_}) =
|
||||||
|
let field_name = wrap c in
|
||||||
|
let colon = rg in
|
||||||
|
let%bind field_type = decompile_type_expr field_type in
|
||||||
|
let variant : CST.field_decl = {field_name;colon;field_type} in
|
||||||
|
ok @@ wrap variant
|
||||||
|
in
|
||||||
|
let%bind record = bind_map_list aux record in
|
||||||
|
let%bind record = list_to_nsepseq record in
|
||||||
|
return @@ CST.TRecord (wrap @@ ne_inject (braces) record)
|
||||||
|
| T_tuple tuple ->
|
||||||
|
let%bind tuple = bind_map_list decompile_type_expr tuple in
|
||||||
|
let%bind tuple = list_to_nsepseq @@ tuple in
|
||||||
|
return @@ CST.TProd (wrap tuple)
|
||||||
|
| T_arrow {type1;type2} ->
|
||||||
|
let%bind type1 = decompile_type_expr type1 in
|
||||||
|
let%bind type2 = decompile_type_expr type2 in
|
||||||
|
let arrow = (type1, rg, type2) in
|
||||||
|
return @@ CST.TFun (wrap arrow)
|
||||||
|
| T_variable var ->
|
||||||
|
let var = decompile_variable var in
|
||||||
|
return @@ CST.TVar (var)
|
||||||
|
| T_constant const ->
|
||||||
|
let const = Predefined.type_constant_to_string const in
|
||||||
|
return @@ CST.TVar (wrap const)
|
||||||
|
| T_operator (operator, lst) ->
|
||||||
|
let operator = wrap @@ Predefined.type_operator_to_string operator in
|
||||||
|
let%bind lst = bind_map_list decompile_type_expr lst in
|
||||||
|
let%bind lst = list_to_nsepseq lst in
|
||||||
|
let lst : _ CST.par = {lpar=rg;inside=lst;rpar=rg} in
|
||||||
|
return @@ CST.TApp (wrap (operator,wrap lst))
|
||||||
|
| T_annoted _annot ->
|
||||||
|
failwith "let's work on it later"
|
||||||
|
|
||||||
|
let get_e_variable : AST.expression -> _ result = fun expr ->
|
||||||
|
match expr.expression_content with
|
||||||
|
E_variable var -> ok @@ var
|
||||||
|
| _ -> failwith @@
|
||||||
|
Format.asprintf "%a should be a variable expression"
|
||||||
|
AST.PP.expression expr
|
||||||
|
|
||||||
|
let get_e_tuple : AST.expression -> _ result = fun expr ->
|
||||||
|
match expr.expression_content with
|
||||||
|
E_tuple tuple -> ok @@ tuple
|
||||||
|
| E_variable _
|
||||||
|
| E_literal _
|
||||||
|
| E_constant _
|
||||||
|
| E_lambda _ -> ok @@ [expr]
|
||||||
|
| _ -> failwith @@
|
||||||
|
Format.asprintf "%a should be a tuple expression"
|
||||||
|
AST.PP.expression expr
|
||||||
|
|
||||||
|
let pattern_type var ty_opt =
|
||||||
|
let var = CST.PVar (decompile_variable var) in
|
||||||
|
match ty_opt with
|
||||||
|
Some s ->
|
||||||
|
let%bind type_expr = decompile_type_expr s in
|
||||||
|
ok @@ CST.PTyped (wrap @@ CST.{pattern=var;colon=rg;type_expr})
|
||||||
|
| None -> ok @@ var
|
||||||
|
|
||||||
|
let rec decompile_expression : AST.expression -> _ result = fun expr ->
|
||||||
|
let return_expr expr = ok @@ expr in
|
||||||
|
let return_expr_with_par expr = return_expr @@ CST.EPar (wrap @@ par @@ expr) in
|
||||||
|
match expr.expression_content with
|
||||||
|
E_variable name ->
|
||||||
|
let var = decompile_variable name in
|
||||||
|
return_expr @@ CST.EVar (var)
|
||||||
|
| E_constant {cons_name; arguments} ->
|
||||||
|
let expr = CST.EVar (wrap @@ Predefined.constant_to_string cons_name) in
|
||||||
|
(match arguments with
|
||||||
|
[] -> return_expr @@ expr
|
||||||
|
| _ ->
|
||||||
|
let%bind arguments = map List.Ne.of_list @@
|
||||||
|
map (List.map (fun x -> CST.EPar (wrap @@ par @@ x))) @@
|
||||||
|
bind_map_list decompile_expression arguments in
|
||||||
|
let const = wrap (expr, arguments) in
|
||||||
|
return_expr_with_par @@ CST.ECall const
|
||||||
|
)
|
||||||
|
| E_literal literal ->
|
||||||
|
(match literal with
|
||||||
|
Literal_unit -> return_expr @@ CST.EUnit (wrap (rg,rg))
|
||||||
|
| Literal_int i -> return_expr @@ CST.EArith (Int (wrap ("",i)))
|
||||||
|
| Literal_nat n -> return_expr @@ CST.EArith (Nat (wrap ("",n)))
|
||||||
|
| Literal_timestamp time ->
|
||||||
|
let time = Tezos_utils.Time.Protocol.to_notation @@
|
||||||
|
Tezos_utils.Time.Protocol.of_seconds @@ Z.to_int64 time in
|
||||||
|
(* TODO combinators for CSTs. *)
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_timestamp () in
|
||||||
|
let time = CST.EString (String (wrap time)) in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (time, rg, ty))
|
||||||
|
| Literal_mutez mtez -> return_expr @@ CST.EArith (Mutez (wrap ("",mtez)))
|
||||||
|
| Literal_string (Standard str) -> return_expr @@ CST.EString (String (wrap str))
|
||||||
|
| Literal_string (Verbatim ver) -> return_expr @@ CST.EString (Verbatim (wrap ver))
|
||||||
|
| Literal_bytes b ->
|
||||||
|
let b = Hex.of_bytes b in
|
||||||
|
let s = Hex.to_string b in
|
||||||
|
return_expr @@ CST.EBytes (wrap (s,b))
|
||||||
|
| Literal_address addr ->
|
||||||
|
let addr = CST.EString (String (wrap addr)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_address () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (addr,rg,ty))
|
||||||
|
| Literal_signature sign ->
|
||||||
|
let sign = CST.EString (String (wrap sign)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_signature () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (sign,rg,ty))
|
||||||
|
| Literal_key k ->
|
||||||
|
let k = CST.EString (String (wrap k)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_key () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (k,rg,ty))
|
||||||
|
| Literal_key_hash kh ->
|
||||||
|
let kh = CST.EString (String (wrap kh)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_key_hash () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (kh,rg,ty))
|
||||||
|
| Literal_chain_id _
|
||||||
|
| Literal_void
|
||||||
|
| Literal_operation _ ->
|
||||||
|
failwith "chain_id, void, operation are not created currently ?"
|
||||||
|
)
|
||||||
|
| E_application {lamb;args} ->
|
||||||
|
let%bind lamb = decompile_expression lamb in
|
||||||
|
let%bind args = map List.Ne.of_list @@
|
||||||
|
bind (bind_map_list decompile_expression) @@
|
||||||
|
get_e_tuple args
|
||||||
|
in
|
||||||
|
return_expr @@ CST.ECall (wrap (lamb,args))
|
||||||
|
| E_lambda lambda ->
|
||||||
|
let%bind (binders,_lhs_type,_block_with,body) = decompile_lambda lambda in
|
||||||
|
let fun_expr : CST.fun_expr = {kwd_fun=rg;binders;lhs_type=None;arrow=rg;body} in
|
||||||
|
return_expr_with_par @@ CST.EFun (wrap @@ fun_expr)
|
||||||
|
| E_recursive _ ->
|
||||||
|
failwith "corner case : annonymous recursive function"
|
||||||
|
| E_let_in {let_binder;rhs;let_result;inline} ->
|
||||||
|
let var = CST.PVar (decompile_variable @@ fst let_binder) in
|
||||||
|
let binders = (var,[]) in
|
||||||
|
let%bind lhs_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) @@ snd let_binder in
|
||||||
|
let%bind let_rhs = decompile_expression rhs in
|
||||||
|
let binding : CST.let_binding = {binders;lhs_type;eq=rg;let_rhs} in
|
||||||
|
let%bind body = decompile_expression let_result in
|
||||||
|
let attributes = decompile_attributes inline in
|
||||||
|
let lin : CST.let_in = {kwd_let=rg;kwd_rec=None;binding;kwd_in=rg;body;attributes} in
|
||||||
|
return_expr @@ CST.ELetIn (wrap lin)
|
||||||
|
| E_raw_code {language; code} ->
|
||||||
|
let language = wrap @@ wrap @@ language in
|
||||||
|
let%bind code = decompile_expression code in
|
||||||
|
let ci : CST.code_inj = {language;code;rbracket=rg} in
|
||||||
|
return_expr @@ CST.ECodeInj (wrap ci)
|
||||||
|
| E_constructor {constructor;element} ->
|
||||||
|
let Constructor constr = constructor in
|
||||||
|
let constr = wrap constr in
|
||||||
|
let%bind element = decompile_expression element in
|
||||||
|
return_expr_with_par @@ CST.EConstr (EConstrApp (wrap (constr, Some element)))
|
||||||
|
| E_matching {matchee; cases} ->
|
||||||
|
let%bind expr = decompile_expression matchee in
|
||||||
|
let%bind cases = decompile_matching_cases cases in
|
||||||
|
let cases : _ CST.case = {kwd_match=rg;expr;kwd_with=rg;lead_vbar=None;cases} in
|
||||||
|
return_expr @@ CST.ECase (wrap cases)
|
||||||
|
| E_record record ->
|
||||||
|
let record = AST.LMap.to_kv_list record in
|
||||||
|
let aux (AST.Label str, expr) =
|
||||||
|
let field_name = wrap str in
|
||||||
|
let%bind field_expr = decompile_expression expr in
|
||||||
|
let field : CST.field_assign = {field_name;assignment=rg;field_expr} in
|
||||||
|
ok @@ wrap field
|
||||||
|
in
|
||||||
|
let%bind record = bind_map_list aux record in
|
||||||
|
let%bind record = list_to_nsepseq record in
|
||||||
|
let record = ne_inject braces record in
|
||||||
|
(* why is the record not empty ? *)
|
||||||
|
return_expr @@ CST.ERecord (wrap record)
|
||||||
|
| E_accessor {record; path} ->
|
||||||
|
(match List.rev path with
|
||||||
|
Access_map e :: [] ->
|
||||||
|
let%bind map = decompile_expression record in
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let arg = e,[map] in
|
||||||
|
return_expr @@ CST.ECall( wrap (CST.EVar (wrap "Map.find_opt"), arg))
|
||||||
|
| Access_map e :: lst ->
|
||||||
|
let path = List.rev lst in
|
||||||
|
let%bind field_path = bind list_to_nsepseq @@ bind_map_list decompile_to_selection path in
|
||||||
|
let%bind struct_name = map (decompile_variable) @@ get_e_variable record in
|
||||||
|
let proj : CST.projection = {struct_name;selector=rg;field_path} in
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let arg = e,[CST.EProj (wrap proj)] in
|
||||||
|
return_expr @@ CST.ECall( wrap (CST.EVar (wrap "Map.find_opt"), arg))
|
||||||
|
| _ ->
|
||||||
|
let%bind field_path = bind list_to_nsepseq @@ bind_map_list decompile_to_selection path in
|
||||||
|
let%bind struct_name = map (decompile_variable) @@ get_e_variable record in
|
||||||
|
let proj : CST.projection = {struct_name;selector=rg;field_path} in
|
||||||
|
return_expr @@ CST.EProj (wrap proj)
|
||||||
|
)
|
||||||
|
(* Update on multiple field of the same record. may be removed by adding sugar *)
|
||||||
|
| E_update {record={expression_content=E_update _;_} as record;path;update} ->
|
||||||
|
let%bind record = decompile_expression record in
|
||||||
|
let%bind (record,updates) = match record with
|
||||||
|
CST.EUpdate {value;_} -> ok @@ (value.record,value.updates)
|
||||||
|
| _ -> failwith @@ Format.asprintf "Inpossible case %a" AST.PP.expression expr
|
||||||
|
in
|
||||||
|
let%bind var,path = match path with
|
||||||
|
Access_record var::path -> ok @@ (var,path)
|
||||||
|
| _ -> failwith "Impossible case %a"
|
||||||
|
in
|
||||||
|
let%bind field_path = decompile_to_path (Var.of_name var) path in
|
||||||
|
let%bind field_expr = decompile_expression update in
|
||||||
|
let field_assign : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = updates.value.ne_elements in
|
||||||
|
let updates = wrap @@ ne_inject braces @@ npseq_cons (wrap @@ field_assign) updates in
|
||||||
|
let update : CST.update = {lbrace=rg;record;kwd_with=rg;updates;rbrace=rg} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap @@ update)
|
||||||
|
| E_update {record; path; update} ->
|
||||||
|
let%bind record = map (decompile_variable) @@ get_e_variable record in
|
||||||
|
let%bind field_expr = decompile_expression update in
|
||||||
|
let (struct_name,field_path) = List.Ne.of_list path in
|
||||||
|
(match field_path with
|
||||||
|
[] ->
|
||||||
|
(match struct_name with
|
||||||
|
Access_record name ->
|
||||||
|
let record : CST.path = Name record in
|
||||||
|
let field_path = CST.Name (wrap name) in
|
||||||
|
let update : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = wrap @@ ne_inject braces @@ (wrap update,[]) in
|
||||||
|
let update : CST.update = {lbrace=rg;record;kwd_with=rg;updates;rbrace=rg} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap update)
|
||||||
|
| Access_tuple i ->
|
||||||
|
let record : CST.path = Name record in
|
||||||
|
let field_path = CST.Name (wrap @@ Z.to_string i) in
|
||||||
|
let update : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = wrap @@ ne_inject braces @@ (wrap update,[]) in
|
||||||
|
let update : CST.update = {lbrace=rg;record;kwd_with=rg;updates;rbrace=rg} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap update)
|
||||||
|
| Access_map e ->
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let arg = field_expr,[e; CST.EVar record] in
|
||||||
|
return_expr @@ CST.ECall (wrap (CST.EVar (wrap "Map.add"), arg))
|
||||||
|
)
|
||||||
|
| _ ->
|
||||||
|
let%bind struct_name = match struct_name with
|
||||||
|
Access_record name -> ok @@ wrap name
|
||||||
|
| Access_tuple i -> ok @@ wrap @@ Z.to_string i
|
||||||
|
| Access_map _ -> failwith @@ Format.asprintf "invalid map update %a" AST.PP.expression expr
|
||||||
|
in
|
||||||
|
(match List.rev field_path with
|
||||||
|
Access_map e :: lst ->
|
||||||
|
let field_path = List.rev lst in
|
||||||
|
let%bind field_path = bind_map_list decompile_to_selection field_path in
|
||||||
|
let%bind field_path = list_to_nsepseq field_path in
|
||||||
|
let field_path : CST.projection = {struct_name; selector=rg;field_path} in
|
||||||
|
let field_path = CST.EProj (wrap @@ field_path) in
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let arg = field_expr, [e; field_path] in
|
||||||
|
return_expr @@ CST.ECall (wrap (CST.EVar (wrap "Map.add"),arg))
|
||||||
|
| _ ->
|
||||||
|
let%bind field_path = bind_map_list decompile_to_selection field_path in
|
||||||
|
let%bind field_path = list_to_nsepseq field_path in
|
||||||
|
let field_path : CST.projection = {struct_name; selector=rg;field_path} in
|
||||||
|
let field_path = CST.Path (wrap @@ field_path) in
|
||||||
|
let record : CST.path = Name record in
|
||||||
|
let update : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = wrap @@ ne_inject braces @@ (wrap update,[]) in
|
||||||
|
let update : CST.update = {lbrace=rg;record;kwd_with=rg;updates;rbrace=rg} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap update)
|
||||||
|
)
|
||||||
|
)
|
||||||
|
| E_ascription {anno_expr;type_annotation} ->
|
||||||
|
let%bind expr = decompile_expression anno_expr in
|
||||||
|
let%bind ty = decompile_type_expr type_annotation in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (expr,rg,ty))
|
||||||
|
| E_cond {condition;then_clause;else_clause} ->
|
||||||
|
let%bind test = decompile_expression condition in
|
||||||
|
let%bind ifso = decompile_expression then_clause in
|
||||||
|
let%bind ifnot = decompile_expression else_clause in
|
||||||
|
let ifnot = Some(rg,ifnot) in
|
||||||
|
let cond : CST.cond_expr = {kwd_if=rg;test;kwd_then=rg;ifso;ifnot} in
|
||||||
|
return_expr @@ CST.ECond (wrap cond)
|
||||||
|
| E_sequence {expr1;expr2} ->
|
||||||
|
let%bind expr1 = decompile_expression expr1 in
|
||||||
|
let%bind expr2 = decompile_expression expr2 in
|
||||||
|
return_expr @@ CST.ESeq (wrap @@ inject beginEnd @@ list_to_sepseq [expr1; expr2])
|
||||||
|
| E_tuple tuple ->
|
||||||
|
let%bind tuple = bind_map_list decompile_expression tuple in
|
||||||
|
let%bind tuple = list_to_nsepseq tuple in
|
||||||
|
return_expr @@ CST.ETuple (wrap @@ tuple)
|
||||||
|
| E_map map ->
|
||||||
|
let%bind map = bind_map_list (bind_map_pair decompile_expression) map in
|
||||||
|
let aux (k,v) = CST.ETuple (wrap (k,[(rg,v)])) in
|
||||||
|
let map = List.map aux map in
|
||||||
|
(match map with
|
||||||
|
[] -> return_expr @@ CST.EVar (wrap "Big_map.empty")
|
||||||
|
| _ ->
|
||||||
|
let var = CST.EVar (wrap "Map.literal") in
|
||||||
|
return_expr @@ CST.ECall (wrap @@ (var, List.Ne.of_list @@ map))
|
||||||
|
)
|
||||||
|
| E_big_map big_map ->
|
||||||
|
let%bind big_map = bind_map_list (bind_map_pair decompile_expression) big_map in
|
||||||
|
let aux (k,v) = CST.ETuple (wrap (k,[(rg,v)])) in
|
||||||
|
let big_map = List.map aux big_map in
|
||||||
|
(match big_map with
|
||||||
|
[] -> return_expr @@ CST.EVar (wrap "Big_map.empty")
|
||||||
|
| _ ->
|
||||||
|
let var = CST.EVar (wrap "Big_map.literal") in
|
||||||
|
return_expr @@ CST.ECall (wrap @@ (var, List.Ne.of_list @@ big_map))
|
||||||
|
)
|
||||||
|
| E_list lst ->
|
||||||
|
let%bind lst = bind_map_list decompile_expression lst in
|
||||||
|
let lst = list_to_sepseq lst in
|
||||||
|
return_expr @@ CST.EList (EListComp (wrap @@ inject brackets @@ lst))
|
||||||
|
| E_set set ->
|
||||||
|
let%bind set = bind_map_list decompile_expression set in
|
||||||
|
let set = List.Ne.of_list @@ set in
|
||||||
|
let var = CST.EVar (wrap "Set.literal") in
|
||||||
|
return_expr @@ CST.ECall (wrap @@ (var,set))
|
||||||
|
(* We should avoid to generate skip instruction*)
|
||||||
|
| E_skip -> return_expr @@ CST.EUnit (wrap (rg,rg))
|
||||||
|
| E_assign _
|
||||||
|
| E_for _
|
||||||
|
| E_for_each _
|
||||||
|
| E_while _ ->
|
||||||
|
failwith @@ Format.asprintf "Decompiling a imperative construct to CameLIGO %a"
|
||||||
|
AST.PP.expression expr
|
||||||
|
|
||||||
|
and decompile_to_path : AST.expression_variable -> AST.access list -> (CST.path, _) result = fun var access ->
|
||||||
|
let struct_name = decompile_variable var in
|
||||||
|
match access with
|
||||||
|
[] -> ok @@ CST.Name struct_name
|
||||||
|
| lst ->
|
||||||
|
let%bind field_path = bind list_to_nsepseq @@ bind_map_list decompile_to_selection lst in
|
||||||
|
let path : CST.projection = {struct_name;selector=rg;field_path} in
|
||||||
|
ok @@ (CST.Path (wrap @@ path) : CST.path)
|
||||||
|
|
||||||
|
and decompile_to_selection : AST.access -> (CST.selection, _) result = fun access ->
|
||||||
|
match access with
|
||||||
|
Access_tuple index -> ok @@ CST.Component (wrap @@ ("",index))
|
||||||
|
| Access_record str -> ok @@ CST.FieldName (wrap str)
|
||||||
|
| Access_map _ ->
|
||||||
|
failwith @@ Format.asprintf
|
||||||
|
"Can't decompile access_map to selection"
|
||||||
|
|
||||||
|
and decompile_lambda : AST.lambda -> _ = fun {binder;input_type;output_type;result} ->
|
||||||
|
let%bind param_decl = pattern_type binder input_type in
|
||||||
|
let param = (param_decl, []) in
|
||||||
|
let%bind ret_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) output_type in
|
||||||
|
let%bind return = decompile_expression result in
|
||||||
|
ok @@ (param,ret_type,None,return)
|
||||||
|
|
||||||
|
and decompile_attributes = function
|
||||||
|
true -> [wrap "inline"]
|
||||||
|
| false -> []
|
||||||
|
|
||||||
|
and decompile_matching_cases : AST.matching_expr -> ((CST.expr CST.case_clause Region.reg, Region.t) Parser_shared.Utils.nsepseq Region.reg,_) result =
|
||||||
|
fun m ->
|
||||||
|
let%bind cases = match m with
|
||||||
|
Match_variable (var, ty_opt, expr) ->
|
||||||
|
let%bind pattern = pattern_type var ty_opt in
|
||||||
|
let%bind rhs = decompile_expression expr in
|
||||||
|
let case : _ CST.case_clause = {pattern; arrow=rg; rhs}in
|
||||||
|
ok @@ [wrap case]
|
||||||
|
| Match_tuple (lst, ty_opt, expr) ->
|
||||||
|
let%bind tuple = match ty_opt with
|
||||||
|
Some ty_lst ->
|
||||||
|
let aux (var, ty) =
|
||||||
|
let pattern = CST.PVar (decompile_variable var) in
|
||||||
|
let%bind type_expr = decompile_type_expr ty in
|
||||||
|
ok @@ CST.PTyped (wrap @@ CST.{pattern;colon=rg;type_expr})
|
||||||
|
in
|
||||||
|
bind list_to_nsepseq @@ bind_map_list aux @@ List.combine lst ty_lst
|
||||||
|
| None ->
|
||||||
|
let aux var = CST.PVar (decompile_variable var) in
|
||||||
|
list_to_nsepseq @@ List.map aux lst
|
||||||
|
in
|
||||||
|
let pattern : CST.pattern = PTuple (wrap @@ tuple) in
|
||||||
|
let%bind rhs = decompile_expression expr in
|
||||||
|
let case : _ CST.case_clause = {pattern; arrow=rg; rhs}in
|
||||||
|
ok @@ [wrap case]
|
||||||
|
| Match_record _ -> failwith "match_record not availiable yet"
|
||||||
|
| Match_option {match_none;match_some}->
|
||||||
|
let%bind rhs = decompile_expression match_none in
|
||||||
|
let none_case : _ CST.case_clause = {pattern=PConstr (PNone rg);arrow=rg; rhs} in
|
||||||
|
let%bind rhs = decompile_expression @@ snd match_some in
|
||||||
|
let var = CST.PVar (decompile_variable @@ fst match_some)in
|
||||||
|
let some_case : _ CST.case_clause = {pattern=PConstr (PSomeApp (wrap (rg,var)));arrow=rg; rhs} in
|
||||||
|
ok @@ [wrap some_case;wrap none_case]
|
||||||
|
| Match_list {match_nil; match_cons} ->
|
||||||
|
let (hd,tl,expr) = match_cons in
|
||||||
|
let hd = CST.PVar (decompile_variable hd) in
|
||||||
|
let tl = CST.PVar (decompile_variable tl) in
|
||||||
|
let cons = (hd,rg,tl) in
|
||||||
|
let%bind rhs = decompile_expression @@ expr in
|
||||||
|
let cons_case : _ CST.case_clause = {pattern=PList (PCons (wrap cons));arrow=rg; rhs} in
|
||||||
|
let%bind rhs = decompile_expression @@ match_nil in
|
||||||
|
let nil_case : _ CST.case_clause = {pattern=PList (PListComp (wrap @@ inject brackets None));arrow=rg; rhs} in
|
||||||
|
ok @@ [wrap cons_case; wrap nil_case]
|
||||||
|
| Match_variant lst ->
|
||||||
|
let aux ((c,v),e) =
|
||||||
|
let AST.Constructor c = c in
|
||||||
|
let constr = wrap @@ c in
|
||||||
|
let var : CST.pattern = PVar (decompile_variable v) in
|
||||||
|
let tuple = var in
|
||||||
|
let pattern : CST.pattern = PConstr (PConstrApp (wrap (constr, Some tuple))) in
|
||||||
|
let%bind rhs = decompile_expression e in
|
||||||
|
let case : _ CST.case_clause = {pattern;arrow=rg;rhs} in
|
||||||
|
ok @@ wrap case
|
||||||
|
in
|
||||||
|
bind_map_list aux lst
|
||||||
|
in
|
||||||
|
map wrap @@ list_to_nsepseq cases
|
||||||
|
let decompile_declaration : AST.declaration Location.wrap -> (CST.declaration, _) result = fun decl ->
|
||||||
|
let decl = Location.unwrap decl in
|
||||||
|
let wrap value = ({value;region=Region.ghost} : _ Region.reg) in
|
||||||
|
match decl with
|
||||||
|
Declaration_type (name, te) ->
|
||||||
|
let name = decompile_variable name in
|
||||||
|
let%bind type_expr = decompile_type_expr te in
|
||||||
|
ok @@ CST.TypeDecl (wrap (CST.{kwd_type=rg; name; eq=rg; type_expr}))
|
||||||
|
| Declaration_constant (var, ty_opt, inline, expr) ->
|
||||||
|
let attributes : CST.attributes = decompile_attributes inline in
|
||||||
|
let var = CST.PVar (decompile_variable var) in
|
||||||
|
let binders = (var,[]) in
|
||||||
|
match expr.expression_content with
|
||||||
|
E_lambda lambda ->
|
||||||
|
let%bind lhs_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) ty_opt in
|
||||||
|
let%bind let_rhs = decompile_expression @@ AST.make_e @@ AST.E_lambda lambda in
|
||||||
|
let let_binding : CST.let_binding = {binders;lhs_type;eq=rg;let_rhs} in
|
||||||
|
let let_decl : CST.let_decl = wrap (rg,None,let_binding,attributes) in
|
||||||
|
ok @@ CST.Let let_decl
|
||||||
|
| E_recursive {lambda; _} ->
|
||||||
|
let%bind lhs_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) ty_opt in
|
||||||
|
let%bind let_rhs = decompile_expression @@ AST.make_e @@ AST.E_lambda lambda in
|
||||||
|
let let_binding : CST.let_binding = {binders;lhs_type;eq=rg;let_rhs} in
|
||||||
|
let let_decl : CST.let_decl = wrap (rg,Some rg,let_binding,attributes) in
|
||||||
|
ok @@ CST.Let (let_decl)
|
||||||
|
| _ ->
|
||||||
|
let%bind lhs_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) ty_opt in
|
||||||
|
let%bind let_rhs = decompile_expression expr in
|
||||||
|
let let_binding : CST.let_binding = {binders;lhs_type;eq=rg;let_rhs} in
|
||||||
|
let let_decl : CST.let_decl = wrap (rg,None,let_binding,attributes) in
|
||||||
|
ok @@ CST.Let let_decl
|
||||||
|
|
||||||
|
let decompile_program : AST.program -> (CST.ast, _) result = fun prg ->
|
||||||
|
let%bind decl = bind_map_list decompile_declaration prg in
|
||||||
|
let decl = List.Ne.of_list decl in
|
||||||
|
ok @@ ({decl;eof=rg}: CST.ast)
|
@ -418,6 +418,11 @@ let rec compile_expression : CST.expr -> (AST.expr , abs_error) result = fun e -
|
|||||||
let (language, _) = r_split language in
|
let (language, _) = r_split language in
|
||||||
let%bind code = compile_expression ci.code in
|
let%bind code = compile_expression ci.code in
|
||||||
return @@ e_raw_code ~loc language code
|
return @@ e_raw_code ~loc language code
|
||||||
|
| EBlock be ->
|
||||||
|
let be, _ = r_split be in
|
||||||
|
let%bind next = compile_expression be.expr in
|
||||||
|
compile_block ~next be.block
|
||||||
|
|
||||||
|
|
||||||
and compile_matching_expr : type a.(a -> _ result) -> a CST.case_clause CST.reg List.Ne.t -> _ =
|
and compile_matching_expr : type a.(a -> _ result) -> a CST.case_clause CST.reg List.Ne.t -> _ =
|
||||||
fun compiler cases ->
|
fun compiler cases ->
|
||||||
@ -497,11 +502,11 @@ fun compiler cases ->
|
|||||||
return @@ AST.Match_variant (List.combine constrs lst)
|
return @@ AST.Match_variant (List.combine constrs lst)
|
||||||
| (p, _), _ -> fail @@ unsupported_pattern_type p
|
| (p, _), _ -> fail @@ unsupported_pattern_type p
|
||||||
|
|
||||||
let compile_attribute_declaration = function
|
and compile_attribute_declaration = function
|
||||||
None -> return false
|
None -> return false
|
||||||
| Some _ -> return true
|
| Some _ -> return true
|
||||||
|
|
||||||
let compile_parameters (params : CST.parameters) =
|
and compile_parameters (params : CST.parameters) =
|
||||||
let compile_param_decl (param : CST.param_decl) =
|
let compile_param_decl (param : CST.param_decl) =
|
||||||
match param with
|
match param with
|
||||||
ParamConst pc ->
|
ParamConst pc ->
|
||||||
@ -519,10 +524,10 @@ let compile_parameters (params : CST.parameters) =
|
|||||||
let params = npseq_to_list params.inside in
|
let params = npseq_to_list params.inside in
|
||||||
bind_map_list compile_param_decl params
|
bind_map_list compile_param_decl params
|
||||||
|
|
||||||
let rec compile_instruction : ?next: AST.expression -> CST.instruction -> _ result = fun ?next instruction ->
|
and compile_instruction : ?next: AST.expression -> CST.instruction -> _ result = fun ?next instruction ->
|
||||||
let return expr = match next with
|
let return expr = match next with
|
||||||
Some e -> return @@ e_sequence expr e
|
Some e -> ok @@ e_sequence expr e
|
||||||
| None -> return expr
|
| None -> ok @@ expr
|
||||||
in
|
in
|
||||||
let compile_tuple_expression (tuple_expr : CST.tuple_expr) =
|
let compile_tuple_expression (tuple_expr : CST.tuple_expr) =
|
||||||
let (lst, loc) = r_split tuple_expr in
|
let (lst, loc) = r_split tuple_expr in
|
||||||
@ -734,16 +739,13 @@ and compile_block : ?next:AST.expression -> CST.block CST.reg -> _ result = fun
|
|||||||
Some block -> return block
|
Some block -> return block
|
||||||
| None -> fail @@ block_start_with_attribute block
|
| None -> fail @@ block_start_with_attribute block
|
||||||
|
|
||||||
and compile_fun_decl ({kwd_recursive; fun_name; param; ret_type; block_with; return=r; attributes}: CST.fun_decl) =
|
and compile_fun_decl ({kwd_recursive; fun_name; param; ret_type; return=r; attributes}: CST.fun_decl) =
|
||||||
let%bind attr = compile_attribute_declaration attributes in
|
let%bind attr = compile_attribute_declaration attributes in
|
||||||
let (fun_name, loc) = r_split fun_name in
|
let (fun_name, loc) = r_split fun_name in
|
||||||
let%bind ret_type = bind_map_option (compile_type_expression <@ snd) ret_type in
|
let%bind ret_type = bind_map_option (compile_type_expression <@ snd) ret_type in
|
||||||
let%bind param = compile_parameters param in
|
let%bind param = compile_parameters param in
|
||||||
let%bind r = compile_expression r in
|
let%bind result = compile_expression r in
|
||||||
let (param, param_type) = List.split param in
|
let (param, param_type) = List.split param in
|
||||||
let%bind body = Option.unopt ~default:(return r) @@
|
|
||||||
Option.map (compile_block ~next:r <@ fst) block_with
|
|
||||||
in
|
|
||||||
(* This handle the parameter case *)
|
(* This handle the parameter case *)
|
||||||
let (lambda,fun_type) = (match param_type with
|
let (lambda,fun_type) = (match param_type with
|
||||||
ty::[] ->
|
ty::[] ->
|
||||||
@ -751,18 +753,18 @@ and compile_fun_decl ({kwd_recursive; fun_name; param; ret_type; block_with; ret
|
|||||||
binder = (Var.of_name @@ List.hd param);
|
binder = (Var.of_name @@ List.hd param);
|
||||||
input_type = ty ;
|
input_type = ty ;
|
||||||
output_type = ret_type ;
|
output_type = ret_type ;
|
||||||
result = body;
|
result;
|
||||||
} in
|
} in
|
||||||
lambda,Option.map (fun (a,b) -> t_function a b)@@ Option.bind_pair (ty,ret_type)
|
lambda,Option.map (fun (a,b) -> t_function a b)@@ Option.bind_pair (ty,ret_type)
|
||||||
| lst ->
|
| lst ->
|
||||||
let lst = Option.bind_list lst in
|
let lst = Option.bind_list lst in
|
||||||
let input_type = Option.map t_tuple lst in
|
let input_type = Option.map t_tuple lst in
|
||||||
let binder = Var.fresh ~name:"parameter" () in
|
let binder = Var.fresh ~name:"parameters" () in
|
||||||
let lambda : AST.lambda = {
|
let lambda : AST.lambda = {
|
||||||
binder;
|
binder;
|
||||||
input_type = input_type;
|
input_type = input_type;
|
||||||
output_type = ret_type;
|
output_type = ret_type;
|
||||||
result = e_matching_tuple_ez (e_variable binder) param lst body;
|
result = e_matching_tuple_ez (e_variable binder) param lst result;
|
||||||
} in
|
} in
|
||||||
lambda,Option.map (fun (a,b) -> t_function a b)@@ Option.bind_pair (input_type,ret_type)
|
lambda,Option.map (fun (a,b) -> t_function a b)@@ Option.bind_pair (input_type,ret_type)
|
||||||
)
|
)
|
||||||
|
660
src/passes/03-tree_abstraction/pascaligo/decompiler.ml
Normal file
660
src/passes/03-tree_abstraction/pascaligo/decompiler.ml
Normal file
@ -0,0 +1,660 @@
|
|||||||
|
module AST = Ast_imperative
|
||||||
|
module CST = Cst.Pascaligo
|
||||||
|
module Predefined = Predefined.Tree_abstraction.Pascaligo
|
||||||
|
|
||||||
|
open Trace
|
||||||
|
|
||||||
|
(* General tools *)
|
||||||
|
let (<@) f g x = f (g x)
|
||||||
|
|
||||||
|
(* Utils *)
|
||||||
|
let rg = Region.ghost
|
||||||
|
let wrap : type a. a -> a CST.reg = fun value -> {value;region=rg}
|
||||||
|
let list_to_sepseq lst =
|
||||||
|
match lst with
|
||||||
|
[] -> None
|
||||||
|
| hd :: lst ->
|
||||||
|
let aux e = (rg, e) in
|
||||||
|
Some (hd, List.map aux lst)
|
||||||
|
let list_to_nsepseq lst =
|
||||||
|
match list_to_sepseq lst with
|
||||||
|
Some s -> ok @@ s
|
||||||
|
| None -> failwith "List is not a non_empty list"
|
||||||
|
let nelist_to_npseq (hd, lst) = (hd, List.map (fun e -> (rg, e)) lst)
|
||||||
|
let npseq_cons hd lst = hd,(rg, fst lst)::(snd lst)
|
||||||
|
|
||||||
|
let par a = CST.{lpar=rg;inside=a;rpar=rg}
|
||||||
|
let braces a = CST.{lbrace=rg;inside=a;rbrace=rg}
|
||||||
|
let brackets a = CST.{lbracket=rg;inside=a;rbracket=rg}
|
||||||
|
let inject kind a = CST.{kind;enclosing=Brackets (rg,rg);elements=a;terminator=Some(rg)}
|
||||||
|
let ne_inject kind a = CST.{kind;enclosing=Brackets (rg,rg);ne_elements=a;terminator=Some(rg)}
|
||||||
|
let prefix_colon a = (rg, a)
|
||||||
|
let suffix_with a = (a, rg)
|
||||||
|
let to_block a = CST.{enclosing=Block (rg,rg,rg);statements=a;terminator=Some rg}
|
||||||
|
let empty_block = to_block (CST.Instr (CST.Skip rg),[])
|
||||||
|
|
||||||
|
(* Decompiler *)
|
||||||
|
|
||||||
|
let decompile_variable : type a. a Var.t -> CST.variable = fun var ->
|
||||||
|
let var = Format.asprintf "%a" Var.pp var in
|
||||||
|
if String.contains var '#' then
|
||||||
|
let var = String.split_on_char '#' var in
|
||||||
|
wrap @@ "gen__" ^ (String.concat "" var)
|
||||||
|
else
|
||||||
|
if String.length var > 4 && String.equal "gen__" @@ String.sub var 0 5 then
|
||||||
|
wrap @@ "user__" ^ var
|
||||||
|
else
|
||||||
|
wrap @@ var
|
||||||
|
|
||||||
|
let rec decompile_type_expr : AST.type_expression -> _ result = fun te ->
|
||||||
|
let return te = ok @@ te in
|
||||||
|
match te.type_content with
|
||||||
|
T_sum sum ->
|
||||||
|
let sum = AST.CMap.to_kv_list sum in
|
||||||
|
let aux (AST.Constructor c, AST.{ctor_type;_}) =
|
||||||
|
let constr = wrap c in
|
||||||
|
let%bind arg = decompile_type_expr ctor_type in
|
||||||
|
let arg = Some (rg, arg) in
|
||||||
|
let variant : CST.variant = {constr;arg} in
|
||||||
|
ok @@ wrap variant
|
||||||
|
in
|
||||||
|
let%bind sum = bind_map_list aux sum in
|
||||||
|
let%bind sum = list_to_nsepseq sum in
|
||||||
|
return @@ CST.TSum (wrap sum)
|
||||||
|
| T_record record ->
|
||||||
|
let record = AST.LMap.to_kv_list record in
|
||||||
|
let aux (AST.Label c, AST.{field_type;_}) =
|
||||||
|
let field_name = wrap c in
|
||||||
|
let colon = rg in
|
||||||
|
let%bind field_type = decompile_type_expr field_type in
|
||||||
|
let variant : CST.field_decl = {field_name;colon;field_type} in
|
||||||
|
ok @@ wrap variant
|
||||||
|
in
|
||||||
|
let%bind record = bind_map_list aux record in
|
||||||
|
let%bind record = list_to_nsepseq record in
|
||||||
|
return @@ CST.TRecord (wrap @@ ne_inject (NEInjRecord rg) record)
|
||||||
|
| T_tuple tuple ->
|
||||||
|
let%bind tuple = bind_map_list decompile_type_expr tuple in
|
||||||
|
let%bind tuple = list_to_nsepseq @@ tuple in
|
||||||
|
return @@ CST.TProd (wrap tuple)
|
||||||
|
| T_arrow {type1;type2} ->
|
||||||
|
let%bind type1 = decompile_type_expr type1 in
|
||||||
|
let%bind type2 = decompile_type_expr type2 in
|
||||||
|
let arrow = (type1, rg, type2) in
|
||||||
|
return @@ CST.TFun (wrap arrow)
|
||||||
|
| T_variable var ->
|
||||||
|
let var = decompile_variable var in
|
||||||
|
return @@ CST.TVar (var)
|
||||||
|
| T_constant const ->
|
||||||
|
let const = Predefined.type_constant_to_string const in
|
||||||
|
return @@ CST.TVar (wrap const)
|
||||||
|
| T_operator (operator, lst) ->
|
||||||
|
let operator = wrap @@ Predefined.type_operator_to_string operator in
|
||||||
|
let%bind lst = bind_map_list decompile_type_expr lst in
|
||||||
|
let%bind lst = list_to_nsepseq lst in
|
||||||
|
let lst : _ CST.par = {lpar=rg;inside=lst;rpar=rg} in
|
||||||
|
return @@ CST.TApp (wrap (operator,wrap lst))
|
||||||
|
| T_annoted _annot ->
|
||||||
|
failwith "let's work on it later"
|
||||||
|
|
||||||
|
let get_e_variable : AST.expression -> _ result = fun expr ->
|
||||||
|
match expr.expression_content with
|
||||||
|
E_variable var -> ok @@ var
|
||||||
|
| _ -> failwith @@
|
||||||
|
Format.asprintf "%a should be a variable expression"
|
||||||
|
AST.PP.expression expr
|
||||||
|
|
||||||
|
let rec get_e_accessor : AST.expression -> _ result = fun expr ->
|
||||||
|
match expr.expression_content with
|
||||||
|
E_variable var -> ok @@ (var, [])
|
||||||
|
| E_accessor {record;path} ->
|
||||||
|
let%bind (var, lst) = get_e_accessor record in
|
||||||
|
ok @@ (var, lst @ path)
|
||||||
|
| _ -> failwith @@
|
||||||
|
Format.asprintf "%a should be a variable expression"
|
||||||
|
AST.PP.expression expr
|
||||||
|
|
||||||
|
let get_e_tuple : AST.expression -> _ result = fun expr ->
|
||||||
|
match expr.expression_content with
|
||||||
|
E_tuple tuple -> ok @@ tuple
|
||||||
|
| E_variable _
|
||||||
|
| E_literal _
|
||||||
|
| E_constant _
|
||||||
|
| E_lambda _ -> ok @@ [expr]
|
||||||
|
| _ -> failwith @@
|
||||||
|
Format.asprintf "%a should be a tuple expression"
|
||||||
|
AST.PP.expression expr
|
||||||
|
type eos =
|
||||||
|
| Expression
|
||||||
|
| Statements
|
||||||
|
|
||||||
|
type state = Cst_pascaligo.ParserLog.state
|
||||||
|
|
||||||
|
let statements_of_expression : CST.expr -> CST.statement List.Ne.t option = fun stat ->
|
||||||
|
match stat with
|
||||||
|
| CST.ECall call -> Some (CST.Instr (CST.ProcCall call), [])
|
||||||
|
| _ -> None
|
||||||
|
|
||||||
|
let rec decompile_expression : AST.expression -> _ result = fun e ->
|
||||||
|
let%bind (block,expr) = decompile_to_block e in
|
||||||
|
match expr with
|
||||||
|
Some expr ->
|
||||||
|
( match block with
|
||||||
|
Some block ->
|
||||||
|
let block = wrap @@ block in
|
||||||
|
ok @@ CST.EBlock (wrap @@ CST.{block;kwd_with=rg;expr})
|
||||||
|
| None -> ok @@ expr
|
||||||
|
)
|
||||||
|
| None ->
|
||||||
|
failwith @@ Format.asprintf
|
||||||
|
"An expression was expected, but this was decompile to statements. \n
|
||||||
|
Expr : %a
|
||||||
|
Loc : %a"
|
||||||
|
AST.PP.expression e
|
||||||
|
Location.pp e.location
|
||||||
|
|
||||||
|
and decompile_statements : AST.expression -> _ result = fun expr ->
|
||||||
|
let%bind (stat,_) = decompile_eos Statements expr in
|
||||||
|
match stat with
|
||||||
|
Some stat -> ok @@ stat
|
||||||
|
| None ->
|
||||||
|
failwith @@ Format.asprintf
|
||||||
|
"Statements was expected, but this was decompile to expression. \n
|
||||||
|
Expr : %a
|
||||||
|
Loc : %a"
|
||||||
|
AST.PP.expression expr
|
||||||
|
Location.pp expr.location
|
||||||
|
|
||||||
|
and decompile_to_block : AST.expression -> _ result = fun expr ->
|
||||||
|
let to_block a = CST.{enclosing=Block (rg,rg,rg);statements=a;terminator=Some rg} in
|
||||||
|
let%bind (stats,next) = decompile_eos Expression expr in
|
||||||
|
let block = Option.map (to_block <@ nelist_to_npseq) stats in
|
||||||
|
ok @@ (block, next)
|
||||||
|
|
||||||
|
and decompile_to_tuple_expr : AST.expression list -> (CST.tuple_expr,_) result = fun expr ->
|
||||||
|
let%bind tuple_expr = bind_map_list decompile_expression expr in
|
||||||
|
let%bind tuple_expr = list_to_nsepseq tuple_expr in
|
||||||
|
let tuple_expr : CST.tuple_expr = wrap @@ par @@ tuple_expr in
|
||||||
|
ok @@ tuple_expr
|
||||||
|
|
||||||
|
and decompile_eos : eos -> AST.expression -> ((CST.statement List.Ne.t option)* (CST.expr option), _) result = fun output expr ->
|
||||||
|
let return (a,b) = ok @@ (a,b) in
|
||||||
|
let return_expr expr = return @@ (None, Some expr) in
|
||||||
|
let return_expr_with_par expr = return_expr @@ CST.EPar (wrap @@ par @@ expr) in
|
||||||
|
let return_stat stat = return @@ (Some stat, None) in
|
||||||
|
let return_stat_ez stat = return_stat @@ (stat, []) in
|
||||||
|
let return_inst inst = return_stat_ez @@ CST.Instr inst in
|
||||||
|
match expr.expression_content with
|
||||||
|
E_variable name ->
|
||||||
|
let var = decompile_variable name in
|
||||||
|
return_expr @@ CST.EVar (var)
|
||||||
|
| E_constant {cons_name; arguments} ->
|
||||||
|
let expr = CST.EVar (wrap @@ Predefined.constant_to_string cons_name) in
|
||||||
|
(match arguments with
|
||||||
|
[] -> return_expr @@ expr
|
||||||
|
| _ ->
|
||||||
|
let%bind arguments = decompile_to_tuple_expr arguments in
|
||||||
|
let const : CST.fun_call = wrap (expr, arguments) in
|
||||||
|
(match output with
|
||||||
|
Expression -> return_expr (CST.ECall const)
|
||||||
|
| Statements -> return_inst (CST.ProcCall const)
|
||||||
|
)
|
||||||
|
)
|
||||||
|
| E_literal literal ->
|
||||||
|
(match literal with
|
||||||
|
Literal_unit -> return_expr @@ CST.EUnit rg
|
||||||
|
| Literal_int i -> return_expr @@ CST.EArith (Int (wrap ("",i)))
|
||||||
|
| Literal_nat n -> return_expr @@ CST.EArith (Nat (wrap ("",n)))
|
||||||
|
| Literal_timestamp time ->
|
||||||
|
let time = Tezos_utils.Time.Protocol.to_notation @@
|
||||||
|
Tezos_utils.Time.Protocol.of_seconds @@ Z.to_int64 time in
|
||||||
|
(* TODO combinators for CSTs. *)
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_timestamp () in
|
||||||
|
let time = CST.EString (String (wrap time)) in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (time, rg, ty))
|
||||||
|
| Literal_mutez mtez -> return_expr @@ CST.EArith (Mutez (wrap ("",mtez)))
|
||||||
|
| Literal_string (Standard str) -> return_expr @@ CST.EString (String (wrap str))
|
||||||
|
| Literal_string (Verbatim ver) -> return_expr @@ CST.EString (Verbatim (wrap ver))
|
||||||
|
| Literal_bytes b ->
|
||||||
|
let b = Hex.of_bytes b in
|
||||||
|
let s = Hex.to_string b in
|
||||||
|
return_expr @@ CST.EBytes (wrap (s,b))
|
||||||
|
| Literal_address addr ->
|
||||||
|
let addr = CST.EString (String (wrap addr)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_address () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (addr,rg,ty))
|
||||||
|
| Literal_signature sign ->
|
||||||
|
let sign = CST.EString (String (wrap sign)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_signature () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (sign,rg,ty))
|
||||||
|
| Literal_key k ->
|
||||||
|
let k = CST.EString (String (wrap k)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_key () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (k,rg,ty))
|
||||||
|
| Literal_key_hash kh ->
|
||||||
|
let kh = CST.EString (String (wrap kh)) in
|
||||||
|
let%bind ty = decompile_type_expr @@ AST.t_key_hash () in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (kh,rg,ty))
|
||||||
|
| Literal_chain_id _
|
||||||
|
| Literal_void
|
||||||
|
| Literal_operation _ ->
|
||||||
|
failwith "chain_id, void, operation are not created currently ?"
|
||||||
|
)
|
||||||
|
| E_application {lamb;args} ->
|
||||||
|
let%bind lamb = decompile_expression lamb in
|
||||||
|
let%bind args = bind decompile_to_tuple_expr @@ get_e_tuple args in
|
||||||
|
(match output with
|
||||||
|
Expression ->
|
||||||
|
return_expr @@ CST.ECall (wrap (lamb,args))
|
||||||
|
| Statements ->
|
||||||
|
return_inst @@ CST.ProcCall (wrap (lamb,args))
|
||||||
|
)
|
||||||
|
| E_lambda lambda ->
|
||||||
|
let%bind (param,ret_type,return) = decompile_lambda lambda in
|
||||||
|
let fun_expr : CST.fun_expr = {kwd_function=rg;param;ret_type;kwd_is=rg;return} in
|
||||||
|
return_expr_with_par @@ CST.EFun (wrap @@ fun_expr)
|
||||||
|
| E_recursive _ ->
|
||||||
|
failwith "corner case : annonymous recursive function"
|
||||||
|
| E_let_in {let_binder;rhs={expression_content=E_update {record={expression_content=E_variable var;_};path;update};_};let_result;inline=_} when Var.equal (fst let_binder) var ->
|
||||||
|
let%bind lhs = (match List.rev path with
|
||||||
|
Access_map e :: path ->
|
||||||
|
let%bind path = decompile_to_path var @@ List.rev path in
|
||||||
|
let%bind index = map (wrap <@ brackets) @@ decompile_expression e in
|
||||||
|
let mlu : CST.map_lookup = {path; index} in
|
||||||
|
ok @@ CST.MapPath (wrap @@ mlu)
|
||||||
|
| _ ->
|
||||||
|
let%bind path = decompile_to_path var @@ path in
|
||||||
|
ok @@ (CST.Path (path) : CST.lhs)
|
||||||
|
)
|
||||||
|
in
|
||||||
|
let%bind rhs = decompile_expression update in
|
||||||
|
let assign : CST.assignment = {lhs;assign=rg;rhs} in
|
||||||
|
let assign = CST.Instr (CST.Assign (wrap @@ assign)) in
|
||||||
|
let%bind (stat,expr) = decompile_eos output let_result in
|
||||||
|
let stat = (match stat with
|
||||||
|
Some (stat) -> Some (List.Ne.cons assign stat)
|
||||||
|
| None -> Some (assign,[])
|
||||||
|
)
|
||||||
|
in
|
||||||
|
return @@ (stat,expr)
|
||||||
|
| E_let_in {let_binder;rhs;let_result;inline} ->
|
||||||
|
let%bind lin = decompile_to_data_decl let_binder rhs inline in
|
||||||
|
let%bind (lst, expr) = decompile_eos Expression let_result in
|
||||||
|
let lst = match lst with
|
||||||
|
Some lst -> List.Ne.cons (CST.Data lin) lst
|
||||||
|
| None -> (CST.Data lin, [])
|
||||||
|
in
|
||||||
|
return @@ (Some lst, expr)
|
||||||
|
| E_raw_code {language; code} ->
|
||||||
|
let language = wrap @@ wrap @@ language in
|
||||||
|
let%bind code = decompile_expression code in
|
||||||
|
let ci : CST.code_inj = {language;code;rbracket=rg} in
|
||||||
|
return_expr @@ CST.ECodeInj (wrap ci)
|
||||||
|
| E_constructor {constructor;element} ->
|
||||||
|
let Constructor constr = constructor in
|
||||||
|
let constr = wrap constr in
|
||||||
|
let%bind element = bind decompile_to_tuple_expr @@ get_e_tuple element in
|
||||||
|
return_expr_with_par @@ CST.EConstr (ConstrApp (wrap (constr, Some element)))
|
||||||
|
| E_matching {matchee; cases} ->
|
||||||
|
let%bind expr = decompile_expression matchee in
|
||||||
|
(match output with
|
||||||
|
Expression ->
|
||||||
|
let%bind cases = decompile_matching_expr decompile_expression cases in
|
||||||
|
let cases : _ CST.case = {kwd_case=rg;expr;kwd_of=rg;enclosing=End rg;lead_vbar=None;cases} in
|
||||||
|
return_expr @@ CST.ECase (wrap cases)
|
||||||
|
| Statements ->
|
||||||
|
let%bind cases = decompile_matching_expr decompile_if_clause cases in
|
||||||
|
let cases : _ CST.case = {kwd_case=rg;expr;kwd_of=rg;enclosing=End rg;lead_vbar=None;cases} in
|
||||||
|
return_inst @@ CST.CaseInstr (wrap cases)
|
||||||
|
)
|
||||||
|
| E_record record ->
|
||||||
|
let record = AST.LMap.to_kv_list record in
|
||||||
|
let aux (AST.Label str, expr) =
|
||||||
|
let field_name = wrap str in
|
||||||
|
let%bind field_expr = decompile_expression expr in
|
||||||
|
let field : CST.field_assignment = {field_name;assignment=rg;field_expr} in
|
||||||
|
ok @@ wrap field
|
||||||
|
in
|
||||||
|
let%bind record = bind_map_list aux record in
|
||||||
|
let%bind record = list_to_nsepseq record in
|
||||||
|
let record = ne_inject (NEInjRecord rg) record in
|
||||||
|
(* why is the record not empty ? *)
|
||||||
|
return_expr @@ CST.ERecord (wrap record)
|
||||||
|
| E_accessor {record; path} ->
|
||||||
|
(match List.rev path with
|
||||||
|
Access_map e :: [] ->
|
||||||
|
let%bind (var,lst) = get_e_accessor @@ record in
|
||||||
|
let%bind path = decompile_to_path var lst in
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let index = wrap @@ brackets @@ e in
|
||||||
|
let mlu : CST.map_lookup = {path;index} in
|
||||||
|
return_expr @@ CST.EMap(MapLookUp (wrap @@ mlu))
|
||||||
|
| Access_map e :: lst ->
|
||||||
|
let path = List.rev lst in
|
||||||
|
let%bind field_path = bind list_to_nsepseq @@ bind_map_list decompile_to_selection path in
|
||||||
|
let%bind struct_name = map (decompile_variable) @@ get_e_variable record in
|
||||||
|
let proj : CST.projection = {struct_name;selector=rg;field_path} in
|
||||||
|
let path : CST.path = CST.Path (wrap proj) in
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let index = wrap @@ brackets @@ e in
|
||||||
|
let mlu : CST.map_lookup = {path;index} in
|
||||||
|
return_expr @@ CST.EMap(MapLookUp (wrap @@ mlu))
|
||||||
|
| _ ->
|
||||||
|
let%bind field_path = bind list_to_nsepseq @@ bind_map_list decompile_to_selection path in
|
||||||
|
let%bind struct_name = map (decompile_variable) @@ get_e_variable record in
|
||||||
|
let proj : CST.projection = {struct_name;selector=rg;field_path} in
|
||||||
|
return_expr @@ CST.EProj (wrap proj)
|
||||||
|
)
|
||||||
|
(* Update on multiple field of the same record. may be removed by adding sugar *)
|
||||||
|
| E_update {record={expression_content=E_update _;_} as record;path;update} ->
|
||||||
|
let%bind record = decompile_expression record in
|
||||||
|
let%bind (record,updates) = match record with
|
||||||
|
CST.EUpdate {value;_} -> ok @@ (value.record,value.updates)
|
||||||
|
| _ -> failwith @@ Format.asprintf "Inpossible case %a" AST.PP.expression expr
|
||||||
|
in
|
||||||
|
let%bind var,path = match path with
|
||||||
|
Access_record var::path -> ok @@ (var,path)
|
||||||
|
| _ -> failwith "Impossible case %a"
|
||||||
|
in
|
||||||
|
let%bind field_path = decompile_to_path (Var.of_name var) path in
|
||||||
|
let%bind field_expr = decompile_expression update in
|
||||||
|
let field_assign : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = updates.value.ne_elements in
|
||||||
|
let updates = wrap @@ ne_inject (NEInjRecord rg) @@ npseq_cons (wrap @@ field_assign) updates in
|
||||||
|
let update : CST.update = {record;kwd_with=rg;updates} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap @@ update)
|
||||||
|
| E_update {record; path; update} ->
|
||||||
|
let%bind record = map (decompile_variable) @@ get_e_variable record in
|
||||||
|
let%bind field_expr = decompile_expression update in
|
||||||
|
let (struct_name,field_path) = List.Ne.of_list path in
|
||||||
|
(match field_path with
|
||||||
|
[] ->
|
||||||
|
(match struct_name with
|
||||||
|
Access_record name ->
|
||||||
|
let record : CST.path = Name record in
|
||||||
|
let field_path = CST.Name (wrap name) in
|
||||||
|
let update : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = wrap @@ ne_inject (NEInjRecord rg) @@ (wrap update,[]) in
|
||||||
|
let update : CST.update = {record;kwd_with=rg;updates;} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap update)
|
||||||
|
| Access_tuple _ -> failwith @@ Format.asprintf "invalid tuple update %a" AST.PP.expression expr
|
||||||
|
| Access_map e ->
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let arg : CST.tuple_expr = wrap @@ par @@ nelist_to_npseq (field_expr,[e; CST.EVar record]) in
|
||||||
|
return_expr @@ CST.ECall (wrap (CST.EVar (wrap "Map.add"), arg))
|
||||||
|
)
|
||||||
|
| _ ->
|
||||||
|
let%bind struct_name = match struct_name with
|
||||||
|
Access_record name -> ok @@ wrap name
|
||||||
|
| Access_tuple _ -> failwith @@ Format.asprintf "invalid tuple update %a" AST.PP.expression expr
|
||||||
|
| Access_map _ -> failwith @@ Format.asprintf "invalid map update %a" AST.PP.expression expr
|
||||||
|
in
|
||||||
|
(match List.rev field_path with
|
||||||
|
Access_map e :: lst ->
|
||||||
|
let field_path = List.rev lst in
|
||||||
|
let%bind field_path = bind_map_list decompile_to_selection field_path in
|
||||||
|
let%bind field_path = list_to_nsepseq field_path in
|
||||||
|
let field_path : CST.projection = {struct_name; selector=rg;field_path} in
|
||||||
|
let field_path = CST.EProj (wrap @@ field_path) in
|
||||||
|
let%bind e = decompile_expression e in
|
||||||
|
let arg = wrap @@ par @@ nelist_to_npseq (field_expr, [e; field_path]) in
|
||||||
|
return_expr @@ CST.ECall (wrap (CST.EVar (wrap "Map.add"),arg))
|
||||||
|
| _ ->
|
||||||
|
let%bind field_path = bind_map_list decompile_to_selection field_path in
|
||||||
|
let%bind field_path = list_to_nsepseq field_path in
|
||||||
|
let field_path : CST.projection = {struct_name; selector=rg;field_path} in
|
||||||
|
let field_path : CST.path = CST.Path (wrap @@ field_path) in
|
||||||
|
let record : CST.path = Name record in
|
||||||
|
let update : CST.field_path_assignment = {field_path;assignment=rg;field_expr} in
|
||||||
|
let updates = wrap @@ ne_inject (NEInjRecord rg) @@ (wrap update,[]) in
|
||||||
|
let update : CST.update = {record;kwd_with=rg;updates;} in
|
||||||
|
return_expr @@ CST.EUpdate (wrap update)
|
||||||
|
)
|
||||||
|
)
|
||||||
|
| E_ascription {anno_expr;type_annotation} ->
|
||||||
|
let%bind expr = decompile_expression anno_expr in
|
||||||
|
let%bind ty = decompile_type_expr type_annotation in
|
||||||
|
return_expr @@ CST.EAnnot (wrap @@ par (expr,rg,ty))
|
||||||
|
| E_cond {condition;then_clause;else_clause} ->
|
||||||
|
let%bind test = decompile_expression condition in
|
||||||
|
(match output with
|
||||||
|
Expression ->
|
||||||
|
let%bind ifso = decompile_expression then_clause in
|
||||||
|
let%bind ifnot = decompile_expression else_clause in
|
||||||
|
let cond : CST.cond_expr = {kwd_if=rg;test;kwd_then=rg;ifso;terminator=Some rg;kwd_else=rg;ifnot} in
|
||||||
|
return_expr @@ CST.ECond (wrap cond)
|
||||||
|
| Statements ->
|
||||||
|
let%bind ifso = decompile_if_clause then_clause in
|
||||||
|
let%bind ifnot = decompile_if_clause else_clause in
|
||||||
|
let cond : CST.conditional = {kwd_if=rg;test;kwd_then=rg;ifso;terminator=Some rg; kwd_else=rg;ifnot} in
|
||||||
|
return_inst @@ CST.Cond (wrap cond)
|
||||||
|
)
|
||||||
|
| E_sequence {expr1;expr2} ->
|
||||||
|
let%bind expr1 = decompile_statements expr1 in
|
||||||
|
let%bind (expr2,next) = decompile_eos Statements expr2 in
|
||||||
|
let expr1 = Option.unopt ~default:expr1 @@ Option.map (List.Ne.append expr1) expr2 in
|
||||||
|
return @@ (Some expr1, next)
|
||||||
|
| E_skip -> return_inst @@ CST.Skip rg
|
||||||
|
| E_tuple tuple ->
|
||||||
|
let%bind tuple = bind_map_list decompile_expression tuple in
|
||||||
|
let%bind tuple = list_to_nsepseq tuple in
|
||||||
|
return_expr @@ CST.ETuple (wrap @@ par tuple)
|
||||||
|
| E_map map ->
|
||||||
|
let%bind map = bind_map_list (bind_map_pair decompile_expression) map in
|
||||||
|
let aux (k,v) =
|
||||||
|
let binding : CST.binding = {source=k;arrow=rg;image=v} in
|
||||||
|
wrap @@ binding
|
||||||
|
in
|
||||||
|
let map = list_to_sepseq @@ List.map aux map in
|
||||||
|
return_expr @@ CST.EMap (MapInj (wrap @@ inject (InjMap rg) @@ map))
|
||||||
|
| E_big_map big_map ->
|
||||||
|
let%bind big_map = bind_map_list (bind_map_pair decompile_expression) big_map in
|
||||||
|
let aux (k,v) =
|
||||||
|
let binding : CST.binding = {source=k;arrow=rg;image=v} in
|
||||||
|
wrap @@ binding
|
||||||
|
in
|
||||||
|
let big_map = list_to_sepseq @@ List.map aux big_map in
|
||||||
|
return_expr @@ CST.EMap (BigMapInj (wrap @@ inject (InjBigMap rg) @@ big_map))
|
||||||
|
| E_list lst ->
|
||||||
|
let%bind lst = bind_map_list decompile_expression lst in
|
||||||
|
let lst = list_to_sepseq lst in
|
||||||
|
return_expr @@ CST.EList (EListComp (wrap @@ inject (InjList rg) @@ lst))
|
||||||
|
| E_set set ->
|
||||||
|
let%bind set = bind_map_list decompile_expression set in
|
||||||
|
let set = list_to_sepseq set in
|
||||||
|
return_expr @@ CST.ESet (SetInj (wrap @@ inject (InjSet rg) @@ set))
|
||||||
|
| E_assign {variable;access_path;expression} ->
|
||||||
|
let%bind lhs = decompile_to_lhs variable access_path in
|
||||||
|
let%bind rhs = decompile_expression expression in
|
||||||
|
let assign : CST.assignment = {lhs;assign=rg;rhs} in
|
||||||
|
return_inst @@ Assign (wrap assign)
|
||||||
|
| E_for {binder;start;final;increment;body} ->
|
||||||
|
let binder = decompile_variable binder in
|
||||||
|
let%bind init = decompile_expression start in
|
||||||
|
let%bind bound = decompile_expression final in
|
||||||
|
let%bind step = decompile_expression increment in
|
||||||
|
let step = Some (rg, step) in
|
||||||
|
let%bind (block,_next) = decompile_to_block body in
|
||||||
|
let block = wrap @@ Option.unopt ~default:(empty_block) block in
|
||||||
|
let fl : CST.for_int = {kwd_for=rg;binder;assign=rg;init;kwd_to=rg;bound;step;block} in
|
||||||
|
return_inst @@ CST.Loop (For (ForInt (wrap fl)))
|
||||||
|
| E_for_each {binder;collection;collection_type;body} ->
|
||||||
|
let var = decompile_variable @@ fst binder in
|
||||||
|
let bind_to = Option.map (fun x -> (rg,decompile_variable x)) @@ snd binder in
|
||||||
|
let%bind expr = decompile_expression collection in
|
||||||
|
let collection = match collection_type with
|
||||||
|
Map -> CST.Map rg | Set -> Set rg | List -> List rg in
|
||||||
|
let%bind (block,_next) = decompile_to_block body in
|
||||||
|
let block = wrap @@ Option.unopt ~default:(empty_block) block in
|
||||||
|
let fc : CST.for_collect = {kwd_for=rg;var;bind_to;kwd_in=rg;collection;expr;block} in
|
||||||
|
return_inst @@ CST.Loop (For (ForCollect (wrap fc)))
|
||||||
|
| E_while {condition;body} ->
|
||||||
|
let%bind cond = decompile_expression condition in
|
||||||
|
let%bind (block,_next) = decompile_to_block body in
|
||||||
|
let block = wrap @@ Option.unopt ~default:(empty_block) block in
|
||||||
|
let loop : CST.while_loop = {kwd_while=rg;cond;block} in
|
||||||
|
return_inst @@ CST.Loop (While (wrap loop))
|
||||||
|
|
||||||
|
and decompile_if_clause : AST.expression -> (CST.if_clause, _) result = fun e ->
|
||||||
|
let%bind clause = decompile_statements e in
|
||||||
|
match clause with
|
||||||
|
CST.Instr instr,[] ->
|
||||||
|
ok @@ CST.ClauseInstr instr
|
||||||
|
| _ ->
|
||||||
|
let clause = nelist_to_npseq clause, Some rg in
|
||||||
|
ok @@ CST.ClauseBlock (ShortBlock (wrap @@ braces @@ clause))
|
||||||
|
|
||||||
|
and decompile_to_data_decl : (AST.expression_variable * AST.type_expression option) -> AST.expression -> bool -> (CST.data_decl, _) result = fun (name,ty_opt) expr inline ->
|
||||||
|
let name = decompile_variable name in
|
||||||
|
let%bind const_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) ty_opt in
|
||||||
|
let attributes : CST.attr_decl option = match inline with
|
||||||
|
true -> Some (wrap @@ ne_inject (NEInjAttr rg) @@ (wrap @@ "inline",[]))
|
||||||
|
| false -> None
|
||||||
|
in
|
||||||
|
let fun_name = name in
|
||||||
|
match expr.expression_content with
|
||||||
|
E_lambda lambda ->
|
||||||
|
let%bind (param,ret_type,return) = decompile_lambda lambda in
|
||||||
|
let fun_decl : CST.fun_decl = {kwd_recursive=None;kwd_function=rg;fun_name;param;ret_type;kwd_is=rg;return;terminator=Some rg;attributes} in
|
||||||
|
ok @@ CST.LocalFun (wrap fun_decl)
|
||||||
|
| E_recursive {lambda; _} ->
|
||||||
|
let%bind (param,ret_type,return) = decompile_lambda lambda in
|
||||||
|
let fun_decl : CST.fun_decl = {kwd_recursive=Some rg;kwd_function=rg;fun_name;param;ret_type;kwd_is=rg;return;terminator=Some rg;attributes} in
|
||||||
|
ok @@ CST.LocalFun (wrap fun_decl)
|
||||||
|
| _ ->
|
||||||
|
let%bind init = decompile_expression expr in
|
||||||
|
let const_decl : CST.const_decl = {kwd_const=rg;name;const_type;equal=rg;init;terminator=Some rg; attributes} in
|
||||||
|
let data_decl : CST.data_decl = LocalConst (wrap const_decl) in
|
||||||
|
ok @@ data_decl
|
||||||
|
|
||||||
|
and decompile_to_lhs : AST.expression_variable -> AST.access list -> (CST.lhs, _) result = fun var access ->
|
||||||
|
match List.rev access with
|
||||||
|
[] -> ok @@ (CST.Path (Name (decompile_variable var)) : CST.lhs)
|
||||||
|
| hd :: tl ->
|
||||||
|
match hd with
|
||||||
|
| AST.Access_map e ->
|
||||||
|
let%bind path = decompile_to_path var @@ List.rev tl in
|
||||||
|
let%bind index = map (wrap <@ brackets) @@ decompile_expression e in
|
||||||
|
let mlu: CST.map_lookup = {path;index} in
|
||||||
|
ok @@ CST.MapPath (wrap @@ mlu)
|
||||||
|
| _ ->
|
||||||
|
let%bind path = decompile_to_path var @@ access in
|
||||||
|
ok @@ (CST.Path (path) : CST.lhs)
|
||||||
|
|
||||||
|
and decompile_to_path : AST.expression_variable -> AST.access list -> (CST.path, _) result = fun var access ->
|
||||||
|
let struct_name = decompile_variable var in
|
||||||
|
match access with
|
||||||
|
[] -> ok @@ CST.Name struct_name
|
||||||
|
| lst ->
|
||||||
|
let%bind field_path = bind list_to_nsepseq @@ bind_map_list decompile_to_selection lst in
|
||||||
|
let path : CST.projection = {struct_name;selector=rg;field_path} in
|
||||||
|
ok @@ (CST.Path (wrap @@ path) : CST.path)
|
||||||
|
|
||||||
|
and decompile_to_selection : AST.access -> (CST.selection, _) result = fun access ->
|
||||||
|
match access with
|
||||||
|
Access_tuple index -> ok @@ CST.Component (wrap @@ ("",index))
|
||||||
|
| Access_record str -> ok @@ CST.FieldName (wrap str)
|
||||||
|
| Access_map _ ->
|
||||||
|
failwith @@ Format.asprintf
|
||||||
|
"Can't decompile access_map to selection"
|
||||||
|
|
||||||
|
and decompile_lambda : AST.lambda -> _ = fun {binder;input_type;output_type;result} ->
|
||||||
|
let var = decompile_variable binder in
|
||||||
|
let%bind param_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) input_type in
|
||||||
|
let param_const : CST.param_const = {kwd_const=rg;var;param_type} in
|
||||||
|
let param_decl : CST.param_decl = ParamConst (wrap param_const) in
|
||||||
|
let param = nelist_to_npseq (param_decl, []) in
|
||||||
|
let param : CST.parameters = wrap @@ par param in
|
||||||
|
let%bind ret_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) output_type in
|
||||||
|
let%bind return = decompile_expression result in
|
||||||
|
ok @@ (param,ret_type,return)
|
||||||
|
|
||||||
|
and decompile_matching_expr : type a.(AST.expr ->(a,_) result) -> AST.matching_expr -> ((a CST.case_clause Region.reg, Region.t) Parser_shared.Utils.nsepseq Region.reg,_) result =
|
||||||
|
fun f m ->
|
||||||
|
let%bind cases = match m with
|
||||||
|
Match_variable (var, _ty_opt, expr) ->
|
||||||
|
let pattern : CST.pattern = PVar (decompile_variable var) in
|
||||||
|
let%bind rhs = f expr in
|
||||||
|
let case : _ CST.case_clause = {pattern; arrow=rg; rhs}in
|
||||||
|
ok @@ [wrap case]
|
||||||
|
| Match_tuple (lst, _ty_opt, expr) ->
|
||||||
|
let aux var = CST.PVar (decompile_variable var) in
|
||||||
|
let%bind tuple = list_to_nsepseq @@ List.map aux lst in
|
||||||
|
let pattern : CST.pattern = PTuple (wrap @@ par @@ tuple) in
|
||||||
|
let%bind rhs = f expr in
|
||||||
|
let case : _ CST.case_clause = {pattern; arrow=rg; rhs}in
|
||||||
|
ok @@ [wrap case]
|
||||||
|
| Match_record _ -> failwith "match_record not availiable yet"
|
||||||
|
| Match_option {match_none;match_some}->
|
||||||
|
let%bind rhs = f match_none in
|
||||||
|
let none_case : _ CST.case_clause = {pattern=PConstr (PNone rg);arrow=rg; rhs} in
|
||||||
|
let%bind rhs = f @@ snd match_some in
|
||||||
|
let var = wrap @@ par @@ CST.PVar (decompile_variable @@ fst match_some)in
|
||||||
|
let some_case : _ CST.case_clause = {pattern=PConstr (PSomeApp (wrap (rg,var)));arrow=rg; rhs} in
|
||||||
|
ok @@ [wrap some_case;wrap none_case]
|
||||||
|
| Match_list {match_nil; match_cons} ->
|
||||||
|
let (hd,tl,expr) = match_cons in
|
||||||
|
let hd = CST.PVar (decompile_variable hd) in
|
||||||
|
let tl = CST.PVar (decompile_variable tl) in
|
||||||
|
let cons = (hd,[rg,tl]) in
|
||||||
|
let%bind rhs = f @@ expr in
|
||||||
|
let cons_case : _ CST.case_clause = {pattern=PList (PCons (wrap cons));arrow=rg; rhs} in
|
||||||
|
let%bind rhs = f @@ match_nil in
|
||||||
|
let nil_case : _ CST.case_clause = {pattern=PList (PNil rg);arrow=rg; rhs} in
|
||||||
|
ok @@ [wrap cons_case; wrap nil_case]
|
||||||
|
| Match_variant lst ->
|
||||||
|
let aux ((c,v),e) =
|
||||||
|
let AST.Constructor c = c in
|
||||||
|
let constr = wrap @@ c in
|
||||||
|
let var : CST.pattern = PVar (decompile_variable v) in
|
||||||
|
let tuple = wrap @@ par @@ (var,[]) in
|
||||||
|
let pattern : CST.pattern = PConstr (PConstrApp (wrap (constr, Some tuple))) in
|
||||||
|
let%bind rhs = f e in
|
||||||
|
let case : _ CST.case_clause = {pattern;arrow=rg;rhs} in
|
||||||
|
ok @@ wrap case
|
||||||
|
in
|
||||||
|
bind_map_list aux lst
|
||||||
|
in
|
||||||
|
map wrap @@ list_to_nsepseq cases
|
||||||
|
let decompile_declaration : AST.declaration Location.wrap -> (CST.declaration, _) result = fun decl ->
|
||||||
|
let decl = Location.unwrap decl in
|
||||||
|
let wrap value = ({value;region=Region.ghost} : _ Region.reg) in
|
||||||
|
match decl with
|
||||||
|
Declaration_type (name, te) ->
|
||||||
|
let kwd_type = Region.ghost
|
||||||
|
and name = decompile_variable name
|
||||||
|
and kwd_is = Region.ghost in
|
||||||
|
let%bind type_expr = decompile_type_expr te in
|
||||||
|
let terminator = Some Region.ghost in
|
||||||
|
ok @@ CST.TypeDecl (wrap (CST.{kwd_type; name; kwd_is; type_expr; terminator}))
|
||||||
|
| Declaration_constant (var, ty_opt, inline, expr) ->
|
||||||
|
let attributes = match inline with
|
||||||
|
true ->
|
||||||
|
let attr = wrap "inline" in
|
||||||
|
let ne_inj : _ CST.ne_injection =
|
||||||
|
{kind=NEInjAttr rg;enclosing=End rg;ne_elements=(attr, []);terminator=Some rg} in
|
||||||
|
let attr_decl = wrap ne_inj in
|
||||||
|
Some attr_decl
|
||||||
|
| false -> None
|
||||||
|
in
|
||||||
|
let name = decompile_variable var in
|
||||||
|
let fun_name = name in
|
||||||
|
match expr.expression_content with
|
||||||
|
E_lambda lambda ->
|
||||||
|
let%bind (param,ret_type,return) = decompile_lambda lambda in
|
||||||
|
let fun_decl : CST.fun_decl = {kwd_recursive=None;kwd_function=rg;fun_name;param;ret_type;kwd_is=rg;return;terminator=Some rg;attributes} in
|
||||||
|
ok @@ CST.FunDecl (wrap fun_decl)
|
||||||
|
| E_recursive {lambda; _} ->
|
||||||
|
let%bind (param,ret_type,return) = decompile_lambda lambda in
|
||||||
|
let fun_decl : CST.fun_decl = {kwd_recursive=Some rg;kwd_function=rg;fun_name;param;ret_type;kwd_is=rg;return;terminator=Some rg;attributes} in
|
||||||
|
ok @@ CST.FunDecl (wrap fun_decl)
|
||||||
|
| _ ->
|
||||||
|
let%bind const_type = bind_map_option (bind_compose (ok <@ prefix_colon) decompile_type_expr) ty_opt in
|
||||||
|
let%bind init = decompile_expression expr in
|
||||||
|
let const_decl : CST.const_decl = {kwd_const=rg;name;const_type;equal=rg;init;terminator=Some rg; attributes} in
|
||||||
|
ok @@ CST.ConstDecl (wrap const_decl)
|
||||||
|
|
||||||
|
let decompile_program : AST.program -> (CST.ast, _) result = fun prg ->
|
||||||
|
let%bind decl = bind_map_list decompile_declaration prg in
|
||||||
|
let decl = List.Ne.of_list decl in
|
||||||
|
ok @@ ({decl;eof=rg}: CST.ast)
|
@ -2,7 +2,11 @@ module CST = Cst.Pascaligo
|
|||||||
module AST = Ast_imperative
|
module AST = Ast_imperative
|
||||||
|
|
||||||
module Compiler = Compiler
|
module Compiler = Compiler
|
||||||
|
module Decompiler = Decompiler
|
||||||
module Errors = Errors
|
module Errors = Errors
|
||||||
|
|
||||||
let compile_program = Compiler.compile_program
|
let compile_program = Compiler.compile_program
|
||||||
let compile_expression = Compiler.compile_expression
|
let compile_expression = Compiler.compile_expression
|
||||||
|
|
||||||
|
let decompile_program = Decompiler.decompile_program
|
||||||
|
let decompile_expression = Decompiler.decompile_expression
|
||||||
|
@ -6,10 +6,14 @@ module Errors = Errors
|
|||||||
|
|
||||||
open Trace
|
open Trace
|
||||||
|
|
||||||
(** Convert a concrete PascaLIGO expression AST to the imperative
|
(** Convert a concrete PascaLIGO expression CST to the imperative
|
||||||
expression AST used by the compiler. *)
|
expression AST used by the compiler. *)
|
||||||
val compile_expression : CST.expr -> (AST.expr, Errors.abs_error) result
|
val compile_expression : CST.expr -> (AST.expr, Errors.abs_error) result
|
||||||
|
|
||||||
(** Convert a concrete PascaLIGO program AST to the miperative program
|
(** Convert a concrete PascaLIGO program CST to the miperative program
|
||||||
AST used by the compiler. *)
|
AST used by the compiler. *)
|
||||||
val compile_program : CST.ast -> (AST.program, Errors.abs_error) result
|
val compile_program : CST.ast -> (AST.program, Errors.abs_error) result
|
||||||
|
|
||||||
|
val decompile_expression : AST.expr -> (CST.expr, _) result
|
||||||
|
|
||||||
|
val decompile_program : AST.program -> (CST.ast, _) result
|
||||||
|
@ -252,7 +252,7 @@ and compile_expression' : I.expression -> (O.expression option -> O.expression,
|
|||||||
let%bind condition = compile_expression condition in
|
let%bind condition = compile_expression condition in
|
||||||
let%bind then_clause' = compile_expression then_clause in
|
let%bind then_clause' = compile_expression then_clause in
|
||||||
let%bind else_clause' = compile_expression else_clause in
|
let%bind else_clause' = compile_expression else_clause in
|
||||||
let env = Var.fresh () in
|
let env = Var.fresh ~name:"env" () in
|
||||||
let%bind ((_,free_vars_true), then_clause) = repair_mutable_variable_in_matching then_clause' [] env in
|
let%bind ((_,free_vars_true), then_clause) = repair_mutable_variable_in_matching then_clause' [] env in
|
||||||
let%bind ((_,free_vars_false), else_clause) = repair_mutable_variable_in_matching else_clause' [] env in
|
let%bind ((_,free_vars_false), else_clause) = repair_mutable_variable_in_matching else_clause' [] env in
|
||||||
let then_clause = add_to_end then_clause (O.e_variable env) in
|
let then_clause = add_to_end then_clause (O.e_variable env) in
|
||||||
@ -283,7 +283,9 @@ and compile_expression' : I.expression -> (O.expression option -> O.expression,
|
|||||||
| I.E_assign {variable; access_path; expression} ->
|
| I.E_assign {variable; access_path; expression} ->
|
||||||
let%bind access_path = compile_path access_path in
|
let%bind access_path = compile_path access_path in
|
||||||
let%bind expression = compile_expression expression in
|
let%bind expression = compile_expression expression in
|
||||||
let rhs = O.e_update ~loc (O.e_variable ~loc variable) access_path expression in
|
let rhs = match access_path with
|
||||||
|
[] -> expression
|
||||||
|
| _ -> O.e_update ~loc (O.e_variable ~loc variable) access_path expression in
|
||||||
ok @@ fun expr -> (match expr with
|
ok @@ fun expr -> (match expr with
|
||||||
| None -> O.e_let_in ~loc (variable,None) true false rhs (O.e_skip ())
|
| None -> O.e_let_in ~loc (variable,None) true false rhs (O.e_skip ())
|
||||||
| Some e -> O.e_let_in ~loc (variable, None) true false rhs e
|
| Some e -> O.e_let_in ~loc (variable, None) true false rhs e
|
||||||
@ -328,7 +330,7 @@ and compile_matching : I.matching -> Location.t -> (O.expression option -> O.exp
|
|||||||
let%bind match_none' = compile_expression match_none in
|
let%bind match_none' = compile_expression match_none in
|
||||||
let (n,expr) = match_some in
|
let (n,expr) = match_some in
|
||||||
let%bind expr' = compile_expression expr in
|
let%bind expr' = compile_expression expr in
|
||||||
let env = Var.fresh () in
|
let env = Var.fresh ~name:"env" () in
|
||||||
let%bind ((_,free_vars_none), match_none) = repair_mutable_variable_in_matching match_none' [] env in
|
let%bind ((_,free_vars_none), match_none) = repair_mutable_variable_in_matching match_none' [] env in
|
||||||
let%bind ((_,free_vars_some), expr) = repair_mutable_variable_in_matching expr' [n] env in
|
let%bind ((_,free_vars_some), expr) = repair_mutable_variable_in_matching expr' [n] env in
|
||||||
let match_none = add_to_end match_none (O.e_variable env) in
|
let match_none = add_to_end match_none (O.e_variable env) in
|
||||||
@ -348,7 +350,7 @@ and compile_matching : I.matching -> Location.t -> (O.expression option -> O.exp
|
|||||||
let%bind match_nil' = compile_expression match_nil in
|
let%bind match_nil' = compile_expression match_nil in
|
||||||
let (hd,tl,expr) = match_cons in
|
let (hd,tl,expr) = match_cons in
|
||||||
let%bind expr' = compile_expression expr in
|
let%bind expr' = compile_expression expr in
|
||||||
let env = Var.fresh () in
|
let env = Var.fresh ~name:"name" () in
|
||||||
let%bind ((_,free_vars_nil), match_nil) = repair_mutable_variable_in_matching match_nil' [] env in
|
let%bind ((_,free_vars_nil), match_nil) = repair_mutable_variable_in_matching match_nil' [] env in
|
||||||
let%bind ((_,free_vars_cons), expr) = repair_mutable_variable_in_matching expr' [hd;tl] env in
|
let%bind ((_,free_vars_cons), expr) = repair_mutable_variable_in_matching expr' [hd;tl] env in
|
||||||
let match_nil = add_to_end match_nil (O.e_variable env) in
|
let match_nil = add_to_end match_nil (O.e_variable env) in
|
||||||
@ -365,7 +367,7 @@ and compile_matching : I.matching -> Location.t -> (O.expression option -> O.exp
|
|||||||
else
|
else
|
||||||
return @@ O.e_matching ~loc matchee @@ O.Match_list {match_nil=match_nil'; match_cons=(hd,tl,expr')}
|
return @@ O.e_matching ~loc matchee @@ O.Match_list {match_nil=match_nil'; match_cons=(hd,tl,expr')}
|
||||||
| I.Match_variant lst ->
|
| I.Match_variant lst ->
|
||||||
let env = Var.fresh () in
|
let env = Var.fresh ~name:"env" () in
|
||||||
let aux fv ((c,n),expr) =
|
let aux fv ((c,n),expr) =
|
||||||
let%bind expr = compile_expression expr in
|
let%bind expr = compile_expression expr in
|
||||||
let%bind ((_,free_vars), case_clause) = repair_mutable_variable_in_matching expr [n] env in
|
let%bind ((_,free_vars), case_clause) = repair_mutable_variable_in_matching expr [n] env in
|
||||||
@ -401,8 +403,8 @@ and compile_matching : I.matching -> Location.t -> (O.expression option -> O.exp
|
|||||||
return @@ O.e_matching ~loc matchee @@ O.Match_variable (lst,ty_opt,expr)
|
return @@ O.e_matching ~loc matchee @@ O.Match_variable (lst,ty_opt,expr)
|
||||||
|
|
||||||
and compile_while I.{condition;body} =
|
and compile_while I.{condition;body} =
|
||||||
let env_rec = Var.fresh () in
|
let env_rec = Var.fresh ~name:"env_rec" () in
|
||||||
let binder = Var.fresh () in
|
let binder = Var.fresh ~name:"binder" () in
|
||||||
|
|
||||||
let%bind cond = compile_expression condition in
|
let%bind cond = compile_expression condition in
|
||||||
let ctrl =
|
let ctrl =
|
||||||
@ -436,7 +438,7 @@ and compile_while I.{condition;body} =
|
|||||||
|
|
||||||
|
|
||||||
and compile_for I.{binder;start;final;increment;body} =
|
and compile_for I.{binder;start;final;increment;body} =
|
||||||
let env_rec = Var.fresh () in
|
let env_rec = Var.fresh ~name:"env_rec" () in
|
||||||
(*Make the cond and the step *)
|
(*Make the cond and the step *)
|
||||||
let cond = I.e_annotation (I.e_constant C_LE [I.e_variable binder ; final]) (I.t_bool ()) in
|
let cond = I.e_annotation (I.e_constant C_LE [I.e_variable binder ; final]) (I.t_bool ()) in
|
||||||
let%bind cond = compile_expression cond in
|
let%bind cond = compile_expression cond in
|
||||||
@ -481,8 +483,8 @@ and compile_for I.{binder;start;final;increment;body} =
|
|||||||
ok @@ restore_mutable_variable return_expr captured_name_list env_rec
|
ok @@ restore_mutable_variable return_expr captured_name_list env_rec
|
||||||
|
|
||||||
and compile_for_each I.{binder;collection;collection_type; body} =
|
and compile_for_each I.{binder;collection;collection_type; body} =
|
||||||
let env_rec = Var.fresh () in
|
let env_rec = Var.fresh ~name:"env_rec" () in
|
||||||
let args = Var.fresh () in
|
let args = Var.fresh ~name:"args" () in
|
||||||
|
|
||||||
let%bind element_names = ok @@ match snd binder with
|
let%bind element_names = ok @@ match snd binder with
|
||||||
| Some v -> [fst binder;v]
|
| Some v -> [fst binder;v]
|
||||||
|
@ -6,7 +6,7 @@ open Errors
|
|||||||
|
|
||||||
let rec compile_type_expression : I.type_expression -> (O.type_expression , desugaring_error) result =
|
let rec compile_type_expression : I.type_expression -> (O.type_expression , desugaring_error) result =
|
||||||
fun te ->
|
fun te ->
|
||||||
let return tc = ok @@ O.make_t ~loc:te.location tc in
|
let return tc = ok @@ O.make_t ~loc:te.location ~sugar:te tc in
|
||||||
match te.type_content with
|
match te.type_content with
|
||||||
| I.T_sum sum ->
|
| I.T_sum sum ->
|
||||||
let sum = I.CMap.to_kv_list sum in
|
let sum = I.CMap.to_kv_list sum in
|
||||||
@ -48,9 +48,9 @@ let rec compile_type_expression : I.type_expression -> (O.type_expression , desu
|
|||||||
return @@ T_operator (type_operator, lst)
|
return @@ T_operator (type_operator, lst)
|
||||||
|
|
||||||
let rec compile_expression : I.expression -> (O.expression , desugaring_error) result =
|
let rec compile_expression : I.expression -> (O.expression , desugaring_error) result =
|
||||||
fun e ->
|
fun sugar ->
|
||||||
let return expr = ok @@ O.make_e ~loc:e.location expr in
|
let return expr = ok @@ O.make_e ~loc:sugar.location ~sugar expr in
|
||||||
match e.expression_content with
|
match sugar.expression_content with
|
||||||
| I.E_literal literal -> return @@ O.E_literal literal
|
| I.E_literal literal -> return @@ O.E_literal literal
|
||||||
| I.E_constant {cons_name;arguments} ->
|
| I.E_constant {cons_name;arguments} ->
|
||||||
let%bind arguments = bind_map_list compile_expression arguments in
|
let%bind arguments = bind_map_list compile_expression arguments in
|
||||||
@ -81,7 +81,7 @@ let rec compile_expression : I.expression -> (O.expression , desugaring_error) r
|
|||||||
return @@ O.E_constructor {constructor;element}
|
return @@ O.E_constructor {constructor;element}
|
||||||
| I.E_matching {matchee; cases} ->
|
| I.E_matching {matchee; cases} ->
|
||||||
let%bind matchee = compile_expression matchee in
|
let%bind matchee = compile_expression matchee in
|
||||||
compile_matching e.location matchee cases
|
compile_matching sugar matchee cases
|
||||||
| I.E_record record ->
|
| I.E_record record ->
|
||||||
let record = I.LMap.to_kv_list record in
|
let record = I.LMap.to_kv_list record in
|
||||||
let%bind record =
|
let%bind record =
|
||||||
@ -93,33 +93,33 @@ let rec compile_expression : I.expression -> (O.expression , desugaring_error) r
|
|||||||
return @@ O.E_record (O.LMap.of_list record)
|
return @@ O.E_record (O.LMap.of_list record)
|
||||||
| I.E_accessor {record;path} ->
|
| I.E_accessor {record;path} ->
|
||||||
let%bind record = compile_expression record in
|
let%bind record = compile_expression record in
|
||||||
let accessor ?loc e a =
|
let accessor ?loc expr a =
|
||||||
match a with
|
match a with
|
||||||
I.Access_tuple i -> ok @@ O.e_record_accessor ?loc e (Label (Z.to_string i))
|
I.Access_tuple i -> ok @@ O.e_record_accessor ?loc expr (Label (Z.to_string i))
|
||||||
| I.Access_record a -> ok @@ O.e_record_accessor ?loc e (Label a)
|
| I.Access_record a -> ok @@ O.e_record_accessor ?loc expr (Label a)
|
||||||
| I.Access_map k ->
|
| I.Access_map k ->
|
||||||
let%bind k = compile_expression k in
|
let%bind k = compile_expression k in
|
||||||
ok @@ O.e_constant ?loc C_MAP_FIND_OPT [k;e]
|
ok @@ O.e_constant ?loc C_MAP_FIND_OPT [k;expr]
|
||||||
in
|
in
|
||||||
bind_fold_list accessor record path
|
bind_fold_list accessor record path
|
||||||
| I.E_update {record;path;update} ->
|
| I.E_update {record;path;update} ->
|
||||||
let%bind record = compile_expression record in
|
let%bind record = compile_expression record in
|
||||||
let%bind update = compile_expression update in
|
let%bind update = compile_expression update in
|
||||||
let accessor ?loc e a =
|
let accessor ?loc expr a =
|
||||||
match a with
|
match a with
|
||||||
I.Access_tuple i -> ok @@ O.e_record_accessor ?loc e (Label (Z.to_string i))
|
I.Access_tuple i -> ok @@ O.e_record_accessor ?loc expr (Label (Z.to_string i))
|
||||||
| I.Access_record a -> ok @@ O.e_record_accessor ?loc e (Label a)
|
| I.Access_record a -> ok @@ O.e_record_accessor ?loc expr (Label a)
|
||||||
| I.Access_map k ->
|
| I.Access_map k ->
|
||||||
let%bind k = compile_expression k in
|
let%bind k = compile_expression k in
|
||||||
ok @@ O.e_constant ?loc C_MAP_FIND_OPT [k;e]
|
ok @@ O.e_constant ?loc C_MAP_FIND_OPT [k;expr]
|
||||||
in
|
in
|
||||||
let updator ?loc (s:O.expression) a e =
|
let updator ?loc (s:O.expression) a expr =
|
||||||
match a with
|
match a with
|
||||||
I.Access_tuple i -> ok @@ O.e_record_update ?loc s (Label (Z.to_string i)) e
|
I.Access_tuple i -> ok @@ O.e_record_update ?loc s (Label (Z.to_string i)) expr
|
||||||
| I.Access_record a -> ok @@ O.e_record_update ?loc s (Label a) e
|
| I.Access_record a -> ok @@ O.e_record_update ?loc s (Label a) expr
|
||||||
| I.Access_map k ->
|
| I.Access_map k ->
|
||||||
let%bind k = compile_expression k in
|
let%bind k = compile_expression k in
|
||||||
ok @@ O.e_constant ?loc C_MAP_ADD [k;e;s]
|
ok @@ O.e_constant ?loc C_MAP_ADD [k;expr;s]
|
||||||
in
|
in
|
||||||
let aux (s, e : O.expression * _) lst =
|
let aux (s, e : O.expression * _) lst =
|
||||||
let%bind s' = accessor ~loc:s.location s lst in
|
let%bind s' = accessor ~loc:s.location s lst in
|
||||||
@ -176,7 +176,7 @@ let rec compile_expression : I.expression -> (O.expression , desugaring_error) r
|
|||||||
let%bind expr1 = compile_expression expr1 in
|
let%bind expr1 = compile_expression expr1 in
|
||||||
let%bind expr2 = compile_expression expr2 in
|
let%bind expr2 = compile_expression expr2 in
|
||||||
return @@ O.E_let_in {let_binder=(Var.of_name "_", Some (O.t_unit ())); rhs=expr1;let_result=expr2; inline=false}
|
return @@ O.E_let_in {let_binder=(Var.of_name "_", Some (O.t_unit ())); rhs=expr1;let_result=expr2; inline=false}
|
||||||
| I.E_skip -> ok @@ O.e_unit ~loc:e.location ()
|
| I.E_skip -> ok @@ O.e_unit ~loc:sugar.location ~sugar ()
|
||||||
| I.E_tuple t ->
|
| I.E_tuple t ->
|
||||||
let aux (i,acc) el =
|
let aux (i,acc) el =
|
||||||
let%bind el = compile_expression el in
|
let%bind el = compile_expression el in
|
||||||
@ -191,19 +191,20 @@ and compile_lambda : I.lambda -> (O.lambda , desugaring_error) result =
|
|||||||
let%bind output_type = bind_map_option compile_type_expression output_type in
|
let%bind output_type = bind_map_option compile_type_expression output_type in
|
||||||
let%bind result = compile_expression result in
|
let%bind result = compile_expression result in
|
||||||
ok @@ O.{binder;input_type;output_type;result}
|
ok @@ O.{binder;input_type;output_type;result}
|
||||||
and compile_matching : Location.t -> O.expression -> I.matching_expr -> (O.expression, desugaring_error) result =
|
and compile_matching : I.expression -> O.expression -> I.matching_expr -> (O.expression, desugaring_error) result =
|
||||||
fun loc e m ->
|
fun sugar e m ->
|
||||||
|
let loc = sugar.location in
|
||||||
match m with
|
match m with
|
||||||
| I.Match_list {match_nil;match_cons} ->
|
| I.Match_list {match_nil;match_cons} ->
|
||||||
let%bind match_nil = compile_expression match_nil in
|
let%bind match_nil = compile_expression match_nil in
|
||||||
let (hd,tl,expr) = match_cons in
|
let (hd,tl,expr) = match_cons in
|
||||||
let%bind expr = compile_expression expr in
|
let%bind expr = compile_expression expr in
|
||||||
ok @@ O.e_matching ~loc e @@ O.Match_list {match_nil; match_cons=(hd,tl,expr)}
|
ok @@ O.e_matching ~loc ~sugar e @@ O.Match_list {match_nil; match_cons=(hd,tl,expr)}
|
||||||
| I.Match_option {match_none;match_some} ->
|
| I.Match_option {match_none;match_some} ->
|
||||||
let%bind match_none = compile_expression match_none in
|
let%bind match_none = compile_expression match_none in
|
||||||
let (n,expr) = match_some in
|
let (n,expr) = match_some in
|
||||||
let%bind expr = compile_expression expr in
|
let%bind expr = compile_expression expr in
|
||||||
ok @@ O.e_matching ~loc e @@ O.Match_option {match_none; match_some=(n,expr)}
|
ok @@ O.e_matching ~loc ~sugar e @@ O.Match_option {match_none; match_some=(n,expr)}
|
||||||
| I.Match_variant lst ->
|
| I.Match_variant lst ->
|
||||||
let%bind lst = bind_map_list (
|
let%bind lst = bind_map_list (
|
||||||
fun ((c,n),expr) ->
|
fun ((c,n),expr) ->
|
||||||
@ -211,7 +212,7 @@ and compile_matching : Location.t -> O.expression -> I.matching_expr -> (O.expre
|
|||||||
ok @@ ((c,n),expr)
|
ok @@ ((c,n),expr)
|
||||||
) lst
|
) lst
|
||||||
in
|
in
|
||||||
ok @@ O.e_matching ~loc e @@ O.Match_variant lst
|
ok @@ O.e_matching ~loc ~sugar e @@ O.Match_variant lst
|
||||||
| I.Match_record (fields,field_types, expr) ->
|
| I.Match_record (fields,field_types, expr) ->
|
||||||
let combine fields field_types =
|
let combine fields field_types =
|
||||||
match field_types with
|
match field_types with
|
||||||
@ -221,7 +222,7 @@ and compile_matching : Location.t -> O.expression -> I.matching_expr -> (O.expre
|
|||||||
let%bind next = compile_expression expr in
|
let%bind next = compile_expression expr in
|
||||||
let%bind field_types = bind_map_option (bind_map_list compile_type_expression) field_types in
|
let%bind field_types = bind_map_option (bind_map_list compile_type_expression) field_types in
|
||||||
let aux ((index,expr) : int * _ ) ((field,name): (O.label * (O.expression_variable * O.type_expression option))) =
|
let aux ((index,expr) : int * _ ) ((field,name): (O.label * (O.expression_variable * O.type_expression option))) =
|
||||||
let f = fun expr' -> O.e_let_in name false (O.e_record_accessor e field) expr' in
|
let f = fun expr' -> O.e_let_in ~sugar name false (O.e_record_accessor ~sugar e field) expr' in
|
||||||
(index+1, fun expr' -> expr (f expr'))
|
(index+1, fun expr' -> expr (f expr'))
|
||||||
in
|
in
|
||||||
let (_,header) = List.fold_left aux (0, fun e -> e) @@
|
let (_,header) = List.fold_left aux (0, fun e -> e) @@
|
||||||
@ -238,7 +239,7 @@ and compile_matching : Location.t -> O.expression -> I.matching_expr -> (O.expre
|
|||||||
let%bind next = compile_expression expr in
|
let%bind next = compile_expression expr in
|
||||||
let%bind field_types = bind_map_option (bind_map_list compile_type_expression) field_types in
|
let%bind field_types = bind_map_option (bind_map_list compile_type_expression) field_types in
|
||||||
let aux ((index,expr) : int * _ ) (field: O.expression_variable * O.type_expression option) =
|
let aux ((index,expr) : int * _ ) (field: O.expression_variable * O.type_expression option) =
|
||||||
let f = fun expr' -> O.e_let_in field false (O.e_record_accessor e (Label (string_of_int index))) expr' in
|
let f = fun expr' -> O.e_let_in ~sugar field false (O.e_record_accessor ~sugar e (Label (string_of_int index))) expr' in
|
||||||
(index+1, fun expr' -> expr (f expr'))
|
(index+1, fun expr' -> expr (f expr'))
|
||||||
in
|
in
|
||||||
let (_,header) = List.fold_left aux (0, fun e -> e) @@
|
let (_,header) = List.fold_left aux (0, fun e -> e) @@
|
||||||
@ -248,7 +249,7 @@ and compile_matching : Location.t -> O.expression -> I.matching_expr -> (O.expre
|
|||||||
| I.Match_variable (a, ty_opt, expr) ->
|
| I.Match_variable (a, ty_opt, expr) ->
|
||||||
let%bind ty_opt = bind_map_option compile_type_expression ty_opt in
|
let%bind ty_opt = bind_map_option compile_type_expression ty_opt in
|
||||||
let%bind expr = compile_expression expr in
|
let%bind expr = compile_expression expr in
|
||||||
ok @@ O.e_let_in (a,ty_opt) false e expr
|
ok @@ O.e_let_in ~sugar (a,ty_opt) false e expr
|
||||||
|
|
||||||
let compile_declaration : I.declaration Location.wrap -> _ =
|
let compile_declaration : I.declaration Location.wrap -> _ =
|
||||||
fun {wrap_content=declaration;location} ->
|
fun {wrap_content=declaration;location} ->
|
||||||
@ -257,7 +258,7 @@ let compile_declaration : I.declaration Location.wrap -> _ =
|
|||||||
| I.Declaration_constant (n, te_opt, inline, expr) ->
|
| I.Declaration_constant (n, te_opt, inline, expr) ->
|
||||||
let%bind expr = compile_expression expr in
|
let%bind expr = compile_expression expr in
|
||||||
let%bind te_opt = bind_map_option compile_type_expression te_opt in
|
let%bind te_opt = bind_map_option compile_type_expression te_opt in
|
||||||
return @@ O.Declaration_constant (n, te_opt, inline, expr)
|
return @@ O.Declaration_constant (n, te_opt, {inline}, expr)
|
||||||
| I.Declaration_type (n, te) ->
|
| I.Declaration_type (n, te) ->
|
||||||
let%bind te = compile_type_expression te in
|
let%bind te = compile_type_expression te in
|
||||||
return @@ O.Declaration_type (n,te)
|
return @@ O.Declaration_type (n,te)
|
||||||
|
@ -7,7 +7,10 @@ open Errors
|
|||||||
let rec decompile_type_expression : O.type_expression -> (I.type_expression, desugaring_error) result =
|
let rec decompile_type_expression : O.type_expression -> (I.type_expression, desugaring_error) result =
|
||||||
fun te ->
|
fun te ->
|
||||||
let return te = ok @@ I.make_t te in
|
let return te = ok @@ I.make_t te in
|
||||||
match te.type_content with
|
match te.sugar with
|
||||||
|
Some te -> ok @@ te
|
||||||
|
| None ->
|
||||||
|
match te.content with
|
||||||
| O.T_sum sum ->
|
| O.T_sum sum ->
|
||||||
let sum = I.CMap.to_kv_list sum in
|
let sum = I.CMap.to_kv_list sum in
|
||||||
let%bind sum =
|
let%bind sum =
|
||||||
@ -43,7 +46,10 @@ let rec decompile_type_expression : O.type_expression -> (I.type_expression, des
|
|||||||
let rec decompile_expression : O.expression -> (I.expression, desugaring_error) result =
|
let rec decompile_expression : O.expression -> (I.expression, desugaring_error) result =
|
||||||
fun e ->
|
fun e ->
|
||||||
let return expr = ok @@ I.make_e ~loc:e.location expr in
|
let return expr = ok @@ I.make_e ~loc:e.location expr in
|
||||||
match e.expression_content with
|
match e.sugar with
|
||||||
|
Some e -> ok @@ e
|
||||||
|
| None ->
|
||||||
|
match e.content with
|
||||||
O.E_literal lit -> return @@ I.E_literal lit
|
O.E_literal lit -> return @@ I.E_literal lit
|
||||||
| O.E_constant {cons_name;arguments} ->
|
| O.E_constant {cons_name;arguments} ->
|
||||||
let%bind arguments = bind_map_list decompile_expression arguments in
|
let%bind arguments = bind_map_list decompile_expression arguments in
|
||||||
@ -134,7 +140,7 @@ and decompile_matching : O.matching_expr -> (I.matching_expr, desugaring_error)
|
|||||||
let decompile_declaration : O.declaration Location.wrap -> _ result = fun {wrap_content=declaration;location} ->
|
let decompile_declaration : O.declaration Location.wrap -> _ result = fun {wrap_content=declaration;location} ->
|
||||||
let return decl = ok @@ Location.wrap ~loc:location decl in
|
let return decl = ok @@ Location.wrap ~loc:location decl in
|
||||||
match declaration with
|
match declaration with
|
||||||
| O.Declaration_constant (n, te_opt, inline, expr) ->
|
| O.Declaration_constant (n, te_opt, {inline}, expr) ->
|
||||||
let%bind expr = decompile_expression expr in
|
let%bind expr = decompile_expression expr in
|
||||||
let%bind te_opt = bind_map_option decompile_type_expression te_opt in
|
let%bind te_opt = bind_map_option decompile_type_expression te_opt in
|
||||||
return @@ I.Declaration_constant (n, te_opt, inline, expr)
|
return @@ I.Declaration_constant (n, te_opt, inline, expr)
|
||||||
|
@ -3,7 +3,6 @@ open Trace
|
|||||||
open Stage_common.Helpers
|
open Stage_common.Helpers
|
||||||
|
|
||||||
include Stage_common.PP
|
include Stage_common.PP
|
||||||
include Stage_common.Types.Ast_generic_type(Ast_core_parameter)
|
|
||||||
|
|
||||||
let bind_map_cmap f map = bind_cmap (
|
let bind_map_cmap f map = bind_cmap (
|
||||||
CMap.map
|
CMap.map
|
||||||
@ -23,7 +22,7 @@ type ('a,'err) folder = 'a -> expression -> ('a, 'err) result
|
|||||||
let rec fold_expression : ('a, 'err) folder -> 'a -> expression -> ('a,'err) result = fun f init e ->
|
let rec fold_expression : ('a, 'err) folder -> 'a -> expression -> ('a,'err) result = fun f init e ->
|
||||||
let self = fold_expression f in
|
let self = fold_expression f in
|
||||||
let%bind init' = f init e in
|
let%bind init' = f init e in
|
||||||
match e.expression_content with
|
match e.content with
|
||||||
| E_literal _ | E_variable _ | E_raw_code _ -> ok init'
|
| E_literal _ | E_variable _ | E_raw_code _ -> ok init'
|
||||||
| E_constant {arguments=lst} -> (
|
| E_constant {arguments=lst} -> (
|
||||||
let%bind res = bind_fold_list self init' lst in
|
let%bind res = bind_fold_list self init' lst in
|
||||||
@ -98,8 +97,8 @@ type 'err abs_mapper =
|
|||||||
let rec map_expression : 'err exp_mapper -> expression -> (expression , 'err) result = fun f e ->
|
let rec map_expression : 'err exp_mapper -> expression -> (expression , 'err) result = fun f e ->
|
||||||
let self = map_expression f in
|
let self = map_expression f in
|
||||||
let%bind e' = f e in
|
let%bind e' = f e in
|
||||||
let return expression_content = ok { e' with expression_content } in
|
let return content = ok { e' with content } in
|
||||||
match e'.expression_content with
|
match e'.content with
|
||||||
| E_ascription ascr -> (
|
| E_ascription ascr -> (
|
||||||
let%bind e' = self ascr.anno_expr in
|
let%bind e' = self ascr.anno_expr in
|
||||||
return @@ E_ascription {ascr with anno_expr=e'}
|
return @@ E_ascription {ascr with anno_expr=e'}
|
||||||
@ -151,11 +150,11 @@ let rec map_expression : 'err exp_mapper -> expression -> (expression , 'err) re
|
|||||||
| E_literal _ | E_variable _ | E_raw_code _ as e' -> return e'
|
| E_literal _ | E_variable _ | E_raw_code _ as e' -> return e'
|
||||||
|
|
||||||
and map_type_expression : 'err ty_exp_mapper -> type_expression -> (type_expression , 'err) result =
|
and map_type_expression : 'err ty_exp_mapper -> type_expression -> (type_expression , 'err) result =
|
||||||
fun f ({type_content ; location ; type_meta} as te) ->
|
fun f ({content ; sugar; location } as te) ->
|
||||||
let self = map_type_expression f in
|
let self = map_type_expression f in
|
||||||
let%bind te' = f te in
|
let%bind te' = f te in
|
||||||
let return type_content = ok { type_content; location ; type_meta } in
|
let return content = ok @@ ({ content; sugar; location}: type_expression) in
|
||||||
match type_content with
|
match content with
|
||||||
| T_sum temap ->
|
| T_sum temap ->
|
||||||
let%bind temap' = bind_map_cmap self temap in
|
let%bind temap' = bind_map_cmap self temap in
|
||||||
return @@ (T_sum temap')
|
return @@ (T_sum temap')
|
||||||
@ -212,8 +211,8 @@ let rec fold_map_expression : ('a , 'err) fold_mapper -> 'a -> expression -> ('a
|
|||||||
let%bind (continue, init',e') = f a e in
|
let%bind (continue, init',e') = f a e in
|
||||||
if (not continue) then ok(init',e')
|
if (not continue) then ok(init',e')
|
||||||
else
|
else
|
||||||
let return expression_content = { e' with expression_content } in
|
let return content = { e' with content } in
|
||||||
match e'.expression_content with
|
match e'.content with
|
||||||
| E_ascription ascr -> (
|
| E_ascription ascr -> (
|
||||||
let%bind (res,e') = self init' ascr.anno_expr in
|
let%bind (res,e') = self init' ascr.anno_expr in
|
||||||
ok (res, return @@ E_ascription {ascr with anno_expr=e'})
|
ok (res, return @@ E_ascription {ascr with anno_expr=e'})
|
||||||
|
@ -24,7 +24,7 @@ let rec type_declaration env state : I.declaration -> (environment * O'.typer_st
|
|||||||
let%bind tv = evaluate_type env type_expression in
|
let%bind tv = evaluate_type env type_expression in
|
||||||
let env' = Environment.add_type (type_name) tv env in
|
let env' = Environment.add_type (type_name) tv env in
|
||||||
ok (env', state , None)
|
ok (env', state , None)
|
||||||
| Declaration_constant (binder , tv_opt , inline, expression) -> (
|
| Declaration_constant (binder , tv_opt , attr, expression) -> (
|
||||||
(*
|
(*
|
||||||
Determine the type of the expression and add it to the environment
|
Determine the type of the expression and add it to the environment
|
||||||
*)
|
*)
|
||||||
@ -33,7 +33,7 @@ let rec type_declaration env state : I.declaration -> (environment * O'.typer_st
|
|||||||
trace (constant_declaration_tracer binder expression tv'_opt) @@
|
trace (constant_declaration_tracer binder expression tv'_opt) @@
|
||||||
type_expression env state expression in
|
type_expression env state expression in
|
||||||
let post_env = Environment.add_ez_declaration binder expr env in
|
let post_env = Environment.add_ez_declaration binder expr env in
|
||||||
ok (post_env, state' , Some (O.Declaration_constant { binder ; expr ; inline} ))
|
ok (post_env, state' , Some (O.Declaration_constant { binder ; expr ; inline=attr.inline} ))
|
||||||
)
|
)
|
||||||
|
|
||||||
and type_match : environment -> O'.typer_state -> O.type_expression -> I.matching_expr -> I.expression -> Location.t -> (O.matching_expr * O'.typer_state, typer_error) result =
|
and type_match : environment -> O'.typer_state -> O.type_expression -> I.matching_expr -> I.expression -> Location.t -> (O.matching_expr * O'.typer_state, typer_error) result =
|
||||||
@ -111,7 +111,7 @@ and type_match : environment -> O'.typer_state -> O.type_expression -> I.matchin
|
|||||||
*)
|
*)
|
||||||
and evaluate_type (e:environment) (t:I.type_expression) : (O.type_expression, typer_error) result =
|
and evaluate_type (e:environment) (t:I.type_expression) : (O.type_expression, typer_error) result =
|
||||||
let return tv' = ok (make_t ~loc:t.location tv' (Some t)) in
|
let return tv' = ok (make_t ~loc:t.location tv' (Some t)) in
|
||||||
match t.type_content with
|
match t.content with
|
||||||
| T_arrow {type1;type2} ->
|
| T_arrow {type1;type2} ->
|
||||||
let%bind type1 = evaluate_type e type1 in
|
let%bind type1 = evaluate_type e type1 in
|
||||||
let%bind type2 = evaluate_type e type2 in
|
let%bind type2 = evaluate_type e type2 in
|
||||||
@ -210,7 +210,7 @@ and type_expression : environment -> O'.typer_state -> ?tv_opt:O.type_expression
|
|||||||
ok @@ (expr' , new_state) in
|
ok @@ (expr' , new_state) in
|
||||||
let return_wrapped expr state (constraints , expr_type) = return expr state constraints expr_type in
|
let return_wrapped expr state (constraints , expr_type) = return expr state constraints expr_type in
|
||||||
trace (expression_tracer ae) @@
|
trace (expression_tracer ae) @@
|
||||||
match ae.expression_content with
|
match ae.content with
|
||||||
|
|
||||||
(* TODO: this file should take care only of the order in which program fragments
|
(* TODO: this file should take care only of the order in which program fragments
|
||||||
are translated by Wrap.xyz
|
are translated by Wrap.xyz
|
||||||
|
@ -62,7 +62,7 @@ let rec type_expression_to_type_value : T.type_expression -> O.type_value = fun
|
|||||||
p_constant csttag (List.map type_expression_to_type_value args)
|
p_constant csttag (List.map type_expression_to_type_value args)
|
||||||
|
|
||||||
let rec type_expression_to_type_value_copypasted : I.type_expression -> O.type_value = fun te ->
|
let rec type_expression_to_type_value_copypasted : I.type_expression -> O.type_value = fun te ->
|
||||||
match te.type_content with
|
match te.content with
|
||||||
| T_sum kvmap ->
|
| T_sum kvmap ->
|
||||||
let () = failwith "fixme: don't use to_list, it drops the variant keys, rows have a differnt kind than argument lists for now!" in
|
let () = failwith "fixme: don't use to_list, it drops the variant keys, rows have a differnt kind than argument lists for now!" in
|
||||||
let tlist = List.map (fun ({ctor_type;_}:I.ctor_content) -> ctor_type) (I.CMap.to_list kvmap) in
|
let tlist = List.map (fun ({ctor_type;_}:I.ctor_content) -> ctor_type) (I.CMap.to_list kvmap) in
|
||||||
|
@ -290,13 +290,13 @@ and type_declaration env (_placeholder_for_state_of_new_typer : O'.typer_state)
|
|||||||
let%bind tv = evaluate_type env type_expr in
|
let%bind tv = evaluate_type env type_expr in
|
||||||
let env' = Environment.add_type (type_binder) tv env in
|
let env' = Environment.add_type (type_binder) tv env in
|
||||||
ok (env', (Solver.placeholder_for_state_of_new_typer ()) , (O.Declaration_type { type_binder ; type_expr = tv } ))
|
ok (env', (Solver.placeholder_for_state_of_new_typer ()) , (O.Declaration_type { type_binder ; type_expr = tv } ))
|
||||||
| Declaration_constant (binder , tv_opt , inline, expression) -> (
|
| Declaration_constant (binder , tv_opt , attr, expression) -> (
|
||||||
let%bind tv'_opt = bind_map_option (evaluate_type env) tv_opt in
|
let%bind tv'_opt = bind_map_option (evaluate_type env) tv_opt in
|
||||||
let%bind expr =
|
let%bind expr =
|
||||||
trace (constant_declaration_error_tracer binder expression tv'_opt) @@
|
trace (constant_declaration_error_tracer binder expression tv'_opt) @@
|
||||||
type_expression' ?tv_opt:tv'_opt env expression in
|
type_expression' ?tv_opt:tv'_opt env expression in
|
||||||
let post_env = Environment.add_ez_declaration binder expr env in
|
let post_env = Environment.add_ez_declaration binder expr env in
|
||||||
ok (post_env, (Solver.placeholder_for_state_of_new_typer ()) , (O.Declaration_constant { binder ; expr ; inline}))
|
ok (post_env, (Solver.placeholder_for_state_of_new_typer ()) , (O.Declaration_constant { binder ; expr ; inline=attr.inline}))
|
||||||
)
|
)
|
||||||
|
|
||||||
and type_match : (environment -> I.expression -> (O.expression , typer_error) result) -> environment -> O.type_expression -> I.matching_expr -> I.expression -> Location.t -> (O.matching_expr, typer_error) result =
|
and type_match : (environment -> I.expression -> (O.expression , typer_error) result) -> environment -> O.type_expression -> I.matching_expr -> I.expression -> Location.t -> (O.matching_expr, typer_error) result =
|
||||||
@ -349,7 +349,7 @@ and type_match : (environment -> I.expression -> (O.expression , typer_error) re
|
|||||||
|
|
||||||
and evaluate_type (e:environment) (t:I.type_expression) : (O.type_expression, typer_error) result =
|
and evaluate_type (e:environment) (t:I.type_expression) : (O.type_expression, typer_error) result =
|
||||||
let return tv' = ok (make_t ~loc:t.location tv' (Some t)) in
|
let return tv' = ok (make_t ~loc:t.location tv' (Some t)) in
|
||||||
match t.type_content with
|
match t.content with
|
||||||
| T_arrow {type1;type2} ->
|
| T_arrow {type1;type2} ->
|
||||||
let%bind type1 = evaluate_type e type1 in
|
let%bind type1 = evaluate_type e type1 in
|
||||||
let%bind type2 = evaluate_type e type2 in
|
let%bind type2 = evaluate_type e type2 in
|
||||||
@ -456,7 +456,7 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
|||||||
let location = ae.location in
|
let location = ae.location in
|
||||||
ok @@ make_e ~location expr tv in
|
ok @@ make_e ~location expr tv in
|
||||||
trace (expression_tracer ae) @@
|
trace (expression_tracer ae) @@
|
||||||
match ae.expression_content with
|
match ae.content with
|
||||||
(* Basic *)
|
(* Basic *)
|
||||||
| E_variable name ->
|
| E_variable name ->
|
||||||
let%bind tv' =
|
let%bind tv' =
|
||||||
@ -561,7 +561,7 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
|||||||
return (E_lambda lambda ) lambda_type
|
return (E_lambda lambda ) lambda_type
|
||||||
| E_constant {cons_name=( C_LIST_FOLD | C_MAP_FOLD | C_SET_FOLD) as opname ;
|
| E_constant {cons_name=( C_LIST_FOLD | C_MAP_FOLD | C_SET_FOLD) as opname ;
|
||||||
arguments=[
|
arguments=[
|
||||||
( { expression_content = (I.E_lambda { binder = lname ;
|
( { content = (I.E_lambda { binder = lname ;
|
||||||
input_type = None ;
|
input_type = None ;
|
||||||
output_type = None ;
|
output_type = None ;
|
||||||
result }) ;
|
result }) ;
|
||||||
@ -589,7 +589,7 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
|||||||
return (E_constant {cons_name=opname';arguments=lst'}) tv
|
return (E_constant {cons_name=opname';arguments=lst'}) tv
|
||||||
| E_constant {cons_name=C_FOLD_WHILE as opname;
|
| E_constant {cons_name=C_FOLD_WHILE as opname;
|
||||||
arguments = [
|
arguments = [
|
||||||
( { expression_content = (I.E_lambda { binder = lname ;
|
( { content = (I.E_lambda { binder = lname ;
|
||||||
input_type = None ;
|
input_type = None ;
|
||||||
output_type = None ;
|
output_type = None ;
|
||||||
result }) ;
|
result }) ;
|
||||||
@ -701,7 +701,7 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
|||||||
return (E_let_in {let_binder; rhs; let_result; inline}) let_result.type_expression
|
return (E_let_in {let_binder; rhs; let_result; inline}) let_result.type_expression
|
||||||
| E_raw_code {language;code} ->
|
| E_raw_code {language;code} ->
|
||||||
let%bind (code,type_expression) = trace_option (expected_ascription code) @@
|
let%bind (code,type_expression) = trace_option (expected_ascription code) @@
|
||||||
I.get_e_ascription code.expression_content in
|
I.get_e_ascription code.content in
|
||||||
let%bind code = type_expression' e code in
|
let%bind code = type_expression' e code in
|
||||||
let%bind type_expression = evaluate_type e type_expression in
|
let%bind type_expression = evaluate_type e type_expression in
|
||||||
let code = {code with type_expression} in
|
let code = {code with type_expression} in
|
||||||
@ -740,9 +740,9 @@ and type_lambda e {
|
|||||||
match input_type with
|
match input_type with
|
||||||
| Some ty -> ok ty
|
| Some ty -> ok ty
|
||||||
| None -> (
|
| None -> (
|
||||||
match result.expression_content with
|
match result.content with
|
||||||
| I.E_let_in li -> (
|
| I.E_let_in li -> (
|
||||||
match li.rhs.expression_content with
|
match li.rhs.content with
|
||||||
| I.E_variable name when name = (binder) -> (
|
| I.E_variable name when name = (binder) -> (
|
||||||
match snd li.let_binder with
|
match snd li.let_binder with
|
||||||
| Some ty -> ok ty
|
| Some ty -> ok ty
|
||||||
@ -849,7 +849,7 @@ let rec untype_expression (e:O.expression) : (I.expression , typer_error) result
|
|||||||
| E_recursive {fun_name;fun_type; lambda} ->
|
| E_recursive {fun_name;fun_type; lambda} ->
|
||||||
let%bind fun_type = untype_type_expression fun_type in
|
let%bind fun_type = untype_type_expression fun_type in
|
||||||
let%bind unty_expr= untype_expression_content ty @@ E_lambda lambda in
|
let%bind unty_expr= untype_expression_content ty @@ E_lambda lambda in
|
||||||
let lambda = match unty_expr.expression_content with I.E_lambda l -> l | _ -> failwith "impossible case" in
|
let lambda = match unty_expr.content with I.E_lambda l -> l | _ -> failwith "impossible case" in
|
||||||
return @@ e_recursive fun_name fun_type lambda
|
return @@ e_recursive fun_name fun_type lambda
|
||||||
|
|
||||||
and untype_matching : (O.expression -> (I.expression , typer_error) result) -> O.matching_expr -> (I.matching_expr , typer_error) result = fun f m ->
|
and untype_matching : (O.expression -> (I.expression , typer_error) result) -> O.matching_expr -> (I.matching_expr , typer_error) result = fun f m ->
|
||||||
|
@ -256,7 +256,7 @@ type contract_type = {
|
|||||||
let fetch_contract_type : string -> program -> (contract_type, self_ast_typed_error) result = fun main_fname program ->
|
let fetch_contract_type : string -> program -> (contract_type, self_ast_typed_error) result = fun main_fname program ->
|
||||||
let aux declt = match Location.unwrap declt with
|
let aux declt = match Location.unwrap declt with
|
||||||
| Declaration_constant ({ binder ; expr=_ ; inline=_ } as p) ->
|
| Declaration_constant ({ binder ; expr=_ ; inline=_ } as p) ->
|
||||||
if String.equal (Var.to_name binder) main_fname
|
if Var.equal binder @@ Var.of_name main_fname
|
||||||
then Some p
|
then Some p
|
||||||
else None
|
else None
|
||||||
| Declaration_type _ -> None
|
| Declaration_type _ -> None
|
||||||
|
@ -47,6 +47,23 @@ module Tree_abstraction = struct
|
|||||||
| "timestamp" -> Some TC_timestamp
|
| "timestamp" -> Some TC_timestamp
|
||||||
| _ -> None
|
| _ -> None
|
||||||
|
|
||||||
|
let type_constant_to_string tc =
|
||||||
|
match tc with
|
||||||
|
TC_chain_id -> "chain_id"
|
||||||
|
| TC_unit -> "unit"
|
||||||
|
| TC_string -> "string"
|
||||||
|
| TC_bytes -> "bytes"
|
||||||
|
| TC_nat -> "nat"
|
||||||
|
| TC_int -> "int"
|
||||||
|
| TC_mutez -> "tez"
|
||||||
|
| TC_operation -> "operation"
|
||||||
|
| TC_address -> "address"
|
||||||
|
| TC_key -> "key"
|
||||||
|
| TC_key_hash -> "key_hash"
|
||||||
|
| TC_signature -> "signature"
|
||||||
|
| TC_timestamp -> "timestamp"
|
||||||
|
| TC_void -> "void"
|
||||||
|
|
||||||
let type_operators s =
|
let type_operators s =
|
||||||
match s with
|
match s with
|
||||||
"list" -> Some (TC_list)
|
"list" -> Some (TC_list)
|
||||||
@ -61,6 +78,23 @@ module Tree_abstraction = struct
|
|||||||
| "michelson_or_left_comb" -> Some (TC_michelson_or_left_comb)
|
| "michelson_or_left_comb" -> Some (TC_michelson_or_left_comb)
|
||||||
| _ -> None
|
| _ -> None
|
||||||
|
|
||||||
|
let type_operator_to_string s =
|
||||||
|
match s with
|
||||||
|
TC_list -> "list"
|
||||||
|
| TC_option -> "option"
|
||||||
|
| TC_set -> "set"
|
||||||
|
| TC_map -> "map"
|
||||||
|
| TC_big_map -> "big_map"
|
||||||
|
| TC_contract -> "contract"
|
||||||
|
| TC_michelson_pair -> "michelson_pair"
|
||||||
|
| TC_michelson_or -> "michelson_or"
|
||||||
|
| TC_michelson_pair_right_comb -> "michelson_pair_right_comb"
|
||||||
|
| TC_michelson_pair_left_comb -> "michelson_pair_left_comb"
|
||||||
|
| TC_michelson_or_right_comb -> "michelson_or_right_comb"
|
||||||
|
| TC_michelson_or_left_comb -> "michelson_or_left_comb"
|
||||||
|
| TC_map_or_big_map -> "map_or_big_map"
|
||||||
|
|
||||||
|
|
||||||
let pseudo_modules = function
|
let pseudo_modules = function
|
||||||
| "Tezos.chain_id" -> Some C_CHAIN_ID
|
| "Tezos.chain_id" -> Some C_CHAIN_ID
|
||||||
| "Tezos.balance" -> Some C_BALANCE
|
| "Tezos.balance" -> Some C_BALANCE
|
||||||
@ -165,6 +199,113 @@ module Tree_abstraction = struct
|
|||||||
| _ -> None
|
| _ -> None
|
||||||
|
|
||||||
|
|
||||||
|
let pseudo_module_to_string = function
|
||||||
|
| C_CHAIN_ID -> "Tezos.chain_id"
|
||||||
|
| C_BALANCE -> "Tezos.balance"
|
||||||
|
| C_NOW -> "Tezos.now"
|
||||||
|
| C_AMOUNT -> "Tezos.amount"
|
||||||
|
| C_SENDER -> "Tezos.sender"
|
||||||
|
| C_ADDRESS -> "Tezos.address"
|
||||||
|
| C_SELF -> "Tezos.self"
|
||||||
|
| C_SELF_ADDRESS -> "Tezos.self_address"
|
||||||
|
| C_IMPLICIT_ACCOUNT -> "Tezos.implicit_account"
|
||||||
|
| C_SOURCE -> "Tezos.source"
|
||||||
|
| C_FAILWITH -> "Tezos.failwith"
|
||||||
|
| C_CREATE_CONTRACT -> "Tezos.create_contract"
|
||||||
|
| C_CALL -> "Tezos.transaction"
|
||||||
|
| C_SET_DELEGATE -> "Tezos.set_delegate"
|
||||||
|
| C_CONTRACT_OPT -> "Tezos.get_contract_opt"
|
||||||
|
| C_CONTRACT_ENTRYPOINT_OPT -> "Tezos.get_entrypoint_opt"
|
||||||
|
| C_CONTRACT -> "Tezos.get_contract"
|
||||||
|
| C_CONTRACT_ENTRYPOINT -> "Tezos.get_entrypoint"
|
||||||
|
|
||||||
|
(* Crypto module *)
|
||||||
|
|
||||||
|
| C_CHECK_SIGNATURE -> "Crypto.check"
|
||||||
|
| C_HASH_KEY -> "Crypto.hash_key"
|
||||||
|
| C_BLAKE2b -> "Crypto.blake2b"
|
||||||
|
| C_SHA256 -> "Crypto.sha256"
|
||||||
|
| C_SHA512 -> "Crypto.sha512"
|
||||||
|
|
||||||
|
(* Bytes module *)
|
||||||
|
|
||||||
|
| C_BYTES_PACK -> "Bytes.pack"
|
||||||
|
| C_BYTES_UNPACK -> "Bytes.unpack"
|
||||||
|
| C_SIZE -> "Bytes.length"
|
||||||
|
| C_CONCAT -> "Bytes.concat"
|
||||||
|
| C_SLICE -> "Bytes.sub"
|
||||||
|
|
||||||
|
(* List module *)
|
||||||
|
|
||||||
|
(* | C_SIZE -> "List.size" *)
|
||||||
|
| C_LIST_ITER -> "List.iter"
|
||||||
|
| C_LIST_MAP -> "List.map"
|
||||||
|
| C_LIST_FOLD -> "List.fold"
|
||||||
|
|
||||||
|
(* Set module *)
|
||||||
|
|
||||||
|
| C_SET_EMPTY -> "Set.empty"
|
||||||
|
| C_SET_LITERAL -> "Set.literal"
|
||||||
|
(* | C_SIZE -> "Set.cardinal"*)
|
||||||
|
| C_SET_MEM -> "Set.mem"
|
||||||
|
| C_SET_ADD -> "Set.add"
|
||||||
|
| C_SET_REMOVE -> "Set.remove"
|
||||||
|
| C_SET_ITER -> "Set.iter"
|
||||||
|
| C_SET_FOLD -> "Set.fold"
|
||||||
|
|
||||||
|
(* Map module *)
|
||||||
|
|
||||||
|
| C_MAP_FIND_OPT -> "Map.find_opt"
|
||||||
|
| C_MAP_UPDATE -> "Map.update"
|
||||||
|
| C_MAP_ITER -> "Map.iter"
|
||||||
|
| C_MAP_MAP -> "Map.map"
|
||||||
|
| C_MAP_FOLD -> "Map.fold"
|
||||||
|
| C_MAP_MEM -> "Map.mem"
|
||||||
|
(* | C_SIZE -> "Map.size" *)
|
||||||
|
| C_MAP_ADD -> "Map.add"
|
||||||
|
| C_MAP_REMOVE -> "Map.remove"
|
||||||
|
| C_MAP_EMPTY -> "Map.empty"
|
||||||
|
| C_MAP_LITERAL -> "Map.literal"
|
||||||
|
|
||||||
|
(* Big_map module *)
|
||||||
|
|
||||||
|
| C_MAP_FIND -> "Big_map.find"
|
||||||
|
(* | C_MAP_FIND_OPT -> "Big_map.find_opt"
|
||||||
|
| C_MAP_UPDATE -> "Big_map.update" *)
|
||||||
|
| C_BIG_MAP_LITERAL -> "Big_map.literal"
|
||||||
|
| C_BIG_MAP_EMPTY -> "Big_map.empty"
|
||||||
|
(* | C_MAP_MEM -> "Big_map.mem"
|
||||||
|
| C_MAP_REMOVE -> "Big_map.remove"
|
||||||
|
| C_MAP_ADD -> "Big_map.add" *)
|
||||||
|
|
||||||
|
(* Bitwise module *)
|
||||||
|
|
||||||
|
| C_OR -> "Bitwise.or"
|
||||||
|
| C_AND -> "Bitwise.and"
|
||||||
|
| C_XOR -> "Bitwise.xor"
|
||||||
|
| C_LSL -> "Bitwise.shift_left"
|
||||||
|
| C_LSR -> "Bitwise.shift_right"
|
||||||
|
|
||||||
|
(* String module *)
|
||||||
|
|
||||||
|
(* | C_SIZE -> "String.length" (* will never trigger, rename size *)
|
||||||
|
| C_SLICE -> "String.sub"
|
||||||
|
| C_CONCAT -> "String.concat" *)
|
||||||
|
|
||||||
|
(* michelson pair/or type converter module *)
|
||||||
|
|
||||||
|
| C_CONVERT_TO_RIGHT_COMB -> "Layout.convert_to_right_comb"
|
||||||
|
| C_CONVERT_TO_LEFT_COMB -> "Layout.convert_to_left_comb"
|
||||||
|
| C_CONVERT_FROM_RIGHT_COMB -> "Layout.convert_from_right_comb"
|
||||||
|
| C_CONVERT_FROM_LEFT_COMB -> "Layout.convert_from_left_comb"
|
||||||
|
|
||||||
|
(* Not parsed *)
|
||||||
|
| C_SOME -> "Some"
|
||||||
|
| C_NONE -> "None"
|
||||||
|
|
||||||
|
| _ as c -> failwith @@ Format.asprintf "Constant not handled : %a" Stage_common.PP.constant c
|
||||||
|
|
||||||
|
|
||||||
module Pascaligo = struct
|
module Pascaligo = struct
|
||||||
let constants = function
|
let constants = function
|
||||||
(* Tezos module (ex-Michelson) *)
|
(* Tezos module (ex-Michelson) *)
|
||||||
@ -283,8 +424,46 @@ module Tree_abstraction = struct
|
|||||||
|
|
||||||
| _ as c -> pseudo_modules c
|
| _ as c -> pseudo_modules c
|
||||||
|
|
||||||
|
let constant_to_string = function
|
||||||
|
(* Tezos module (ex-Michelson) *)
|
||||||
|
| C_FAILWITH -> "failwith"
|
||||||
|
|
||||||
|
| C_IS_NAT -> "is_nat"
|
||||||
|
| C_INT -> "int"
|
||||||
|
| C_ABS -> "abs"
|
||||||
|
| C_EDIV -> "ediv"
|
||||||
|
| C_UNIT -> "unit"
|
||||||
|
|
||||||
|
| C_NEG -> "NEG"
|
||||||
|
| C_ADD -> "ADD"
|
||||||
|
| C_SUB -> "SUB"
|
||||||
|
| C_MUL -> "TIMES"
|
||||||
|
| C_DIV -> "DIV"
|
||||||
|
| C_MOD -> "MOD"
|
||||||
|
| C_EQ -> "EQ"
|
||||||
|
| C_NOT -> "NOT"
|
||||||
|
| C_AND -> "AND"
|
||||||
|
| C_OR -> "OR"
|
||||||
|
| C_GT -> "GT"
|
||||||
|
| C_GE -> "GE"
|
||||||
|
| C_LT -> "LT"
|
||||||
|
| C_LE -> "LE"
|
||||||
|
| C_CONS -> "CONS"
|
||||||
|
| C_NEQ -> "NEQ"
|
||||||
|
|
||||||
|
(*-> Others *)
|
||||||
|
|
||||||
|
| C_ASSERTION -> "assert"
|
||||||
|
|
||||||
|
| C_CONVERT_TO_RIGHT_COMB -> "Layout.convert_to_right_comb"
|
||||||
|
| C_CONVERT_TO_LEFT_COMB -> "Layout.convert_to_left_comb"
|
||||||
|
|
||||||
|
| _ as c -> pseudo_module_to_string c
|
||||||
|
|
||||||
let type_constants = type_constants
|
let type_constants = type_constants
|
||||||
let type_operators = type_operators
|
let type_operators = type_operators
|
||||||
|
let type_constant_to_string = type_constant_to_string
|
||||||
|
let type_operator_to_string = type_operator_to_string
|
||||||
end
|
end
|
||||||
|
|
||||||
module Cameligo = struct
|
module Cameligo = struct
|
||||||
@ -370,8 +549,43 @@ module Tree_abstraction = struct
|
|||||||
|
|
||||||
| _ as c -> pseudo_modules c
|
| _ as c -> pseudo_modules c
|
||||||
|
|
||||||
|
let constant_to_string = function
|
||||||
|
(* Tezos (ex-Michelson, ex-Current, ex-Operation) *)
|
||||||
|
| C_FAILWITH -> "failwith"
|
||||||
|
|
||||||
|
| C_IS_NAT -> "is_nat"
|
||||||
|
| C_INT -> "int"
|
||||||
|
| C_ABS -> "abs"
|
||||||
|
| C_EDIV -> "ediv"
|
||||||
|
| C_UNIT -> "unit"
|
||||||
|
|
||||||
|
| C_NEG -> "NEG"
|
||||||
|
| C_ADD -> "ADD"
|
||||||
|
| C_SUB -> "SUB"
|
||||||
|
| C_MUL -> "TIMES"
|
||||||
|
| C_DIV -> "DIV"
|
||||||
|
| C_MOD -> "MOD"
|
||||||
|
| C_EQ -> "EQ"
|
||||||
|
| C_NOT -> "NOT"
|
||||||
|
| C_AND -> "AND"
|
||||||
|
| C_OR -> "OR"
|
||||||
|
| C_GT -> "GT"
|
||||||
|
| C_GE -> "GE"
|
||||||
|
| C_LT -> "LT"
|
||||||
|
| C_LE -> "LE"
|
||||||
|
| C_CONS -> "CONS"
|
||||||
|
| C_NEQ -> "NEQ"
|
||||||
|
|
||||||
|
(* Others *)
|
||||||
|
|
||||||
|
| C_ASSERTION -> "assert"
|
||||||
|
|
||||||
|
| _ as c -> pseudo_module_to_string c
|
||||||
|
|
||||||
let type_constants = type_constants
|
let type_constants = type_constants
|
||||||
let type_operators = type_operators
|
let type_operators = type_operators
|
||||||
|
let type_constant_to_string = type_constant_to_string
|
||||||
|
let type_operator_to_string = type_operator_to_string
|
||||||
end
|
end
|
||||||
end
|
end
|
||||||
|
|
||||||
|
@ -6,12 +6,18 @@ module Tree_abstraction : sig
|
|||||||
val constants : string -> constant' option
|
val constants : string -> constant' option
|
||||||
val type_constants : string -> type_constant option
|
val type_constants : string -> type_constant option
|
||||||
val type_operators : string -> type_operator option
|
val type_operators : string -> type_operator option
|
||||||
|
val constant_to_string : constant' -> string
|
||||||
|
val type_constant_to_string : type_constant -> string
|
||||||
|
val type_operator_to_string : type_operator -> string
|
||||||
end
|
end
|
||||||
|
|
||||||
module Cameligo : sig
|
module Cameligo : sig
|
||||||
val constants : string -> constant' option
|
val constants : string -> constant' option
|
||||||
val type_constants : string -> type_constant option
|
val type_constants : string -> type_constant option
|
||||||
val type_operators : string -> type_operator option
|
val type_operators : string -> type_operator option
|
||||||
|
val constant_to_string : constant' -> string
|
||||||
|
val type_constant_to_string : type_constant -> string
|
||||||
|
val type_operator_to_string : type_operator -> string
|
||||||
end
|
end
|
||||||
|
|
||||||
end
|
end
|
||||||
|
@ -251,13 +251,13 @@ and expr =
|
|||||||
and annot_expr = expr * colon * type_expr
|
and annot_expr = expr * colon * type_expr
|
||||||
|
|
||||||
and 'a injection = {
|
and 'a injection = {
|
||||||
compound : compound;
|
compound : compound option;
|
||||||
elements : ('a, semi) sepseq;
|
elements : ('a, semi) sepseq;
|
||||||
terminator : semi option
|
terminator : semi option
|
||||||
}
|
}
|
||||||
|
|
||||||
and 'a ne_injection = {
|
and 'a ne_injection = {
|
||||||
compound : compound;
|
compound : compound option;
|
||||||
ne_elements : ('a, semi) nsepseq;
|
ne_elements : ('a, semi) nsepseq;
|
||||||
terminator : semi option
|
terminator : semi option
|
||||||
}
|
}
|
||||||
@ -395,8 +395,7 @@ and cond_expr = {
|
|||||||
test : expr;
|
test : expr;
|
||||||
kwd_then : kwd_then;
|
kwd_then : kwd_then;
|
||||||
ifso : expr;
|
ifso : expr;
|
||||||
kwd_else : kwd_else;
|
ifnot : (kwd_else * expr) option;
|
||||||
ifnot : expr
|
|
||||||
}
|
}
|
||||||
|
|
||||||
(* Code injection. Note how the field [language] wraps a region in
|
(* Code injection. Note how the field [language] wraps a region in
|
||||||
|
@ -63,6 +63,11 @@ let print_sepseq :
|
|||||||
None -> ()
|
None -> ()
|
||||||
| Some seq -> print_nsepseq state sep print seq
|
| Some seq -> print_nsepseq state sep print seq
|
||||||
|
|
||||||
|
let print_option : state -> (state -> 'a -> unit ) -> 'a option -> unit =
|
||||||
|
fun state print -> function
|
||||||
|
None -> ()
|
||||||
|
| Some opt -> print state opt
|
||||||
|
|
||||||
let print_csv state print {value; _} =
|
let print_csv state print {value; _} =
|
||||||
print_nsepseq state "," print value
|
print_nsepseq state "," print value
|
||||||
|
|
||||||
@ -244,11 +249,15 @@ and print_ne_injection :
|
|||||||
print_close_compound state compound
|
print_close_compound state compound
|
||||||
|
|
||||||
and print_open_compound state = function
|
and print_open_compound state = function
|
||||||
|
None -> ()
|
||||||
|
| Some compound -> match compound with
|
||||||
BeginEnd (kwd_begin,_) -> print_token state kwd_begin "begin"
|
BeginEnd (kwd_begin,_) -> print_token state kwd_begin "begin"
|
||||||
| Braces (lbrace,_) -> print_token state lbrace "{"
|
| Braces (lbrace,_) -> print_token state lbrace "{"
|
||||||
| Brackets (lbracket,_) -> print_token state lbracket "["
|
| Brackets (lbracket,_) -> print_token state lbracket "["
|
||||||
|
|
||||||
and print_close_compound state = function
|
and print_close_compound state = function
|
||||||
|
None -> ()
|
||||||
|
| Some compound -> match compound with
|
||||||
BeginEnd (_,kwd_end) -> print_token state kwd_end "end"
|
BeginEnd (_,kwd_end) -> print_token state kwd_end "end"
|
||||||
| Braces (_,rbrace) -> print_token state rbrace "}"
|
| Braces (_,rbrace) -> print_token state rbrace "}"
|
||||||
| Brackets (_,rbracket) -> print_token state rbracket "]"
|
| Brackets (_,rbracket) -> print_token state rbracket "]"
|
||||||
@ -584,14 +593,17 @@ and print_fun_expr state {value; _} =
|
|||||||
|
|
||||||
and print_conditional state {value; _} =
|
and print_conditional state {value; _} =
|
||||||
let {kwd_if; test; kwd_then;
|
let {kwd_if; test; kwd_then;
|
||||||
ifso; kwd_else; ifnot} = value in
|
ifso; ifnot} = value in
|
||||||
print_token state ghost "(";
|
print_token state ghost "(";
|
||||||
print_token state kwd_if "if";
|
print_token state kwd_if "if";
|
||||||
print_expr state test;
|
print_expr state test;
|
||||||
print_token state kwd_then "then";
|
print_token state kwd_then "then";
|
||||||
print_expr state ifso;
|
print_expr state ifso;
|
||||||
|
print_option state
|
||||||
|
(fun state (kwd_else,ifnot) ->
|
||||||
print_token state kwd_else "else";
|
print_token state kwd_else "else";
|
||||||
print_expr state ifnot;
|
print_expr state ifnot;
|
||||||
|
) ifnot;
|
||||||
print_token state ghost ")"
|
print_token state ghost ")"
|
||||||
|
|
||||||
(* Conversion to string *)
|
(* Conversion to string *)
|
||||||
@ -1114,10 +1126,12 @@ and pp_cond_expr state (cond: cond_expr) =
|
|||||||
let state = state#pad 3 1 in
|
let state = state#pad 3 1 in
|
||||||
pp_node state "<true>";
|
pp_node state "<true>";
|
||||||
pp_expr (state#pad 1 0) cond.ifso in
|
pp_expr (state#pad 1 0) cond.ifso in
|
||||||
let () =
|
let () = match cond.ifnot with
|
||||||
|
Some (_, ifnot) ->
|
||||||
let state = state#pad 3 2 in
|
let state = state#pad 3 2 in
|
||||||
pp_node state "<false>";
|
pp_node state "<false>";
|
||||||
pp_expr (state#pad 1 0) cond.ifnot
|
pp_expr (state#pad 1 0) ifnot
|
||||||
|
| None -> ()
|
||||||
in ()
|
in ()
|
||||||
|
|
||||||
and pp_case :
|
and pp_case :
|
||||||
|
@ -219,12 +219,17 @@ and fun_decl = {
|
|||||||
param : parameters;
|
param : parameters;
|
||||||
ret_type : (colon * type_expr) option;
|
ret_type : (colon * type_expr) option;
|
||||||
kwd_is : kwd_is;
|
kwd_is : kwd_is;
|
||||||
block_with : (block reg * kwd_with) option;
|
|
||||||
return : expr;
|
return : expr;
|
||||||
terminator : semi option;
|
terminator : semi option;
|
||||||
attributes : attr_decl option
|
attributes : attr_decl option
|
||||||
}
|
}
|
||||||
|
|
||||||
|
and block_with = {
|
||||||
|
block : block reg;
|
||||||
|
kwd_with : kwd_with;
|
||||||
|
expr : expr;
|
||||||
|
}
|
||||||
|
|
||||||
and parameters = (param_decl, semi) nsepseq par reg
|
and parameters = (param_decl, semi) nsepseq par reg
|
||||||
|
|
||||||
and param_decl =
|
and param_decl =
|
||||||
@ -382,15 +387,13 @@ and 'a case_clause = {
|
|||||||
and assignment = {
|
and assignment = {
|
||||||
lhs : lhs;
|
lhs : lhs;
|
||||||
assign : assign;
|
assign : assign;
|
||||||
rhs : rhs
|
rhs : expr;
|
||||||
}
|
}
|
||||||
|
|
||||||
and lhs =
|
and lhs =
|
||||||
Path of path
|
Path of path
|
||||||
| MapPath of map_lookup reg
|
| MapPath of map_lookup reg
|
||||||
|
|
||||||
and rhs = expr
|
|
||||||
|
|
||||||
and loop =
|
and loop =
|
||||||
While of while_loop reg
|
While of while_loop reg
|
||||||
| For of for_loop
|
| For of for_loop
|
||||||
@ -465,6 +468,7 @@ and expr =
|
|||||||
| EPar of expr par reg
|
| EPar of expr par reg
|
||||||
| EFun of fun_expr reg
|
| EFun of fun_expr reg
|
||||||
| ECodeInj of code_inj reg
|
| ECodeInj of code_inj reg
|
||||||
|
| EBlock of block_with reg
|
||||||
|
|
||||||
and annot_expr = expr * colon * type_expr
|
and annot_expr = expr * colon * type_expr
|
||||||
|
|
||||||
@ -691,7 +695,8 @@ let rec expr_to_region = function
|
|||||||
| ECond {region; _}
|
| ECond {region; _}
|
||||||
| EPar {region; _}
|
| EPar {region; _}
|
||||||
| EFun {region; _}
|
| EFun {region; _}
|
||||||
| ECodeInj {region; _} -> region
|
| ECodeInj {region; _}
|
||||||
|
| EBlock {region; _} -> region
|
||||||
|
|
||||||
and tuple_expr_to_region {region; _} = region
|
and tuple_expr_to_region {region; _} = region
|
||||||
|
|
||||||
@ -809,8 +814,6 @@ let lhs_to_region : lhs -> Region.t = function
|
|||||||
Path path -> path_to_region path
|
Path path -> path_to_region path
|
||||||
| MapPath {region; _} -> region
|
| MapPath {region; _} -> region
|
||||||
|
|
||||||
let rhs_to_region = expr_to_region
|
|
||||||
|
|
||||||
let selection_to_region = function
|
let selection_to_region = function
|
||||||
FieldName {region; _}
|
FieldName {region; _}
|
||||||
| Component {region; _} -> region
|
| Component {region; _} -> region
|
||||||
|
@ -218,18 +218,13 @@ and print_type_tuple state {value; _} =
|
|||||||
|
|
||||||
and print_fun_decl state {value; _} =
|
and print_fun_decl state {value; _} =
|
||||||
let {kwd_function; fun_name; param;
|
let {kwd_function; fun_name; param;
|
||||||
ret_type; kwd_is; block_with;
|
ret_type; kwd_is;
|
||||||
return; terminator; _} = value in
|
return; terminator; _} = value in
|
||||||
print_token state kwd_function "function";
|
print_token state kwd_function "function";
|
||||||
print_var state fun_name;
|
print_var state fun_name;
|
||||||
print_parameters state param;
|
print_parameters state param;
|
||||||
print_option state print_colon_type_expr ret_type;
|
print_option state print_colon_type_expr ret_type;
|
||||||
print_token state kwd_is "is";
|
print_token state kwd_is "is";
|
||||||
(match block_with with
|
|
||||||
None -> ()
|
|
||||||
| Some (block, kwd_with) ->
|
|
||||||
print_block state block;
|
|
||||||
print_token state kwd_with "with");
|
|
||||||
print_expr state return;
|
print_expr state return;
|
||||||
print_terminator state terminator;
|
print_terminator state terminator;
|
||||||
|
|
||||||
@ -252,6 +247,12 @@ and print_code_inj state {value; _} =
|
|||||||
print_expr state code;
|
print_expr state code;
|
||||||
print_token state rbracket "]"
|
print_token state rbracket "]"
|
||||||
|
|
||||||
|
and print_block_expr state {value; _} =
|
||||||
|
let {block;kwd_with;expr} = value in
|
||||||
|
print_block state block;
|
||||||
|
print_token state kwd_with "with";
|
||||||
|
print_expr state expr;
|
||||||
|
|
||||||
and print_parameters state {value; _} =
|
and print_parameters state {value; _} =
|
||||||
let {lpar; inside; rpar} = value in
|
let {lpar; inside; rpar} = value in
|
||||||
print_token state lpar "(";
|
print_token state lpar "(";
|
||||||
@ -475,6 +476,7 @@ and print_expr state = function
|
|||||||
| EPar e -> print_par_expr state e
|
| EPar e -> print_par_expr state e
|
||||||
| EFun e -> print_fun_expr state e
|
| EFun e -> print_fun_expr state e
|
||||||
| ECodeInj e -> print_code_inj state e
|
| ECodeInj e -> print_code_inj state e
|
||||||
|
| EBlock e -> print_block_expr state e
|
||||||
|
|
||||||
and print_annot_expr state node =
|
and print_annot_expr state node =
|
||||||
let {inside; _} : annot_expr par = node in
|
let {inside; _} : annot_expr par = node in
|
||||||
@ -919,11 +921,11 @@ and pp_attr_decl state = pp_ne_injection pp_string state
|
|||||||
and pp_fun_decl state decl =
|
and pp_fun_decl state decl =
|
||||||
let arity, start =
|
let arity, start =
|
||||||
match decl.kwd_recursive with
|
match decl.kwd_recursive with
|
||||||
None -> 5,0
|
None -> 4,0
|
||||||
| Some _ ->
|
| Some _ ->
|
||||||
let state = state#pad 6 0 in
|
let state = state#pad 5 0 in
|
||||||
let () = pp_node state "recursive"
|
let () = pp_node state "recursive"
|
||||||
in 6,1 in
|
in 5,1 in
|
||||||
let () =
|
let () =
|
||||||
let state = state#pad arity start in
|
let state = state#pad arity start in
|
||||||
pp_ident state decl.fun_name in
|
pp_ident state decl.fun_name in
|
||||||
@ -937,14 +939,6 @@ and pp_fun_decl state decl =
|
|||||||
print_option (state#pad 1 0) pp_type_expr @@ Option.map snd decl.ret_type in
|
print_option (state#pad 1 0) pp_type_expr @@ Option.map snd decl.ret_type in
|
||||||
let () =
|
let () =
|
||||||
let state = state#pad arity (start + 3) in
|
let state = state#pad arity (start + 3) in
|
||||||
pp_node state "<body>";
|
|
||||||
let statements =
|
|
||||||
match decl.block_with with
|
|
||||||
Some (block,_) -> block.value.statements
|
|
||||||
| None -> Instr (Skip Region.ghost), [] in
|
|
||||||
pp_statements state statements in
|
|
||||||
let () =
|
|
||||||
let state = state#pad arity (start + 4) in
|
|
||||||
pp_node state "<return>";
|
pp_node state "<return>";
|
||||||
pp_expr (state#pad 1 0) decl.return
|
pp_expr (state#pad 1 0) decl.return
|
||||||
in ()
|
in ()
|
||||||
@ -1039,6 +1033,19 @@ and pp_code_inj state rc =
|
|||||||
pp_expr (state#pad 1 0) rc.code
|
pp_expr (state#pad 1 0) rc.code
|
||||||
in ()
|
in ()
|
||||||
|
|
||||||
|
and pp_block_expr state (bw : block_with) =
|
||||||
|
let {block;expr;_}:CST.block_with = bw in
|
||||||
|
let () =
|
||||||
|
let state = state#pad 2 0 in
|
||||||
|
pp_node state "<block>";
|
||||||
|
pp_statements state block.value.statements
|
||||||
|
in
|
||||||
|
let () =
|
||||||
|
let state = state#pad 2 1 in
|
||||||
|
pp_node state "<expr>";
|
||||||
|
pp_expr (state#pad 1 0) expr in
|
||||||
|
()
|
||||||
|
|
||||||
and pp_parameters state {value; _} =
|
and pp_parameters state {value; _} =
|
||||||
let params = Utils.nsepseq_to_list value.inside in
|
let params = Utils.nsepseq_to_list value.inside in
|
||||||
let arity = List.length params in
|
let arity = List.length params in
|
||||||
@ -1521,6 +1528,9 @@ and pp_expr state = function
|
|||||||
| ECodeInj {value; region} ->
|
| ECodeInj {value; region} ->
|
||||||
pp_loc_node state "ECodeInj" region;
|
pp_loc_node state "ECodeInj" region;
|
||||||
pp_code_inj state value;
|
pp_code_inj state value;
|
||||||
|
| EBlock {value; region} ->
|
||||||
|
pp_loc_node state "EBlock" region;
|
||||||
|
pp_block_expr state value;
|
||||||
|
|
||||||
and pp_list_expr state = function
|
and pp_list_expr state = function
|
||||||
ECons {value; region} ->
|
ECons {value; region} ->
|
||||||
|
@ -19,6 +19,7 @@ val print_path : state -> CST.path -> unit
|
|||||||
val print_pattern : state -> CST.pattern -> unit
|
val print_pattern : state -> CST.pattern -> unit
|
||||||
val print_instruction : state -> CST.instruction -> unit
|
val print_instruction : state -> CST.instruction -> unit
|
||||||
val print_expr : state -> CST.expr -> unit
|
val print_expr : state -> CST.expr -> unit
|
||||||
|
val print_statements : state -> CST.statements -> unit
|
||||||
|
|
||||||
(** {1 Printing tokens from the CST in a string} *)
|
(** {1 Printing tokens from the CST in a string} *)
|
||||||
|
|
||||||
|
@ -2,16 +2,96 @@
|
|||||||
open Types
|
open Types
|
||||||
open Format
|
open Format
|
||||||
open PP_helpers
|
open PP_helpers
|
||||||
|
module Helpers = Stage_common.Helpers
|
||||||
include Stage_common.PP
|
include Stage_common.PP
|
||||||
include Ast_PP_type(Ast_core_parameter)
|
|
||||||
|
|
||||||
|
let cmap_sep value sep ppf m =
|
||||||
|
let lst = CMap.to_kv_list m in
|
||||||
|
let lst = List.sort (fun (Constructor a,_) (Constructor b,_) -> String.compare a b) lst in
|
||||||
|
let new_pp ppf (k, {ctor_type;_}) = fprintf ppf "@[<h>%a -> %a@]" constructor k value ctor_type in
|
||||||
|
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||||
|
let cmap_sep_d x = cmap_sep x (tag " ,@ ")
|
||||||
|
|
||||||
|
let record_sep value sep ppf (m : 'a label_map) =
|
||||||
|
let lst = LMap.to_kv_list m in
|
||||||
|
let lst = List.sort_uniq (fun (Label a,_) (Label b,_) -> String.compare a b) lst in
|
||||||
|
let new_pp ppf (k, {field_type;_}) = fprintf ppf "@[<h>%a -> %a@]" label k value field_type in
|
||||||
|
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||||
|
|
||||||
|
let tuple_sep value sep ppf m =
|
||||||
|
assert (Helpers.is_tuple_lmap m);
|
||||||
|
let lst = Helpers.tuple_of_record m in
|
||||||
|
let new_pp ppf (_, {field_type;_}) = fprintf ppf "%a" value field_type in
|
||||||
|
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||||
|
|
||||||
|
let record_sep_expr value sep ppf (m : 'a label_map) =
|
||||||
|
let lst = LMap.to_kv_list m in
|
||||||
|
let lst = List.sort_uniq (fun (Label a,_) (Label b,_) -> String.compare a b) lst in
|
||||||
|
let new_pp ppf (k, v) = fprintf ppf "@[<h>%a -> %a@]" label k value v in
|
||||||
|
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||||
|
|
||||||
|
let tuple_sep_expr value sep ppf m =
|
||||||
|
assert (Helpers.is_tuple_lmap m);
|
||||||
|
let lst = Helpers.tuple_of_record m in
|
||||||
|
let new_pp ppf (_,v) = fprintf ppf "%a" value v in
|
||||||
|
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||||
|
|
||||||
|
(* Prints records which only contain the consecutive fields
|
||||||
|
0..(cardinal-1) as tuples *)
|
||||||
|
let tuple_or_record_sep_t value format_record sep_record format_tuple sep_tuple ppf m =
|
||||||
|
if Helpers.is_tuple_lmap m then
|
||||||
|
fprintf ppf format_tuple (tuple_sep value (tag sep_tuple)) m
|
||||||
|
else
|
||||||
|
fprintf ppf format_record (record_sep value (tag sep_record)) m
|
||||||
|
|
||||||
|
let tuple_or_record_sep_expr value format_record sep_record format_tuple sep_tuple ppf m =
|
||||||
|
if Helpers.is_tuple_lmap m then
|
||||||
|
fprintf ppf format_tuple (tuple_sep_expr value (tag sep_tuple)) m
|
||||||
|
else
|
||||||
|
fprintf ppf format_record (record_sep_expr value (tag sep_record)) m
|
||||||
|
|
||||||
|
let tuple_or_record_sep_expr value = tuple_or_record_sep_expr value "@[<hv 7>record[%a]@]" " ,@ " "@[<hv 2>( %a )@]" " ,@ "
|
||||||
|
let tuple_or_record_sep_type value = tuple_or_record_sep_t value "@[<hv 7>record[%a]@]" " ,@ " "@[<hv 2>( %a )@]" " *@ "
|
||||||
|
|
||||||
|
let rec type_content : formatter -> type_expression -> unit =
|
||||||
|
fun ppf te ->
|
||||||
|
match te.content with
|
||||||
|
| T_sum m -> fprintf ppf "@[<hv 4>sum[%a]@]" (cmap_sep_d type_expression) m
|
||||||
|
| T_record m -> fprintf ppf "%a" (tuple_or_record_sep_type type_expression) m
|
||||||
|
| T_arrow a -> fprintf ppf "%a -> %a" type_expression a.type1 type_expression a.type2
|
||||||
|
| T_variable tv -> type_variable ppf tv
|
||||||
|
| T_constant tc -> type_constant ppf tc
|
||||||
|
| T_operator to_ -> type_operator type_expression ppf to_
|
||||||
|
|
||||||
|
and type_expression ppf (te : type_expression) : unit =
|
||||||
|
fprintf ppf "%a" type_content te
|
||||||
|
|
||||||
|
and type_operator : (formatter -> type_expression -> unit) -> formatter -> type_operator * type_expression list -> unit =
|
||||||
|
fun f ppf to_ ->
|
||||||
|
let s = match to_ with
|
||||||
|
TC_option , lst -> Format.asprintf "option(%a)" (list_sep_d f) lst
|
||||||
|
| TC_list , lst -> Format.asprintf "list(%a)" (list_sep_d f) lst
|
||||||
|
| TC_set , lst -> Format.asprintf "set(%a)" (list_sep_d f) lst
|
||||||
|
| TC_map , lst -> Format.asprintf "Map (%a)" (list_sep_d f) lst
|
||||||
|
| TC_big_map , lst -> Format.asprintf "Big Map (%a)" (list_sep_d f) lst
|
||||||
|
| TC_map_or_big_map , lst -> Format.asprintf "Map Or Big Map (%a)" (list_sep_d f) lst
|
||||||
|
| TC_contract , lst -> Format.asprintf "Contract (%a)" (list_sep_d f) lst
|
||||||
|
| TC_michelson_pair , lst -> Format.asprintf "michelson_pair (%a)" (list_sep_d f) lst
|
||||||
|
| TC_michelson_or , lst -> Format.asprintf "michelson_or (%a)" (list_sep_d f) lst
|
||||||
|
| TC_michelson_pair_right_comb , lst -> Format.asprintf "michelson_pair_right_comb (%a)" (list_sep_d f) lst
|
||||||
|
| TC_michelson_pair_left_comb , lst -> Format.asprintf "michelson_pair_left_comb (%a)" (list_sep_d f) lst
|
||||||
|
| TC_michelson_or_right_comb , lst -> Format.asprintf "michelson_or_right_comb (%a)" (list_sep_d f) lst
|
||||||
|
| TC_michelson_or_left_comb , lst -> Format.asprintf "michelson_or_left_comb (%a)" (list_sep_d f) lst
|
||||||
|
in
|
||||||
|
fprintf ppf "(type_operator: %s)" s
|
||||||
|
|
||||||
let expression_variable ppf (ev : expression_variable) : unit =
|
let expression_variable ppf (ev : expression_variable) : unit =
|
||||||
fprintf ppf "%a" Var.pp ev
|
fprintf ppf "%a" Var.pp ev
|
||||||
|
|
||||||
|
|
||||||
let rec expression ppf (e : expression) =
|
let rec expression ppf (e : expression) =
|
||||||
expression_content ppf e.expression_content
|
expression_content ppf e.content
|
||||||
and expression_content ppf (ec : expression_content) =
|
and expression_content ppf (ec : expression_content) =
|
||||||
match ec with
|
match ec with
|
||||||
| E_literal l ->
|
| E_literal l ->
|
||||||
@ -109,10 +189,10 @@ let declaration ppf (d : declaration) =
|
|||||||
match d with
|
match d with
|
||||||
| Declaration_type (type_name, te) ->
|
| Declaration_type (type_name, te) ->
|
||||||
fprintf ppf "@[<2>type %a =@ %a@]" type_variable type_name type_expression te
|
fprintf ppf "@[<2>type %a =@ %a@]" type_variable type_name type_expression te
|
||||||
| Declaration_constant (name, ty_opt, i, expr) ->
|
| Declaration_constant (name, ty_opt, attr, expr) ->
|
||||||
fprintf ppf "@[<2>const %a =@ %a%a@]" option_type_name (name, ty_opt) expression
|
fprintf ppf "@[<2>const %a =@ %a%a@]" option_type_name (name, ty_opt) expression
|
||||||
expr
|
expr
|
||||||
option_inline i
|
option_inline attr.inline
|
||||||
|
|
||||||
let program ppf (p : program) =
|
let program ppf (p : program) =
|
||||||
fprintf ppf "@[<v>%a@]"
|
fprintf ppf "@[<v>%a@]"
|
||||||
|
@ -3,109 +3,108 @@ module Option = Simple_utils.Option
|
|||||||
|
|
||||||
module SMap = Map.String
|
module SMap = Map.String
|
||||||
|
|
||||||
let make_t ?(loc = Location.generated) type_content = {type_content; location=loc; type_meta = ()}
|
let make_t ?(loc = Location.generated) ?sugar content = ({content; sugar; location=loc}: type_expression)
|
||||||
|
|
||||||
let tuple_to_record lst =
|
let tuple_to_record lst =
|
||||||
let aux (i,acc) el = (i+1,(string_of_int i, el)::acc) in
|
let aux (i,acc) el = (i+1,(string_of_int i, el)::acc) in
|
||||||
let (_, lst ) = List.fold_left aux (0,[]) lst in
|
let (_, lst ) = List.fold_left aux (0,[]) lst in
|
||||||
lst
|
lst
|
||||||
|
|
||||||
let t_bool ?loc () : type_expression = make_t ?loc @@ T_variable (Stage_common.Constant.t_bool)
|
let t_bool ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_variable (Stage_common.Constant.t_bool)
|
||||||
let t_string ?loc () : type_expression = make_t ?loc @@ T_constant (TC_string)
|
let t_string ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_string)
|
||||||
let t_bytes ?loc () : type_expression = make_t ?loc @@ T_constant (TC_bytes)
|
let t_bytes ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_bytes)
|
||||||
let t_int ?loc () : type_expression = make_t ?loc @@ T_constant (TC_int)
|
let t_int ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_int)
|
||||||
let t_operation ?loc () : type_expression = make_t ?loc @@ T_constant (TC_operation)
|
let t_operation ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_operation)
|
||||||
let t_nat ?loc () : type_expression = make_t ?loc @@ T_constant (TC_nat)
|
let t_nat ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_nat)
|
||||||
let t_tez ?loc () : type_expression = make_t ?loc @@ T_constant (TC_mutez)
|
let t_tez ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_mutez)
|
||||||
let t_unit ?loc () : type_expression = make_t ?loc @@ T_constant (TC_unit)
|
let t_unit ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_unit)
|
||||||
let t_address ?loc () : type_expression = make_t ?loc @@ T_constant (TC_address)
|
let t_address ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_address)
|
||||||
let t_signature ?loc () : type_expression = make_t ?loc @@ T_constant (TC_signature)
|
let t_signature ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_signature)
|
||||||
let t_key ?loc () : type_expression = make_t ?loc @@ T_constant (TC_key)
|
let t_key ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_key)
|
||||||
let t_key_hash ?loc () : type_expression = make_t ?loc @@ T_constant (TC_key_hash)
|
let t_key_hash ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_key_hash)
|
||||||
let t_timestamp ?loc () : type_expression = make_t ?loc @@ T_constant (TC_timestamp)
|
let t_timestamp ?loc ?sugar () : type_expression = make_t ?loc ?sugar @@ T_constant (TC_timestamp)
|
||||||
let t_option ?loc o : type_expression = make_t ?loc @@ T_operator (TC_option, [o])
|
let t_option ?loc ?sugar o : type_expression = make_t ?loc ?sugar @@ T_operator (TC_option, [o])
|
||||||
let t_list ?loc t : type_expression = make_t ?loc @@ T_operator (TC_list, [t])
|
let t_list ?loc ?sugar t : type_expression = make_t ?loc ?sugar @@ T_operator (TC_list, [t])
|
||||||
let t_variable ?loc n : type_expression = make_t ?loc @@ T_variable (Var.of_name n)
|
let t_variable ?loc ?sugar n : type_expression = make_t ?loc ?sugar @@ T_variable (Var.of_name n)
|
||||||
let t_record_ez ?loc lst =
|
let t_record_ez ?loc ?sugar lst =
|
||||||
let lst = List.map (fun (k, v) -> (Label k, v)) lst in
|
let lst = List.map (fun (k, v) -> (Label k, v)) lst in
|
||||||
let m = LMap.of_list lst in
|
let m = LMap.of_list lst in
|
||||||
make_t ?loc @@ T_record m
|
make_t ?loc ?sugar @@ T_record m
|
||||||
let t_record ?loc m : type_expression =
|
let t_record ?loc ?sugar m : type_expression =
|
||||||
let lst = Map.String.to_kv_list m in
|
let lst = Map.String.to_kv_list m in
|
||||||
t_record_ez ?loc lst
|
t_record_ez ?loc ?sugar lst
|
||||||
|
|
||||||
let t_pair ?loc (a , b) : type_expression = t_record_ez ?loc [("0",a) ; ("1",b)]
|
let t_pair ?loc ?sugar (a , b) : type_expression = t_record_ez ?loc ?sugar [("0",a) ; ("1",b)]
|
||||||
let t_tuple ?loc lst : type_expression = t_record_ez ?loc (tuple_to_record lst)
|
let t_tuple ?loc ?sugar lst : type_expression = t_record_ez ?loc ?sugar (tuple_to_record lst)
|
||||||
|
|
||||||
let ez_t_sum ?loc (lst:(string * ctor_content) list) : type_expression =
|
let ez_t_sum ?loc ?sugar (lst:(string * ctor_content) list) : type_expression =
|
||||||
let aux prev (k, v) = CMap.add (Constructor k) v prev in
|
let aux prev (k, v) = CMap.add (Constructor k) v prev in
|
||||||
let map = List.fold_left aux CMap.empty lst in
|
let map = List.fold_left aux CMap.empty lst in
|
||||||
make_t ?loc @@ T_sum map
|
make_t ?loc ?sugar @@ T_sum map
|
||||||
let t_sum ?loc m : type_expression =
|
let t_sum ?loc ?sugar m : type_expression =
|
||||||
let lst = Map.String.to_kv_list m in
|
let lst = Map.String.to_kv_list m in
|
||||||
ez_t_sum ?loc lst
|
ez_t_sum ?loc ?sugar lst
|
||||||
|
|
||||||
let t_function ?loc type1 type2 : type_expression = make_t ?loc @@ T_arrow {type1; type2}
|
let t_function ?loc ?sugar type1 type2 : type_expression = make_t ?loc ?sugar @@ T_arrow {type1; type2}
|
||||||
|
let t_operator ?loc ?sugar op lst : type_expression = make_t ?loc ?sugar @@ T_operator (op, lst)
|
||||||
|
let t_map ?loc ?sugar key value : type_expression = make_t ?loc ?sugar @@ T_operator (TC_map, [key; value])
|
||||||
|
let t_big_map ?loc ?sugar key value : type_expression = make_t ?loc ?sugar @@ T_operator (TC_big_map, [key; value])
|
||||||
|
let t_set ?loc ?sugar key : type_expression = make_t ?loc ?sugar @@ T_operator (TC_set, [key])
|
||||||
|
let t_contract ?loc ?sugar contract : type_expression = make_t ?loc ?sugar @@ T_operator (TC_contract, [contract])
|
||||||
|
|
||||||
let t_operator ?loc op lst : type_expression = make_t ?loc @@ T_operator (op, lst)
|
let make_e ?(loc = Location.generated) ?sugar content = {content; sugar; location=loc }
|
||||||
let t_map ?loc key value : type_expression = make_t ?loc @@ T_operator (TC_map, [key; value])
|
|
||||||
let t_big_map ?loc key value : type_expression = make_t ?loc @@ T_operator (TC_big_map, [key; value])
|
|
||||||
let t_set ?loc key : type_expression = make_t ?loc @@ T_operator (TC_set, [key])
|
|
||||||
let t_contract ?loc contract : type_expression = make_t ?loc @@ T_operator (TC_contract, [contract])
|
|
||||||
|
|
||||||
let make_e ?(loc = Location.generated) expression_content = { expression_content; location=loc }
|
let e_var ?loc ?sugar n : expression = make_e ?loc ?sugar @@ E_variable (Var.of_name n)
|
||||||
|
let e_literal ?loc ?sugar l : expression = make_e ?loc ?sugar @@ E_literal l
|
||||||
let e_var ?loc (n: string) : expression = make_e ?loc @@ E_variable (Var.of_name n)
|
let e_unit ?loc ?sugar () : expression = make_e ?loc ?sugar @@ E_literal (Literal_unit)
|
||||||
let e_literal ?loc l : expression = make_e ?loc @@ E_literal l
|
let e_int ?loc ?sugar n : expression = make_e ?loc ?sugar @@ E_literal (Literal_int n)
|
||||||
let e_unit ?loc () : expression = make_e ?loc @@ E_literal (Literal_unit)
|
let e_nat ?loc ?sugar n : expression = make_e ?loc ?sugar @@ E_literal (Literal_nat n)
|
||||||
let e_int ?loc n : expression = make_e ?loc @@ E_literal (Literal_int n)
|
let e_timestamp ?loc ?sugar n : expression = make_e ?loc ?sugar @@ E_literal (Literal_timestamp n)
|
||||||
let e_nat ?loc n : expression = make_e ?loc @@ E_literal (Literal_nat n)
|
let e_string ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_string s)
|
||||||
let e_timestamp ?loc n : expression = make_e ?loc @@ E_literal (Literal_timestamp n)
|
let e_address ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_address s)
|
||||||
let e_string ?loc s : expression = make_e ?loc @@ E_literal (Literal_string s)
|
let e_mutez ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_mutez s)
|
||||||
let e_address ?loc s : expression = make_e ?loc @@ E_literal (Literal_address s)
|
let e_signature ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_signature s)
|
||||||
let e_mutez ?loc s : expression = make_e ?loc @@ E_literal (Literal_mutez s)
|
let e_key ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_key s)
|
||||||
let e_signature ?loc s : expression = make_e ?loc @@ E_literal (Literal_signature s)
|
let e_key_hash ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_key_hash s)
|
||||||
let e_key ?loc s : expression = make_e ?loc @@ E_literal (Literal_key s)
|
let e_chain_id ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_literal (Literal_chain_id s)
|
||||||
let e_key_hash ?loc s : expression = make_e ?loc @@ E_literal (Literal_key_hash s)
|
|
||||||
let e_chain_id ?loc s : expression = make_e ?loc @@ E_literal (Literal_chain_id s)
|
|
||||||
let e'_bytes b : expression_content =
|
let e'_bytes b : expression_content =
|
||||||
let bytes = Hex.to_bytes (`Hex b) in
|
let bytes = Hex.to_bytes (`Hex b) in
|
||||||
E_literal (Literal_bytes bytes)
|
E_literal (Literal_bytes bytes)
|
||||||
let e_bytes_hex ?loc b : expression =
|
let e_bytes_hex ?loc ?sugar b : expression =
|
||||||
let e' = e'_bytes b in
|
let e' = e'_bytes b in
|
||||||
make_e ?loc e'
|
make_e ?loc ?sugar e'
|
||||||
let e_bytes_raw ?loc (b: bytes) : expression =
|
let e_bytes_raw ?loc ?sugar (b: bytes) : expression =
|
||||||
make_e ?loc @@ E_literal (Literal_bytes b)
|
make_e ?loc ?sugar @@ E_literal (Literal_bytes b)
|
||||||
let e_bytes_string ?loc (s: string) : expression =
|
let e_bytes_string ?loc ?sugar (s: string) : expression =
|
||||||
make_e ?loc @@ E_literal (Literal_bytes (Hex.to_bytes (Hex.of_string s)))
|
make_e ?loc ?sugar @@ E_literal (Literal_bytes (Hex.to_bytes (Hex.of_string s)))
|
||||||
let e_some ?loc s : expression = make_e ?loc @@ E_constant {cons_name = C_SOME; arguments = [s]}
|
let e_some ?loc ?sugar s : expression = make_e ?loc ?sugar @@ E_constant {cons_name = C_SOME; arguments = [s]}
|
||||||
let e_none ?loc () : expression = make_e ?loc @@ E_constant {cons_name = C_NONE; arguments = []}
|
let e_none ?loc ?sugar () : expression = make_e ?loc ?sugar @@ E_constant {cons_name = C_NONE; arguments = []}
|
||||||
let e_string_cat ?loc sl sr : expression = make_e ?loc @@ E_constant {cons_name = C_CONCAT; arguments = [sl ; sr ]}
|
let e_string_cat ?loc ?sugar sl sr : expression = make_e ?loc ?sugar @@ E_constant {cons_name = C_CONCAT; arguments = [sl ; sr ]}
|
||||||
let e_map_add ?loc k v old : expression = make_e ?loc @@ E_constant {cons_name = C_MAP_ADD; arguments = [k ; v ; old]}
|
let e_map_add ?loc ?sugar k v old : expression = make_e ?loc ?sugar @@ E_constant {cons_name = C_MAP_ADD; arguments = [k ; v ; old]}
|
||||||
|
|
||||||
let e_constant ?loc name lst = make_e ?loc @@ E_constant {cons_name=name ; arguments = lst}
|
let e_constant ?loc ?sugar name lst = make_e ?loc ?sugar @@ E_constant {cons_name=name ; arguments = lst}
|
||||||
let e_variable ?loc v = make_e ?loc @@ E_variable v
|
let e_variable ?loc ?sugar v = make_e ?loc ?sugar @@ E_variable v
|
||||||
let e_application ?loc a b = make_e ?loc @@ E_application {lamb=a ; args=b}
|
let e_application ?loc ?sugar a b = make_e ?loc ?sugar @@ E_application {lamb=a ; args=b}
|
||||||
let e_lambda ?loc binder input_type output_type result = make_e ?loc @@ E_lambda {binder; input_type; output_type; result ; }
|
let e_lambda ?loc ?sugar binder input_type output_type result = make_e ?loc ?sugar @@ E_lambda {binder; input_type; output_type; result ; }
|
||||||
let e_recursive ?loc fun_name fun_type lambda = make_e ?loc @@ E_recursive {fun_name; fun_type; lambda}
|
let e_recursive ?loc ?sugar fun_name fun_type lambda = make_e ?loc ?sugar @@ E_recursive {fun_name; fun_type; lambda}
|
||||||
let e_let_in ?loc (binder, ascr) inline rhs let_result = make_e ?loc @@ E_let_in { let_binder = (binder,ascr) ; rhs ; let_result; inline }
|
let e_let_in ?loc ?sugar (binder, ascr) inline rhs let_result = make_e ?loc ?sugar @@ E_let_in { let_binder = (binder,ascr) ; rhs ; let_result; inline }
|
||||||
let e_raw_code ?loc language code = make_e ?loc @@ E_raw_code {language; code}
|
let e_raw_code ?loc ?sugar language code = make_e ?loc ?sugar @@ E_raw_code {language; code}
|
||||||
|
|
||||||
let e_constructor ?loc s a : expression = make_e ?loc @@ E_constructor { constructor = Constructor s; element = a}
|
let e_constructor ?loc ?sugar s a : expression = make_e ?loc ?sugar @@ E_constructor { constructor = Constructor s; element = a}
|
||||||
let e_matching ?loc a b : expression = make_e ?loc @@ E_matching {matchee=a;cases=b}
|
let e_matching ?loc ?sugar a b : expression = make_e ?loc ?sugar @@ E_matching {matchee=a;cases=b}
|
||||||
|
|
||||||
let e_record ?loc map = make_e ?loc @@ E_record map
|
let e_record ?loc ?sugar map = make_e ?loc ?sugar @@ E_record map
|
||||||
let e_record_accessor ?loc a b = make_e ?loc @@ E_record_accessor {record = a; path = b}
|
let e_record_accessor ?loc ?sugar a b = make_e ?loc ?sugar @@ E_record_accessor {record = a; path = b}
|
||||||
let e_record_update ?loc record path update = make_e ?loc @@ E_record_update {record; path; update}
|
let e_record_update ?loc ?sugar record path update = make_e ?loc ?sugar @@ E_record_update {record; path; update}
|
||||||
|
|
||||||
let e_annotation ?loc anno_expr ty = make_e ?loc @@ E_ascription {anno_expr; type_annotation = ty}
|
let e_annotation ?loc ?sugar anno_expr ty = make_e ?loc ?sugar @@ E_ascription {anno_expr; type_annotation = ty}
|
||||||
|
|
||||||
let e_bool ?loc b : expression = e_constructor ?loc (string_of_bool b) (e_unit ())
|
let e_bool ?loc ?sugar b : expression = e_constructor ?loc ?sugar (string_of_bool b) (e_unit ())
|
||||||
|
|
||||||
let make_option_typed ?loc e t_opt =
|
let make_option_typed ?loc ?sugar e t_opt =
|
||||||
match t_opt with
|
match t_opt with
|
||||||
| None -> e
|
| None -> e
|
||||||
| Some t -> e_annotation ?loc e t
|
| Some t -> e_annotation ?loc ?sugar e t
|
||||||
|
|
||||||
let e_typed_none ?loc t_opt =
|
let e_typed_none ?loc t_opt =
|
||||||
let type_annotation = t_option t_opt in
|
let type_annotation = t_option t_opt in
|
||||||
@ -139,7 +138,7 @@ let get_e_list = fun t ->
|
|||||||
let rec aux t =
|
let rec aux t =
|
||||||
match t with
|
match t with
|
||||||
E_constant {cons_name=C_CONS;arguments=[key;lst]} ->
|
E_constant {cons_name=C_CONS;arguments=[key;lst]} ->
|
||||||
let lst = aux lst.expression_content in
|
let lst = aux lst.content in
|
||||||
(Some key)::(lst)
|
(Some key)::(lst)
|
||||||
| E_constant {cons_name=C_LIST_EMPTY;arguments=[]} ->
|
| E_constant {cons_name=C_LIST_EMPTY;arguments=[]} ->
|
||||||
[]
|
[]
|
||||||
@ -161,7 +160,7 @@ let get_e_ascription = fun a ->
|
|||||||
|
|
||||||
(* Same as get_e_pair *)
|
(* Same as get_e_pair *)
|
||||||
let extract_pair : expression -> (expression * expression) option = fun e ->
|
let extract_pair : expression -> (expression * expression) option = fun e ->
|
||||||
match e.expression_content with
|
match e.content with
|
||||||
| E_record r -> (
|
| E_record r -> (
|
||||||
let lst = LMap.to_kv_list r in
|
let lst = LMap.to_kv_list r in
|
||||||
match lst with
|
match lst with
|
||||||
@ -173,13 +172,13 @@ let extract_pair : expression -> (expression * expression) option = fun e ->
|
|||||||
| _ -> None
|
| _ -> None
|
||||||
|
|
||||||
let extract_record : expression -> (label * expression) list option = fun e ->
|
let extract_record : expression -> (label * expression) list option = fun e ->
|
||||||
match e.expression_content with
|
match e.content with
|
||||||
| E_record lst -> Some (LMap.to_kv_list lst)
|
| E_record lst -> Some (LMap.to_kv_list lst)
|
||||||
| _ -> None
|
| _ -> None
|
||||||
|
|
||||||
let extract_map : expression -> (expression * expression) list option = fun e ->
|
let extract_map : expression -> (expression * expression) list option = fun e ->
|
||||||
let rec aux e =
|
let rec aux e =
|
||||||
match e.expression_content with
|
match e.content with
|
||||||
E_constant {cons_name=C_UPDATE|C_MAP_ADD; arguments=[k;v;map]} ->
|
E_constant {cons_name=C_UPDATE|C_MAP_ADD; arguments=[k;v;map]} ->
|
||||||
let map = aux map in
|
let map = aux map in
|
||||||
(Some (k,v))::map
|
(Some (k,v))::map
|
||||||
|
@ -1,86 +1,86 @@
|
|||||||
open Types
|
open Types
|
||||||
|
|
||||||
val make_t : ?loc:Location.t -> type_content -> type_expression
|
val make_t : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_content -> type_expression
|
||||||
val t_bool : ?loc:Location.t -> unit -> type_expression
|
val t_bool : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_string : ?loc:Location.t -> unit -> type_expression
|
val t_string : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_bytes : ?loc:Location.t -> unit -> type_expression
|
val t_bytes : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_int : ?loc:Location.t -> unit -> type_expression
|
val t_int : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_operation : ?loc:Location.t -> unit -> type_expression
|
val t_operation : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_nat : ?loc:Location.t -> unit -> type_expression
|
val t_nat : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_tez : ?loc:Location.t -> unit -> type_expression
|
val t_tez : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_unit : ?loc:Location.t -> unit -> type_expression
|
val t_unit : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_address : ?loc:Location.t -> unit -> type_expression
|
val t_address : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_key : ?loc:Location.t -> unit -> type_expression
|
val t_key : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_key_hash : ?loc:Location.t -> unit -> type_expression
|
val t_key_hash : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_timestamp : ?loc:Location.t -> unit -> type_expression
|
val t_timestamp : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
val t_signature : ?loc:Location.t -> unit -> type_expression
|
val t_signature : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> unit -> type_expression
|
||||||
(*
|
(*
|
||||||
val t_option : type_expression -> type_expression
|
val t_option : type_expression -> type_expression
|
||||||
*)
|
*)
|
||||||
val t_list : ?loc:Location.t -> type_expression -> type_expression
|
val t_list : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_expression -> type_expression
|
||||||
val t_variable : ?loc:Location.t -> string -> type_expression
|
val t_variable : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> string -> type_expression
|
||||||
(*
|
(*
|
||||||
val t_record : te_map -> type_expression
|
val t_record : te_map -> type_expression
|
||||||
*)
|
*)
|
||||||
val t_pair : ?loc:Location.t -> ( field_content * field_content ) -> type_expression
|
val t_pair : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> ( field_content * field_content ) -> type_expression
|
||||||
val t_tuple : ?loc:Location.t -> field_content list -> type_expression
|
val t_tuple : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> field_content list -> type_expression
|
||||||
|
|
||||||
val t_record : ?loc:Location.t -> field_content Map.String.t -> type_expression
|
val t_record : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> field_content Map.String.t -> type_expression
|
||||||
val t_record_ez : ?loc:Location.t -> (string * field_content) list -> type_expression
|
val t_record_ez : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> (string * field_content) list -> type_expression
|
||||||
|
|
||||||
val t_sum : ?loc:Location.t -> Types.ctor_content Map.String.t -> type_expression
|
val t_sum : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> Types.ctor_content Map.String.t -> type_expression
|
||||||
val ez_t_sum : ?loc:Location.t -> ( string * Types.ctor_content ) list -> type_expression
|
val ez_t_sum : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> ( string * Types.ctor_content ) list -> type_expression
|
||||||
|
|
||||||
val t_function : ?loc:Location.t -> type_expression -> type_expression -> type_expression
|
val t_function : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_expression -> type_expression -> type_expression
|
||||||
|
|
||||||
val t_operator : ?loc:Location.t -> type_operator -> type_expression list -> type_expression
|
val t_operator : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_operator -> type_expression list -> type_expression
|
||||||
val t_map : ?loc:Location.t -> type_expression -> type_expression -> type_expression
|
val t_map : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_expression -> type_expression -> type_expression
|
||||||
val t_big_map : ?loc:Location.t -> type_expression -> type_expression -> type_expression
|
val t_big_map : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_expression -> type_expression -> type_expression
|
||||||
val t_contract : ?loc:Location.t -> type_expression -> type_expression
|
val t_contract : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_expression -> type_expression
|
||||||
val t_set : ?loc:Location.t -> type_expression -> type_expression
|
val t_set : ?loc:Location.t -> ?sugar:Ast_sugar.type_expression -> type_expression -> type_expression
|
||||||
|
|
||||||
val make_e : ?loc:Location.t -> expression_content -> expression
|
val make_e : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression_content -> expression
|
||||||
val e_var : ?loc:Location.t -> string -> expression
|
val e_var : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_literal : ?loc:Location.t -> literal -> expression
|
val e_literal : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> literal -> expression
|
||||||
val e_unit : ?loc:Location.t -> unit -> expression
|
val e_unit : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> unit -> expression
|
||||||
val e_int : ?loc:Location.t -> Z.t -> expression
|
val e_int : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> Z.t -> expression
|
||||||
val e_nat : ?loc:Location.t -> Z.t -> expression
|
val e_nat : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> Z.t -> expression
|
||||||
val e_timestamp : ?loc:Location.t -> Z.t -> expression
|
val e_timestamp : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> Z.t -> expression
|
||||||
val e_bool : ?loc:Location.t -> bool -> expression
|
val e_bool : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> bool -> expression
|
||||||
val e_string : ?loc:Location.t -> ligo_string -> expression
|
val e_string : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> ligo_string -> expression
|
||||||
val e_address : ?loc:Location.t -> string -> expression
|
val e_address : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_signature : ?loc:Location.t -> string -> expression
|
val e_signature : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_key : ?loc:Location.t -> string -> expression
|
val e_key : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_key_hash : ?loc:Location.t -> string -> expression
|
val e_key_hash : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_chain_id : ?loc:Location.t -> string -> expression
|
val e_chain_id : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_mutez : ?loc:Location.t -> Z.t -> expression
|
val e_mutez : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> Z.t -> expression
|
||||||
val e'_bytes : string -> expression_content
|
val e'_bytes : string -> expression_content
|
||||||
val e_bytes_hex : ?loc:Location.t -> string -> expression
|
val e_bytes_hex : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
val e_bytes_raw : ?loc:Location.t -> bytes -> expression
|
val e_bytes_raw : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> bytes -> expression
|
||||||
val e_bytes_string : ?loc:Location.t -> string -> expression
|
val e_bytes_string : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression
|
||||||
|
|
||||||
val e_some : ?loc:Location.t -> expression -> expression
|
val e_some : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> expression
|
||||||
val e_none : ?loc:Location.t -> unit -> expression
|
val e_none : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> unit -> expression
|
||||||
val e_string_cat : ?loc:Location.t -> expression -> expression -> expression
|
val e_string_cat : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> expression -> expression
|
||||||
val e_map_add : ?loc:Location.t -> expression -> expression -> expression -> expression
|
val e_map_add : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> expression -> expression -> expression
|
||||||
val e_constructor : ?loc:Location.t -> string -> expression -> expression
|
val e_constructor : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression -> expression
|
||||||
val e_matching : ?loc:Location.t -> expression -> matching_expr -> expression
|
val e_matching : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> matching_expr -> expression
|
||||||
val e_record_accessor : ?loc:Location.t -> expression -> label -> expression
|
val e_record_accessor : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> label -> expression
|
||||||
val e_variable : ?loc:Location.t -> expression_variable -> expression
|
val e_variable : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression_variable -> expression
|
||||||
val e_let_in : ?loc:Location.t -> ( expression_variable * type_expression option ) -> bool -> expression -> expression -> expression
|
val e_let_in : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> ( expression_variable * type_expression option ) -> bool -> expression -> expression -> expression
|
||||||
val e_raw_code : ?loc:Location.t -> string -> expression -> expression
|
val e_raw_code : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> string -> expression -> expression
|
||||||
val e_annotation : ?loc:Location.t -> expression -> type_expression -> expression
|
val e_annotation : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> type_expression -> expression
|
||||||
val e_application : ?loc:Location.t -> expression -> expression -> expression
|
val e_application : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> expression -> expression
|
||||||
val e_constant : ?loc:Location.t -> constant' -> expression list -> expression
|
val e_constant : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> constant' -> expression list -> expression
|
||||||
|
|
||||||
val make_option_typed : ?loc:Location.t -> expression -> type_expression option -> expression
|
val make_option_typed : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> type_expression option -> expression
|
||||||
|
|
||||||
val e_typed_none : ?loc:Location.t -> type_expression -> expression
|
val e_typed_none : ?loc:Location.t -> type_expression -> expression
|
||||||
|
|
||||||
val e_lambda : ?loc:Location.t -> expression_variable -> type_expression option -> type_expression option -> expression -> expression
|
val e_lambda : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression_variable -> type_expression option -> type_expression option -> expression -> expression
|
||||||
val e_recursive : ?loc:Location.t -> expression_variable -> type_expression -> lambda -> expression
|
val e_recursive : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression_variable -> type_expression -> lambda -> expression
|
||||||
val e_record : ?loc:Location.t -> expr label_map-> expression
|
val e_record : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expr label_map-> expression
|
||||||
val e_record_update : ?loc:Location.t -> expression -> label -> expression -> expression
|
val e_record_update : ?loc:Location.t -> ?sugar:Ast_sugar.expression -> expression -> label -> expression -> expression
|
||||||
|
|
||||||
val assert_e_record_accessor : expression_content -> unit option
|
val assert_e_record_accessor : expression_content -> unit option
|
||||||
|
|
||||||
|
@ -5,6 +5,7 @@
|
|||||||
simple-utils
|
simple-utils
|
||||||
tezos-utils
|
tezos-utils
|
||||||
stage_common
|
stage_common
|
||||||
|
ast_sugar
|
||||||
)
|
)
|
||||||
(preprocess
|
(preprocess
|
||||||
(pps ppx_let bisect_ppx --conditional)
|
(pps ppx_let bisect_ppx --conditional)
|
||||||
|
@ -97,7 +97,7 @@ let assert_literal_eq (a, b : literal * literal) : unit option =
|
|||||||
| Literal_chain_id _, _ -> None
|
| Literal_chain_id _, _ -> None
|
||||||
|
|
||||||
let rec assert_value_eq (a, b: (expression * expression )) : unit option =
|
let rec assert_value_eq (a, b: (expression * expression )) : unit option =
|
||||||
match (a.expression_content , b.expression_content) with
|
match (a.content , b.content) with
|
||||||
| E_literal a , E_literal b ->
|
| E_literal a , E_literal b ->
|
||||||
assert_literal_eq (a, b)
|
assert_literal_eq (a, b)
|
||||||
| E_constant (ca) , E_constant (cb) when ca.cons_name = cb.cons_name -> (
|
| E_constant (ca) , E_constant (cb) when ca.cons_name = cb.cons_name -> (
|
||||||
|
@ -2,15 +2,11 @@
|
|||||||
|
|
||||||
module Location = Simple_utils.Location
|
module Location = Simple_utils.Location
|
||||||
|
|
||||||
module Ast_core_parameter = struct
|
|
||||||
type type_meta = unit
|
|
||||||
end
|
|
||||||
|
|
||||||
include Stage_common.Types
|
include Stage_common.Types
|
||||||
|
|
||||||
include Ast_generic_type (Ast_core_parameter)
|
type attribute = {
|
||||||
|
inline: bool
|
||||||
type inline = bool
|
}
|
||||||
type program = declaration Location.wrap list
|
type program = declaration Location.wrap list
|
||||||
and declaration =
|
and declaration =
|
||||||
| Declaration_type of (type_variable * type_expression)
|
| Declaration_type of (type_variable * type_expression)
|
||||||
@ -20,10 +16,35 @@ and declaration =
|
|||||||
* an optional type annotation
|
* an optional type annotation
|
||||||
* a boolean indicating whether it should be inlined
|
* a boolean indicating whether it should be inlined
|
||||||
* an expression *)
|
* an expression *)
|
||||||
| Declaration_constant of (expression_variable * type_expression option * inline * expression)
|
| Declaration_constant of (expression_variable * type_expression option * attribute * expression)
|
||||||
|
|
||||||
(* | Macro_declaration of macro_declaration *)
|
(* | Macro_declaration of macro_declaration *)
|
||||||
and expression = {expression_content: expression_content; location: Location.t}
|
|
||||||
|
|
||||||
|
and type_content =
|
||||||
|
| T_sum of ctor_content constructor_map
|
||||||
|
| T_record of field_content label_map
|
||||||
|
| T_arrow of arrow
|
||||||
|
| T_variable of type_variable
|
||||||
|
| T_constant of type_constant
|
||||||
|
| T_operator of (type_operator * type_expression list)
|
||||||
|
|
||||||
|
and arrow = {type1: type_expression; type2: type_expression}
|
||||||
|
and ctor_content = {ctor_type : type_expression ; michelson_annotation : string option ; ctor_decl_pos : int}
|
||||||
|
and field_content = {field_type : type_expression ; field_annotation : string option ; field_decl_pos : int}
|
||||||
|
|
||||||
|
and type_expression = {
|
||||||
|
content : type_content;
|
||||||
|
sugar : Ast_sugar.type_expression option;
|
||||||
|
location : Location.t;
|
||||||
|
}
|
||||||
|
|
||||||
|
|
||||||
|
and expression = {
|
||||||
|
content : expression_content;
|
||||||
|
sugar : Ast_sugar.expression option;
|
||||||
|
location : Location.t
|
||||||
|
}
|
||||||
|
|
||||||
and expression_content =
|
and expression_content =
|
||||||
(* Base *)
|
(* Base *)
|
||||||
|
@ -52,7 +52,6 @@ end
|
|||||||
module Ast_generic_type (PARAMETER : AST_PARAMETER_TYPE) = struct
|
module Ast_generic_type (PARAMETER : AST_PARAMETER_TYPE) = struct
|
||||||
open PARAMETER
|
open PARAMETER
|
||||||
|
|
||||||
type michelson_annotation = string
|
|
||||||
|
|
||||||
type type_content =
|
type type_content =
|
||||||
| T_sum of ctor_content constructor_map
|
| T_sum of ctor_content constructor_map
|
||||||
|
@ -34,7 +34,7 @@ let rec pp_value : value -> string = function
|
|||||||
let pp_env : env -> unit = fun env ->
|
let pp_env : env -> unit = fun env ->
|
||||||
let () = Format.printf "{ #elements : %i\n" @@ Env.cardinal env in
|
let () = Format.printf "{ #elements : %i\n" @@ Env.cardinal env in
|
||||||
let () = Env.iter (fun var v ->
|
let () = Env.iter (fun var v ->
|
||||||
Format.printf "\t%s -> %s\n" (Var.to_name var) (pp_value v))
|
Format.printf "\t%a -> %s\n" Var.pp var (pp_value v))
|
||||||
env in
|
env in
|
||||||
let () = Format.printf "\n}\n" in
|
let () = Format.printf "\n}\n" in
|
||||||
()
|
()
|
||||||
|
@ -96,9 +96,9 @@ module Substitution = struct
|
|||||||
| Ast_core.T_constant constant ->
|
| Ast_core.T_constant constant ->
|
||||||
ok @@ Ast_core.T_constant constant
|
ok @@ Ast_core.T_constant constant
|
||||||
|
|
||||||
and s_abstr_type_expression : (Ast_core.type_expression,_) w = fun ~substs {type_content;location;type_meta} ->
|
and s_abstr_type_expression : (Ast_core.type_expression,_) w = fun ~substs {content;sugar;location} ->
|
||||||
let%bind type_content = s_abstr_type_content ~substs type_content in
|
let%bind content = s_abstr_type_content ~substs content in
|
||||||
ok @@ Ast_core.{type_content;location;type_meta}
|
ok @@ (Ast_core.{content;sugar;location} : Ast_core.type_expression)
|
||||||
|
|
||||||
and s_type_expression : (T.type_expression,_) w = fun ~substs { type_content; location; type_meta } ->
|
and s_type_expression : (T.type_expression,_) w = fun ~substs { type_content; location; type_meta } ->
|
||||||
let%bind type_content = s_type_content ~substs type_content in
|
let%bind type_content = s_type_content ~substs type_content in
|
||||||
|
@ -221,10 +221,10 @@ let sell () =
|
|||||||
in
|
in
|
||||||
let make_expecter : int -> Ast_core.expression -> (unit,_) result = fun n result ->
|
let make_expecter : int -> Ast_core.expression -> (unit,_) result = fun n result ->
|
||||||
let%bind (ops , storage) = trace_option (test_internal __LOC__) @@
|
let%bind (ops , storage) = trace_option (test_internal __LOC__) @@
|
||||||
Ast_core.get_e_pair result.expression_content in
|
Ast_core.get_e_pair result.content in
|
||||||
let%bind () =
|
let%bind () =
|
||||||
let%bind lst = trace_option (test_internal __LOC__) @@
|
let%bind lst = trace_option (test_internal __LOC__) @@
|
||||||
Ast_core.get_e_list ops.expression_content in
|
Ast_core.get_e_list ops.content in
|
||||||
Assert.assert_list_size (test_internal __LOC__) lst 1 in
|
Assert.assert_list_size (test_internal __LOC__) lst 1 in
|
||||||
let expected_storage =
|
let expected_storage =
|
||||||
let cards = List.hds @@ cards_ez first_owner n in
|
let cards = List.hds @@ cards_ez first_owner n in
|
||||||
|
@ -31,10 +31,8 @@ type getBalance is
|
|||||||
type getTotalSupply is record [callback : contract (nat)]
|
type getTotalSupply is record [callback : contract (nat)]
|
||||||
|
|
||||||
type action is
|
type action is
|
||||||
Transfer of transfer
|
Transfer of transfer | Approve of approve
|
||||||
| Approve of approve
|
| GetAllowance of getAllowance | GetBalance of getBalance
|
||||||
| GetAllowance of getAllowance
|
|
||||||
| GetBalance of getBalance
|
|
||||||
| GetTotalSupply of getTotalSupply
|
| GetTotalSupply of getTotalSupply
|
||||||
|
|
||||||
function transfer (const p : transfer; const s : storage)
|
function transfer (const p : transfer; const s : storage)
|
||||||
|
@ -24,10 +24,8 @@ type getBalance = {owner : address; callback : nat contract}
|
|||||||
type getTotalSupply = {callback : nat contract}
|
type getTotalSupply = {callback : nat contract}
|
||||||
|
|
||||||
type action =
|
type action =
|
||||||
Transfer of transfer
|
Transfer of transfer | Approve of approve
|
||||||
| Approve of approve
|
| GetAllowance of getAllowance | GetBalance of getBalance
|
||||||
| GetAllowance of getAllowance
|
|
||||||
| GetBalance of getBalance
|
|
||||||
| GetTotalSupply of getTotalSupply
|
| GetTotalSupply of getTotalSupply
|
||||||
|
|
||||||
let transfer (p, s : transfer * storage)
|
let transfer (p, s : transfer * storage)
|
||||||
@ -42,19 +40,19 @@ let transfer (p, s : transfer * storage)
|
|||||||
s.allowances
|
s.allowances
|
||||||
with
|
with
|
||||||
Some value -> value
|
Some value -> value
|
||||||
| None -> 0n
|
| None -> 0n in
|
||||||
in if (authorized_value < p.value)
|
if (authorized_value < p.value)
|
||||||
then (failwith "Not Enough Allowance" : allowances)
|
then (failwith "Not Enough Allowance" : allowances)
|
||||||
else
|
else
|
||||||
Big_map.update
|
Big_map.update
|
||||||
(Tezos.sender, p.address_from)
|
(Tezos.sender, p.address_from)
|
||||||
(Some (abs (authorized_value - p.value)))
|
(Some (abs (authorized_value - p.value)))
|
||||||
s.allowances
|
s.allowances in
|
||||||
in let sender_balance =
|
let sender_balance =
|
||||||
match Big_map.find_opt p.address_from s.tokens with
|
match Big_map.find_opt p.address_from s.tokens with
|
||||||
Some value -> value
|
Some value -> value
|
||||||
| None -> 0n
|
| None -> 0n in
|
||||||
in if (sender_balance < p.value)
|
if (sender_balance < p.value)
|
||||||
then
|
then
|
||||||
(failwith "Not Enough Balance"
|
(failwith "Not Enough Balance"
|
||||||
: operation list * storage)
|
: operation list * storage)
|
||||||
@ -63,21 +61,19 @@ let transfer (p, s : transfer * storage)
|
|||||||
Big_map.update
|
Big_map.update
|
||||||
p.address_from
|
p.address_from
|
||||||
(Some (abs (sender_balance - p.value)))
|
(Some (abs (sender_balance - p.value)))
|
||||||
s.tokens
|
s.tokens in
|
||||||
in let receiver_balance =
|
let receiver_balance =
|
||||||
match Big_map.find_opt p.address_to s.tokens
|
match Big_map.find_opt p.address_to s.tokens with
|
||||||
with
|
|
||||||
Some value -> value
|
Some value -> value
|
||||||
| None -> 0n
|
| None -> 0n in
|
||||||
in let new_tokens =
|
let new_tokens =
|
||||||
Big_map.update
|
Big_map.update
|
||||||
p.address_to
|
p.address_to
|
||||||
(Some (receiver_balance + p.value))
|
(Some (receiver_balance + p.value))
|
||||||
new_tokens
|
new_tokens in
|
||||||
in ([] : operation list),
|
([] : operation list),
|
||||||
{s with
|
{s with
|
||||||
tokens = new_tokens;
|
tokens = new_tokens; allowances = new_allowances}
|
||||||
allowances = new_allowances}
|
|
||||||
|
|
||||||
let approve (p, s : approve * storage)
|
let approve (p, s : approve * storage)
|
||||||
: operation list * storage =
|
: operation list * storage =
|
||||||
@ -87,8 +83,8 @@ let approve (p, s : approve * storage)
|
|||||||
s.allowances
|
s.allowances
|
||||||
with
|
with
|
||||||
Some value -> value
|
Some value -> value
|
||||||
| None -> 0n
|
| None -> 0n in
|
||||||
in if previous_value > 0n && p.value > 0n
|
if previous_value > 0n && p.value > 0n
|
||||||
then
|
then
|
||||||
(failwith "Unsafe Allowance Change"
|
(failwith "Unsafe Allowance Change"
|
||||||
: operation list * storage)
|
: operation list * storage)
|
||||||
@ -97,8 +93,8 @@ let approve (p, s : approve * storage)
|
|||||||
Big_map.update
|
Big_map.update
|
||||||
(p.spender, Tezos.sender)
|
(p.spender, Tezos.sender)
|
||||||
(Some (p.value))
|
(Some (p.value))
|
||||||
s.allowances
|
s.allowances in
|
||||||
in ([] : operation list),
|
([] : operation list),
|
||||||
{s with
|
{s with
|
||||||
allowances = new_allowances}
|
allowances = new_allowances}
|
||||||
|
|
||||||
@ -108,24 +104,24 @@ let getAllowance (p, s : getAllowance * storage)
|
|||||||
match Big_map.find_opt (p.owner, p.spender) s.allowances
|
match Big_map.find_opt (p.owner, p.spender) s.allowances
|
||||||
with
|
with
|
||||||
Some value -> value
|
Some value -> value
|
||||||
| None -> 0n
|
| None -> 0n in
|
||||||
in let op = Tezos.transaction value 0mutez p.callback
|
let op = Tezos.transaction value 0mutez p.callback in
|
||||||
in ([op], s)
|
([op], s)
|
||||||
|
|
||||||
let getBalance (p, s : getBalance * storage)
|
let getBalance (p, s : getBalance * storage)
|
||||||
: operation list * storage =
|
: operation list * storage =
|
||||||
let value =
|
let value =
|
||||||
match Big_map.find_opt p.owner s.tokens with
|
match Big_map.find_opt p.owner s.tokens with
|
||||||
Some value -> value
|
Some value -> value
|
||||||
| None -> 0n
|
| None -> 0n in
|
||||||
in let op = Tezos.transaction value 0mutez p.callback
|
let op = Tezos.transaction value 0mutez p.callback in
|
||||||
in ([op], s)
|
([op], s)
|
||||||
|
|
||||||
let getTotalSupply (p, s : getTotalSupply * storage)
|
let getTotalSupply (p, s : getTotalSupply * storage)
|
||||||
: operation list * storage =
|
: operation list * storage =
|
||||||
let total = s.total_amount
|
let total = s.total_amount in
|
||||||
in let op = Tezos.transaction total 0mutez p.callback
|
let op = Tezos.transaction total 0mutez p.callback in
|
||||||
in ([op], s)
|
([op], s)
|
||||||
|
|
||||||
let main (a, s : action * storage) =
|
let main (a, s : action * storage) =
|
||||||
match a with
|
match a with
|
||||||
|
@ -1,3 +1,3 @@
|
|||||||
let main (p : key_hash) =
|
let main (p : key_hash) =
|
||||||
let c : unit contract = Tezos.implicit_account p
|
let c : unit contract = Tezos.implicit_account p in
|
||||||
in Tezos.address c
|
Tezos.address c
|
||||||
|
@ -1,6 +1,6 @@
|
|||||||
let f1 (x : unit) : unit -> tez =
|
let f1 (x : unit) : unit -> tez =
|
||||||
let amt : tez = Current.amount
|
let amt : tez = Current.amount in
|
||||||
in fun (x : unit) -> amt
|
fun (x : unit) -> amt
|
||||||
|
|
||||||
let f2 (x : unit) : unit -> tez =
|
let f2 (x : unit) : unit -> tez =
|
||||||
fun (x : unit) -> Current.amount
|
fun (x : unit) -> Current.amount
|
||||||
|
@ -1,3 +1,3 @@
|
|||||||
let main (p, s : bool * unit) =
|
let main (p, s : bool * unit) =
|
||||||
let u : unit = assert p
|
let u : unit = assert p in
|
||||||
in ([] : operation list), s
|
([] : operation list), s
|
||||||
|
@ -1,8 +1,8 @@
|
|||||||
let x = 1 [@@inline]
|
let x = 1 [@@inline]
|
||||||
|
|
||||||
let foo (a : int) : int =
|
let foo (a : int) : int =
|
||||||
(let test = 2 + a [@@inline]
|
(let test = 2 + a [@@inline] in
|
||||||
in test) [@@inline]
|
test) [@@inline]
|
||||||
|
|
||||||
let y = 1 [@@inline][@@other]
|
let y = 1 [@@inline][@@other]
|
||||||
|
|
||||||
@ -10,5 +10,5 @@ let bar (b : int) : int =
|
|||||||
let test = fun (z : int) -> 2 + b + z
|
let test = fun (z : int) -> 2 + b + z
|
||||||
[@@inline]
|
[@@inline]
|
||||||
[@@foo]
|
[@@foo]
|
||||||
[@@bar]
|
[@@bar] in
|
||||||
in test b
|
test b
|
||||||
|
@ -18,5 +18,5 @@ let map1 : foo = Big_map.literal [(23, 0); (42, 0)]
|
|||||||
let map1 : foo = Big_map.literal [(23, 0); (42, 0)]
|
let map1 : foo = Big_map.literal [(23, 0); (42, 0)]
|
||||||
|
|
||||||
let mutimaps (m : foo) (n : foo) : foo =
|
let mutimaps (m : foo) (n : foo) : foo =
|
||||||
let bar : foo = Big_map.update 42 (Some 0) m
|
let bar : foo = Big_map.update 42 (Some 0) m in
|
||||||
in Big_map.update 42 (get bar) n
|
Big_map.update 42 (get bar) n
|
||||||
|
@ -1,11 +1,11 @@
|
|||||||
let id_string (p : string) : string option =
|
let id_string (p : string) : string option =
|
||||||
let packed : bytes = Bytes.pack p
|
let packed : bytes = Bytes.pack p in
|
||||||
in (Bytes.unpack packed : string option)
|
(Bytes.unpack packed : string option)
|
||||||
|
|
||||||
let id_int (p : int) : int option =
|
let id_int (p : int) : int option =
|
||||||
let packed : bytes = Bytes.pack p
|
let packed : bytes = Bytes.pack p in
|
||||||
in (Bytes.unpack packed : int option)
|
(Bytes.unpack packed : int option)
|
||||||
|
|
||||||
let id_address (p : address) : address option =
|
let id_address (p : address) : address option =
|
||||||
let packed : bytes = Bytes.pack p
|
let packed : bytes = Bytes.pack p in
|
||||||
in (Bytes.unpack packed : address option)
|
(Bytes.unpack packed : address option)
|
||||||
|
@ -1,5 +1,5 @@
|
|||||||
let test (k : int) : int =
|
let test (k : int) : int =
|
||||||
let j : int = k + 5
|
let j : int = k + 5 in
|
||||||
in let close : int -> int = fun (i : int) -> i + j
|
let close : int -> int = fun (i : int) -> i + j in
|
||||||
in let j : int = 20
|
let j : int = 20 in
|
||||||
in close 20
|
close 20
|
||||||
|
@ -1,9 +1,9 @@
|
|||||||
let main (i : int) =
|
let main (i : int) =
|
||||||
let result = 0
|
let result = 0 in
|
||||||
in if i = 2
|
if i = 2
|
||||||
then
|
then
|
||||||
let result = 42
|
let result = 42 in
|
||||||
in result
|
result
|
||||||
else
|
else
|
||||||
let result = 0
|
let result = 0 in
|
||||||
in result
|
result
|
||||||
|
@ -7,5 +7,5 @@ let main (action, store : string * string) : return =
|
|||||||
(([] : operation list), "one"))
|
(([] : operation list), "one"))
|
||||||
(None : key_hash option)
|
(None : key_hash option)
|
||||||
300000000mutez
|
300000000mutez
|
||||||
"un"
|
"un" in
|
||||||
in ([toto.0], store)
|
([toto.0], store)
|
||||||
|
@ -5,6 +5,6 @@ type foobar = (int, "baz", int, "fooo") michelson_or
|
|||||||
type return = operation list * storage
|
type return = operation list * storage
|
||||||
|
|
||||||
let main (action, store : unit * storage) : return =
|
let main (action, store : unit * storage) : return =
|
||||||
let foo = (M_right ("one") : storage)
|
let foo = (M_right ("one") : storage) in
|
||||||
in let bar = (M_right 1 : foobar)
|
let bar = (M_right 1 : foobar) in
|
||||||
in (([] : operation list), (foo : storage))
|
(([] : operation list), (foo : storage))
|
||||||
|
@ -9,5 +9,5 @@ let main (p, store : unit * storage)
|
|||||||
f (y, x))
|
f (y, x))
|
||||||
(fun (x : int) (y : int) -> x + y)
|
(fun (x : int) (y : int) -> x + y)
|
||||||
0
|
0
|
||||||
1
|
1 in
|
||||||
in ([] : operation list), store
|
([] : operation list), store
|
||||||
|
@ -6,5 +6,5 @@ let main (p, store : unit * storage)
|
|||||||
(fun (f : int -> int) (z : int) (y : int) -> f y)
|
(fun (f : int -> int) (z : int) (y : int) -> f y)
|
||||||
(fun (x : int) -> x)
|
(fun (x : int) -> x)
|
||||||
0
|
0
|
||||||
1
|
1 in
|
||||||
in ([] : operation list), store
|
([] : operation list), store
|
||||||
|
@ -8,5 +8,5 @@ let main (p, s : unit * storage) : operation list * storage =
|
|||||||
f y (x + y))
|
f y (x + y))
|
||||||
(fun (x : int) (y : int) -> x + y)
|
(fun (x : int) (y : int) -> x + y)
|
||||||
0
|
0
|
||||||
1
|
1 in
|
||||||
in ([] : operation list), store
|
([] : operation list), store
|
||||||
|
@ -10,8 +10,8 @@ let attempt (p, store : param * storage) : return =
|
|||||||
: unit contract option)
|
: unit contract option)
|
||||||
with
|
with
|
||||||
Some contract -> contract
|
Some contract -> contract
|
||||||
| None -> (failwith "No contract" : unit contract)
|
| None -> (failwith "No contract" : unit contract) in
|
||||||
in let transfer : operation =
|
let transfer : operation =
|
||||||
Tezos.transaction (unit, contract, 10000000mutez)
|
Tezos.transaction (unit, contract, 10000000mutez) in
|
||||||
in let store : storage = {challenge = p.new_challenge}
|
let store : storage = {challenge = p.new_challenge} in
|
||||||
in ([] : operation list), store
|
([] : operation list), store
|
||||||
|
@ -23,10 +23,8 @@ type update_details is
|
|||||||
]
|
]
|
||||||
|
|
||||||
type action is
|
type action is
|
||||||
Buy of buy
|
Buy of buy | Update_owner of update_owner
|
||||||
| Update_owner of update_owner
|
| Update_details of update_details | Skip of unit
|
||||||
| Update_details of update_details
|
|
||||||
| Skip of unit
|
|
||||||
|
|
||||||
type storage is
|
type storage is
|
||||||
record [
|
record [
|
||||||
|
@ -34,8 +34,7 @@ type default_pt is unit
|
|||||||
type return is list (operation) * storage
|
type return is list (operation) * storage
|
||||||
|
|
||||||
type parameter is
|
type parameter is
|
||||||
Send of send_pt
|
Send of send_pt | Withdraw of withdraw_pt
|
||||||
| Withdraw of withdraw_pt
|
|
||||||
| Default of default_pt
|
| Default of default_pt
|
||||||
|
|
||||||
function send (const param : send_pt; const s : storage)
|
function send (const param : send_pt; const s : storage)
|
||||||
|
@ -9,8 +9,7 @@ type call_pt is message_t
|
|||||||
type contract_return_t is list (operation) * storage_t
|
type contract_return_t is list (operation) * storage_t
|
||||||
|
|
||||||
type entry_point_t is
|
type entry_point_t is
|
||||||
Call of call_pt
|
Call of call_pt | Default of default_pt
|
||||||
| Default of default_pt
|
|
||||||
|
|
||||||
function call (const p : call_pt; const s : storage_t)
|
function call (const p : call_pt; const s : storage_t)
|
||||||
: contract_return_t is
|
: contract_return_t is
|
||||||
|
@ -2096,9 +2096,9 @@ let get_contract_ligo () : (unit, _) result =
|
|||||||
let%bind () =
|
let%bind () =
|
||||||
let make_input = fun _n -> e_unit () in
|
let make_input = fun _n -> e_unit () in
|
||||||
let make_expected : int -> Ast_core.expression -> (unit, _) result = fun _n result ->
|
let make_expected : int -> Ast_core.expression -> (unit, _) result = fun _n result ->
|
||||||
let%bind (ops , storage) = trace_option (test_internal __LOC__) @@ Ast_core.get_e_pair result.expression_content in
|
let%bind (ops , storage) = trace_option (test_internal __LOC__) @@ Ast_core.get_e_pair result.content in
|
||||||
let%bind () =
|
let%bind () =
|
||||||
let%bind lst = trace_option (test_internal __LOC__) @@ Ast_core.get_e_list ops.expression_content in
|
let%bind lst = trace_option (test_internal __LOC__) @@ Ast_core.get_e_list ops.content in
|
||||||
Assert.assert_list_size (test_internal __LOC__) lst 1 in
|
Assert.assert_list_size (test_internal __LOC__) lst 1 in
|
||||||
let expected_storage = Ast_core.e_unit () in
|
let expected_storage = Ast_core.e_unit () in
|
||||||
trace_option (test_internal __LOC__) @@ Ast_core.Misc.assert_value_eq (expected_storage , storage)
|
trace_option (test_internal __LOC__) @@ Ast_core.Misc.assert_value_eq (expected_storage , storage)
|
||||||
|
@ -112,7 +112,7 @@ let run_typed_program_with_imperative_input ?options
|
|||||||
(input: Ast_imperative.expression) : (Ast_core.expression, _) result =
|
(input: Ast_imperative.expression) : (Ast_core.expression, _) result =
|
||||||
let%bind michelson_program = typed_program_with_imperative_input_to_michelson (program , state) entry_point input in
|
let%bind michelson_program = typed_program_with_imperative_input_to_michelson (program , state) entry_point input in
|
||||||
let%bind michelson_output = Ligo.Run.Of_michelson.run_no_failwith ?options michelson_program.expr michelson_program.expr_ty in
|
let%bind michelson_output = Ligo.Run.Of_michelson.run_no_failwith ?options michelson_program.expr michelson_program.expr_ty in
|
||||||
let%bind res = Uncompile.uncompile_typed_program_entry_function_result program entry_point (Runned_result.Success michelson_output) in
|
let%bind res = Decompile.Of_michelson.decompile_typed_program_entry_function_result program entry_point (Runned_result.Success michelson_output) in
|
||||||
match res with
|
match res with
|
||||||
| Runned_result.Success exp -> ok exp
|
| Runned_result.Success exp -> ok exp
|
||||||
| Runned_result.Fail _ -> fail test_not_expected_to_fail
|
| Runned_result.Fail _ -> fail test_not_expected_to_fail
|
||||||
@ -155,7 +155,7 @@ let expect_evaluate (program, _state) entry_point expecter =
|
|||||||
let%bind (exp,_) = trace_option unknown @@ Mini_c.get_entry mini_c entry_point in
|
let%bind (exp,_) = trace_option unknown @@ Mini_c.get_entry mini_c entry_point in
|
||||||
let%bind michelson_value = Ligo.Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp in
|
let%bind michelson_value = Ligo.Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp in
|
||||||
let%bind res_michelson = Ligo.Run.Of_michelson.run_no_failwith michelson_value.expr michelson_value.expr_ty in
|
let%bind res_michelson = Ligo.Run.Of_michelson.run_no_failwith michelson_value.expr michelson_value.expr_ty in
|
||||||
let%bind res = Uncompile.uncompile_typed_program_entry_expression_result program entry_point (Success res_michelson) in
|
let%bind res = Decompile.Of_michelson.decompile_typed_program_entry_expression_result program entry_point (Success res_michelson) in
|
||||||
let%bind res' = match res with
|
let%bind res' = match res with
|
||||||
| Runned_result.Success exp -> ok exp
|
| Runned_result.Success exp -> ok exp
|
||||||
| Runned_result.Fail _ -> fail test_not_expected_to_fail in
|
| Runned_result.Fail _ -> fail test_not_expected_to_fail in
|
||||||
|
@ -54,7 +54,7 @@ let early_call () =
|
|||||||
expect_string_failwith ~options (program, state) "main"
|
expect_string_failwith ~options (program, state) "main"
|
||||||
(e_pair (e_unit ()) init_storage) exp_failwith
|
(e_pair (e_unit ()) init_storage) exp_failwith
|
||||||
|
|
||||||
let fake_uncompiled_empty_message = e_string "[lambda of type: (lambda unit (list operation)) ]"
|
let fake_decompiled_empty_message = e_string "[lambda of type: (lambda unit (list operation)) ]"
|
||||||
|
|
||||||
(* Test that when we use the contract the next use time advances by correct interval *)
|
(* Test that when we use the contract the next use time advances by correct interval *)
|
||||||
let interval_advance () =
|
let interval_advance () =
|
||||||
@ -64,7 +64,7 @@ let interval_advance () =
|
|||||||
let init_storage = storage lock_time 86400 empty_message in
|
let init_storage = storage lock_time 86400 empty_message in
|
||||||
(* It takes a second for Tezos.now to be called, awful hack *)
|
(* It takes a second for Tezos.now to be called, awful hack *)
|
||||||
let%bind new_timestamp = mk_time "2000-01-02T10:10:11Z" in
|
let%bind new_timestamp = mk_time "2000-01-02T10:10:11Z" in
|
||||||
let new_storage_fake = storage new_timestamp 86400 fake_uncompiled_empty_message in
|
let new_storage_fake = storage new_timestamp 86400 fake_decompiled_empty_message in
|
||||||
let options =
|
let options =
|
||||||
Proto_alpha_utils.Memory_proto_alpha.make_options ~predecessor_timestamp () in
|
Proto_alpha_utils.Memory_proto_alpha.make_options ~predecessor_timestamp () in
|
||||||
expect_eq ~options (program, state) "main"
|
expect_eq ~options (program, state) "main"
|
||||||
|
4
vendors/ligo-utils/simple-utils/trace.ml
vendored
4
vendors/ligo-utils/simple-utils/trace.ml
vendored
@ -345,6 +345,10 @@ let trace_assert_fail_option error = function
|
|||||||
[let%bind lst' = bind_map_list f lst]. Same thing with folds.
|
[let%bind lst' = bind_map_list f lst]. Same thing with folds.
|
||||||
*)
|
*)
|
||||||
|
|
||||||
|
let bind_compose f g x =
|
||||||
|
let%bind y = g x in
|
||||||
|
f y
|
||||||
|
|
||||||
let bind_map_option f = function
|
let bind_map_option f = function
|
||||||
None -> ok None
|
None -> ok None
|
||||||
| Some s -> f s >>? fun x -> ok (Some x)
|
| Some s -> f s >>? fun x -> ok (Some x)
|
||||||
|
1
vendors/ligo-utils/simple-utils/x_list.ml
vendored
1
vendors/ligo-utils/simple-utils/x_list.ml
vendored
@ -216,5 +216,6 @@ module Ne = struct
|
|||||||
match f hd with
|
match f hd with
|
||||||
| Some x -> Some x
|
| Some x -> Some x
|
||||||
| None -> find_map f tl
|
| None -> find_map f tl
|
||||||
|
let append : 'a t -> 'a t -> 'a t = fun (hd, tl) (hd', tl') -> hd, List.append tl @@ hd' :: tl'
|
||||||
|
|
||||||
end
|
end
|
||||||
|
Loading…
Reference in New Issue
Block a user