ligo/src/passes/1-parser/pascaligo/ParserLog.ml

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2019-05-13 00:56:22 +04:00
[@@@warning "-42"]
open Utils
open AST
open! Region
(* Printing the tokens with their source regions *)
let printf = Printf.printf
let offsets = ref true
let mode = ref `Point
let compact (region: Region.t) =
region#compact ~offsets:!offsets !mode
let print_nsepseq :
string -> ('a -> unit) -> ('a, Region.t) nsepseq -> unit =
fun sep visit (head, tail) ->
let print_aux (sep_reg, item) =
printf "%s: %s\n" (compact sep_reg) sep;
visit item
in visit head; List.iter print_aux tail
let print_sepseq :
string -> ('a -> unit) -> ('a, Region.t) sepseq -> unit =
fun sep visit -> function
None -> ()
| Some seq -> print_nsepseq sep visit seq
let print_token region lexeme =
printf "%s: %s\n"(compact region) lexeme
let print_var {region; value=lexeme} =
printf "%s: Ident \"%s\"\n" (compact region) lexeme
let print_constr {region; value=lexeme} =
printf "%s: Constr \"%s\"\n"
(compact region) lexeme
let print_string {region; value=lexeme} =
printf "%s: String %s\n"
(compact region) lexeme
let print_bytes {region; value = lexeme, abstract} =
printf "%s: Bytes (\"%s\", \"0x%s\")\n"
(compact region) lexeme
(Hex.to_string abstract)
let print_int {region; value = lexeme, abstract} =
printf "%s: Int (\"%s\", %s)\n"
(compact region) lexeme
(Z.to_string abstract)
(* Main printing function *)
let rec print_tokens ast =
let {decl; eof} = ast in
Utils.nseq_iter print_decl decl;
print_token eof "EOF"
and print_decl = function
TypeDecl decl -> print_type_decl decl
| ConstDecl decl -> print_const_decl decl
| LambdaDecl decl -> print_lambda_decl decl
and print_const_decl {value; _} =
let {kwd_const; name; colon; const_type;
equal; init; terminator} = value in
print_token kwd_const "const";
print_var name;
print_token colon ":";
print_type_expr const_type;
print_token equal "=";
print_expr init;
print_terminator terminator
and print_type_decl {value; _} =
let {kwd_type; name; kwd_is;
type_expr; terminator} = value in
print_token kwd_type "type";
print_var name;
print_token kwd_is "is";
print_type_expr type_expr;
print_terminator terminator
and print_type_expr = function
TProd cartesian -> print_cartesian cartesian
| TSum sum_type -> print_sum_type sum_type
| TRecord record_type -> print_record_type record_type
| TApp type_app -> print_type_app type_app
| TFun type_fun -> print_type_fun type_fun
| TPar par_type -> print_par_type par_type
| TAlias type_alias -> print_var type_alias
and print_cartesian {value; _} =
print_nsepseq "*" print_type_expr value
and print_variant {value; _} =
let {constr; args} = value in
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print_constr constr;
match args with
None -> ()
| Some (kwd_of, product) ->
print_token kwd_of "of";
print_cartesian product
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and print_sum_type {value; _} =
print_nsepseq "|" print_variant value
and print_record_type record_type =
print_injection "record" print_field_decl record_type
and print_type_app {value; _} =
let type_name, type_tuple = value in
print_var type_name;
print_type_tuple type_tuple
and print_type_fun {value; _} =
let type_expr_a, arrow, type_expr_b = value in
print_type_expr type_expr_a;
print_token arrow "->";
print_type_expr type_expr_b
and print_par_type {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_type_expr inside;
print_token rpar ")"
and print_field_decl {value; _} =
let {field_name; colon; field_type} = value in
print_var field_name;
print_token colon ":";
print_type_expr field_type
and print_type_tuple {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_nsepseq "," print_type_expr inside;
print_token rpar ")"
and print_lambda_decl = function
FunDecl fun_decl -> print_fun_decl fun_decl
| ProcDecl proc_decl -> print_proc_decl proc_decl
and print_fun_decl {value; _} =
let {kwd_function; name; param; colon;
ret_type; kwd_is; local_decls;
block; kwd_with; return; terminator} = value in
print_token kwd_function "function";
print_var name;
print_parameters param;
print_token colon ":";
print_type_expr ret_type;
print_token kwd_is "is";
print_local_decls local_decls;
print_block block;
print_token kwd_with "with";
print_expr return;
print_terminator terminator
and print_proc_decl {value; _} =
let {kwd_procedure; name; param; kwd_is;
local_decls; block; terminator} = value in
print_token kwd_procedure "procedure";
print_var name;
print_parameters param;
print_token kwd_is "is";
print_local_decls local_decls;
print_block block;
print_terminator terminator
and print_parameters {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_nsepseq ";" print_param_decl inside;
print_token rpar ")"
and print_param_decl = function
ParamConst param_const -> print_param_const param_const
| ParamVar param_var -> print_param_var param_var
and print_param_const {value; _} =
let {kwd_const; var; colon; param_type} = value in
print_token kwd_const "const";
print_var var;
print_token colon ":";
print_type_expr param_type
and print_param_var {value; _} =
let {kwd_var; var; colon; param_type} = value in
print_token kwd_var "var";
print_var var;
print_token colon ":";
print_type_expr param_type
and print_block {value; _} =
let {opening; statements; terminator; closing} = value in
print_block_opening opening;
print_statements statements;
print_terminator terminator;
print_block_closing closing
and print_block_opening = function
Block (kwd_block, lbrace) -> print_token kwd_block "block";
print_token lbrace "{"
| Begin kwd_begin -> print_token kwd_begin "begin"
and print_block_closing = function
Block rbrace -> print_token rbrace "}"
| End kwd_end -> print_token kwd_end "end"
and print_local_decls sequence =
List.iter print_local_decl sequence
and print_local_decl = function
LocalFun decl -> print_fun_decl decl
| LocalProc decl -> print_proc_decl decl
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| LocalData decl -> print_data_decl decl
and print_data_decl = function
LocalConst decl -> print_const_decl decl
| LocalVar decl -> print_var_decl decl
and print_var_decl {value; _} =
let {kwd_var; name; colon; var_type;
assign; init; terminator} = value in
print_token kwd_var "var";
print_var name;
print_token colon ":";
print_type_expr var_type;
print_token assign ":=";
print_expr init;
print_terminator terminator
and print_statements sequence =
print_nsepseq ";" print_statement sequence
and print_statement = function
Instr instr -> print_instruction instr
| Data data -> print_data_decl data
and print_instruction = function
Single instr -> print_single_instr instr
| Block block -> print_block block
and print_single_instr = function
Cond {value; _} -> print_conditional value
| CaseInstr {value; _} -> print_case_instr value
| Assign assign -> print_assignment assign
| Loop loop -> print_loop loop
| ProcCall fun_call -> print_fun_call fun_call
| Skip kwd_skip -> print_token kwd_skip "skip"
| RecordPatch {value; _} -> print_record_patch value
| MapPatch {value; _} -> print_map_patch value
| SetPatch {value; _} -> print_set_patch value
| MapRemove {value; _} -> print_map_remove value
| SetRemove {value; _} -> print_set_remove value
and print_conditional node =
let {kwd_if; test; kwd_then; ifso; terminator;
kwd_else; ifnot} = node in
print_token kwd_if "if";
print_expr test;
print_token kwd_then "then";
print_if_clause ifso;
print_terminator terminator;
print_token kwd_else "else";
print_if_clause ifnot
and print_if_clause = function
ClauseInstr instr -> print_instruction instr
| ClauseBlock {value; _} ->
let {lbrace; inside; rbrace} = value in
let statements, terminator = inside in
print_token lbrace "{";
print_statements statements;
print_terminator terminator;
print_token rbrace "}"
and print_case_instr (node : instruction case) =
let {kwd_case; expr; opening;
lead_vbar; cases; closing} = node in
print_token kwd_case "case";
print_expr expr;
print_opening "of" opening;
print_token_opt lead_vbar "|";
print_cases_instr cases;
print_closing closing
and print_token_opt = function
None -> fun _ -> ()
| Some region -> print_token region
and print_cases_instr {value; _} =
print_nsepseq "|" print_case_clause_instr value
and print_case_clause_instr {value; _} =
let {pattern; arrow; rhs} = value in
print_pattern pattern;
print_token arrow "->";
print_instruction rhs
and print_assignment {value; _} =
let {lhs; assign; rhs} = value in
print_lhs lhs;
print_token assign ":=";
print_rhs rhs
and print_rhs = function
Expr e -> print_expr e
and print_lhs = function
Path path -> print_path path
| MapPath {value; _} -> print_map_lookup value
and print_loop = function
While {value; _} -> print_while_loop value
| For for_loop -> print_for_loop for_loop
and print_while_loop value =
let {kwd_while; cond; block} = value in
print_token kwd_while "while";
print_expr cond;
print_block block
and print_for_loop = function
ForInt for_int -> print_for_int for_int
| ForCollect for_collect -> print_for_collect for_collect
and print_for_int ({value; _} : for_int reg) =
let {kwd_for; assign; down; kwd_to;
bound; step; block} = value in
print_token kwd_for "for";
print_var_assign assign;
print_down down;
print_token kwd_to "to";
print_expr bound;
print_step step;
print_block block
and print_var_assign {value; _} =
let {name; assign; expr} = value in
print_var name;
print_token assign ":=";
print_expr expr
and print_down = function
Some kwd_down -> print_token kwd_down "down"
| None -> ()
and print_step = function
Some (kwd_step, expr) ->
print_token kwd_step "step";
print_expr expr
| None -> ()
and print_for_collect ({value; _} : for_collect reg) =
let {kwd_for; var; bind_to; kwd_in; expr; block} = value in
print_token kwd_for "for";
print_var var;
print_bind_to bind_to;
print_token kwd_in "in";
print_expr expr;
print_block block
and print_bind_to = function
Some (arrow, variable) ->
print_token arrow "->";
print_var variable
| None -> ()
and print_expr = function
ECase {value;_} -> print_case_expr value
| EAnnot {value;_} -> print_annot_expr value
| ELogic e -> print_logic_expr e
| EArith e -> print_arith_expr e
| EString e -> print_string_expr e
| EList e -> print_list_expr e
| ESet e -> print_set_expr e
| EConstr e -> print_constr_expr e
| ERecord e -> print_record_expr e
| EProj e -> print_projection e
| EMap e -> print_map_expr e
| EVar v -> print_var v
| ECall e -> print_fun_call e
| EBytes b -> print_bytes b
| EUnit r -> print_token r "Unit"
| ETuple e -> print_tuple_expr e
| EPar e -> print_par_expr e
and print_annot_expr (expr , type_expr) =
print_expr expr ;
print_type_expr type_expr
and print_case_expr (node : expr case) =
let {kwd_case; expr; opening;
lead_vbar; cases; closing} = node in
print_token kwd_case "case";
print_expr expr;
print_opening "of" opening;
print_token_opt lead_vbar "|";
print_cases_expr cases;
print_closing closing
and print_cases_expr {value; _} =
print_nsepseq "|" print_case_clause_expr value
and print_case_clause_expr {value; _} =
let {pattern; arrow; rhs} = value in
print_pattern pattern;
print_token arrow "->";
print_expr rhs
and print_map_expr = function
MapLookUp {value; _} -> print_map_lookup value
| MapInj inj -> print_injection "map" print_binding inj
and print_set_expr = function
SetInj inj -> print_injection "set" print_expr inj
| SetMem mem -> print_set_membership mem
and print_set_membership {value; _} =
let {set; kwd_contains; element} = value in
print_expr set;
print_token kwd_contains "contains";
print_expr element
and print_map_lookup {path; index} =
let {lbracket; inside; rbracket} = index.value in
print_path path;
print_token lbracket "[";
print_expr inside;
print_token rbracket "]"
and print_path = function
Name var -> print_var var
| Path path -> print_projection path
and print_logic_expr = function
BoolExpr e -> print_bool_expr e
| CompExpr e -> print_comp_expr e
and print_bool_expr = function
Or {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "||"; print_expr arg2
| And {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "&&"; print_expr arg2
| Not {value = {op; arg}; _} ->
print_token op "not"; print_expr arg
| False region -> print_token region "False"
| True region -> print_token region "True"
and print_comp_expr = function
Lt {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "<"; print_expr arg2
| Leq {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "<="; print_expr arg2
| Gt {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op ">"; print_expr arg2
| Geq {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op ">="; print_expr arg2
| Equal {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "="; print_expr arg2
| Neq {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "=/="; print_expr arg2
and print_arith_expr = function
Add {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "+"; print_expr arg2
| Sub {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "-"; print_expr arg2
| Mult {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "*"; print_expr arg2
| Div {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "/"; print_expr arg2
| Mod {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "mod"; print_expr arg2
| Neg {value = {op; arg}; _} ->
print_token op "-"; print_expr arg
| Int i
| Nat i
| Mtz i -> print_int i
and print_string_expr = function
Cat {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "^"; print_expr arg2
| String s -> print_string s
and print_list_expr = function
Cons {value = {arg1; op; arg2}; _} ->
print_expr arg1; print_token op "#"; print_expr arg2
| List e -> print_injection "list" print_expr e
| Nil e -> print_nil e
and print_constr_expr = function
SomeApp e -> print_some_app e
| NoneExpr e -> print_none_expr e
| ConstrApp e -> print_constr_app e
and print_record_expr e =
print_injection "record" print_field_assign e
and print_field_assign {value; _} =
let {field_name; equal; field_expr} = value in
print_var field_name;
print_token equal "=";
print_expr field_expr
and print_projection {value; _} =
let {struct_name; selector; field_path} = value in
print_var struct_name;
print_token selector ".";
print_field_path field_path
and print_field_path sequence =
print_nsepseq "." print_selection sequence
and print_selection = function
FieldName name -> print_var name
| Component int -> print_int int
and print_record_patch node =
let {kwd_patch; path; kwd_with; record_inj} = node in
print_token kwd_patch "patch";
print_path path;
print_token kwd_with "with";
print_record_expr record_inj
and print_set_patch node =
let {kwd_patch; path; kwd_with; set_inj} = node in
print_token kwd_patch "patch";
print_path path;
print_token kwd_with "with";
print_injection "set" print_expr set_inj
and print_map_patch node =
let {kwd_patch; path; kwd_with; map_inj} = node in
print_token kwd_patch "patch";
print_path path;
print_token kwd_with "with";
print_injection "map" print_binding map_inj
and print_map_remove node =
let {kwd_remove; key; kwd_from; kwd_map; map} = node in
print_token kwd_remove "remove";
print_expr key;
print_token kwd_from "from";
print_token kwd_map "map";
print_path map
and print_set_remove node =
let {kwd_remove; element; kwd_from; kwd_set; set} = node in
print_token kwd_remove "remove";
print_expr element;
print_token kwd_from "from";
print_token kwd_set "set";
print_path set
and print_injection :
'a.string -> ('a -> unit) -> 'a injection reg -> unit =
fun kwd print {value; _} ->
let {opening; elements; terminator; closing} = value in
print_opening kwd opening;
print_sepseq ";" print elements;
print_terminator terminator;
print_closing closing
and print_opening lexeme = function
Kwd kwd -> print_token kwd lexeme
| KwdBracket (kwd, lbracket) ->
print_token kwd lexeme;
print_token lbracket "{"
and print_closing = function
RBracket rbracket -> print_token rbracket "}"
| End kwd_end -> print_token kwd_end "end"
and print_binding {value; _} =
let {source; arrow; image} = value in
print_expr source;
print_token arrow "->";
print_expr image
and print_tuple_expr = function
TupleInj inj -> print_tuple_inj inj
and print_tuple_inj {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_nsepseq "," print_expr inside;
print_token rpar ")"
and print_nil value =
print_token value "nil";
and print_none_expr value =
print_token value "None";
and print_fun_call {value; _} =
let fun_name, arguments = value in
print_var fun_name;
print_tuple_inj arguments
and print_constr_app {value; _} =
let constr, arguments = value in
print_constr constr;
match arguments with
None -> ()
| Some args -> print_tuple_inj args
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and print_some_app {value; _} =
let c_Some, arguments = value in
print_token c_Some "Some";
print_tuple_inj arguments
and print_par_expr {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_expr inside;
print_token rpar ")"
and print_pattern = function
PCons {value; _} -> print_nsepseq "#" print_pattern value
| PVar var -> print_var var
| PWild wild -> print_token wild "_"
| PInt i -> print_int i
| PBytes b -> print_bytes b
| PString s -> print_string s
| PUnit region -> print_token region "Unit"
| PFalse region -> print_token region "False"
| PTrue region -> print_token region "True"
| PNone region -> print_token region "None"
| PSome psome -> print_psome psome
| PList pattern -> print_list_pattern pattern
| PTuple ptuple -> print_ptuple ptuple
| PConstr pattern -> print_constr_pattern pattern
and print_constr_pattern {value; _} =
let (constr, args) = value in
print_constr constr;
match args with
None -> ()
| Some tuple -> print_ptuple tuple
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and print_psome {value; _} =
let c_Some, patterns = value in
print_token c_Some "Some";
print_patterns patterns
and print_patterns {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_pattern inside;
print_token rpar ")"
and print_list_pattern = function
Sugar sugar -> print_injection "list" print_pattern sugar
| PNil kwd_nil -> print_token kwd_nil "nil"
| Raw raw -> print_raw raw
and print_raw {value; _} =
let {lpar; inside; rpar} = value in
let head, cons, tail = inside in
print_token lpar "(";
print_pattern head;
print_token cons "#";
print_pattern tail;
print_token rpar ")"
and print_ptuple {value; _} =
let {lpar; inside; rpar} = value in
print_token lpar "(";
print_nsepseq "," print_pattern inside;
print_token rpar ")"
and print_terminator = function
Some semi -> print_token semi ";"
| None -> ()