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|
(** This module defines printing functions for the types defined in Pure.ml *)
open Pure
open PureUtils
open Errors
(** The formatting context for pure definitions uses non-pure definitions
to lookup names. The main reason is that when building the pure definitions
like in [SymbolicToPure] we don't have a pure context available, while
at every stage we have the original LLBC definitions at hand.
*)
type fmt_env = {
type_decls : Types.type_decl TypeDeclId.Map.t;
fun_decls : LlbcAst.fun_decl FunDeclId.Map.t;
global_decls : LlbcAst.global_decl GlobalDeclId.Map.t;
trait_decls : LlbcAst.trait_decl TraitDeclId.Map.t;
trait_impls : LlbcAst.trait_impl TraitImplId.Map.t;
generics : generic_params;
locals : (VarId.id * string option) list;
}
let var_id_to_pretty_string (id : var_id) : string = "v@" ^ VarId.to_string id
let type_var_id_to_string (env : fmt_env) (id : type_var_id) : string =
(* Note that the types are not necessarily ordered following their indices *)
match
List.find_opt (fun (x : type_var) -> x.index = id) env.generics.types
with
| None -> Print.Types.type_var_id_to_pretty_string id
| Some x -> Print.Types.type_var_to_string x
let const_generic_var_id_to_string (env : fmt_env) (id : const_generic_var_id) :
string =
(* Note that the regions are not necessarily ordered following their indices *)
match
List.find_opt
(fun (x : const_generic_var) -> x.index = id)
env.generics.const_generics
with
| None -> Print.Types.const_generic_var_id_to_pretty_string id
| Some x -> Print.Types.const_generic_var_to_string x
let var_id_to_string (env : fmt_env) (id : VarId.id) : string =
match List.find_opt (fun (i, _) -> i = id) env.locals with
| None -> var_id_to_pretty_string id
| Some (_, name) -> (
match name with
| None -> var_id_to_pretty_string id
| Some name -> name ^ "^" ^ VarId.to_string id)
let trait_clause_id_to_string = Print.Types.trait_clause_id_to_string
let fmt_env_to_llbc_fmt_env (env : fmt_env) : Print.fmt_env =
{
type_decls = env.type_decls;
fun_decls = env.fun_decls;
global_decls = env.global_decls;
trait_decls = env.trait_decls;
trait_impls = env.trait_impls;
regions = [];
generics = TypesUtils.empty_generic_params;
locals = [];
}
let decls_ctx_to_fmt_env (ctx : Contexts.decls_ctx) : fmt_env =
{
type_decls = ctx.type_ctx.type_decls;
fun_decls = ctx.fun_ctx.fun_decls;
global_decls = ctx.global_ctx.global_decls;
trait_decls = ctx.trait_decls_ctx.trait_decls;
trait_impls = ctx.trait_impls_ctx.trait_impls;
generics = empty_generic_params;
locals = [];
}
let name_to_string (env : fmt_env) =
Print.Types.name_to_string (fmt_env_to_llbc_fmt_env env)
let type_decl_id_to_string (env : fmt_env) =
Print.Types.type_decl_id_to_string (fmt_env_to_llbc_fmt_env env)
let global_decl_id_to_string (env : fmt_env) =
Print.Types.global_decl_id_to_string (fmt_env_to_llbc_fmt_env env)
let fun_decl_id_to_string (env : fmt_env) =
Print.Expressions.fun_decl_id_to_string (fmt_env_to_llbc_fmt_env env)
let trait_decl_id_to_string (env : fmt_env) =
Print.Types.trait_decl_id_to_string (fmt_env_to_llbc_fmt_env env)
let trait_impl_id_to_string (env : fmt_env) =
Print.Types.trait_impl_id_to_string (fmt_env_to_llbc_fmt_env env)
let adt_field_to_string (env : fmt_env) =
Print.Types.adt_field_to_string (fmt_env_to_llbc_fmt_env env)
let adt_variant_from_type_decl_id_to_string (env : fmt_env) =
Print.Types.adt_variant_to_string (fmt_env_to_llbc_fmt_env env)
let adt_field_names (env : fmt_env) =
Print.Types.adt_field_names (fmt_env_to_llbc_fmt_env env)
let option_to_string = Print.option_to_string
let literal_type_to_string = Print.Values.literal_type_to_string
let type_var_to_string (v : type_var) = "(" ^ v.name ^ ": Type)"
let const_generic_var_to_string (v : const_generic_var) =
"(" ^ v.name ^ " : " ^ literal_type_to_string v.ty ^ ")"
let integer_type_to_string = Print.Values.integer_type_to_string
let scalar_value_to_string = Print.Values.scalar_value_to_string
let literal_to_string = Print.Values.literal_to_string
let assumed_ty_to_string (aty : assumed_ty) : string =
match aty with
| TState -> "State"
| TResult -> "Result"
| TError -> "Error"
| TFuel -> "Fuel"
| TArray -> "Array"
| TSlice -> "Slice"
| TStr -> "Str"
| TRawPtr Mut -> "MutRawPtr"
| TRawPtr Const -> "ConstRawPtr"
let type_id_to_string (env : fmt_env) (id : type_id) : string =
match id with
| TAdtId id -> type_decl_id_to_string env id
| TTuple -> ""
| TAssumed aty -> assumed_ty_to_string aty
(* TODO: duplicates Charon.PrintTypes.const_generic_to_string *)
let const_generic_to_string (env : fmt_env) (cg : const_generic) : string =
match cg with
| CgGlobal id -> global_decl_id_to_string env id
| CgVar id -> const_generic_var_id_to_string env id
| CgValue lit -> literal_to_string lit
let rec ty_to_string (env : fmt_env) (inside : bool) (ty : ty) : string =
match ty with
| TAdt (id, generics) -> (
match id with
| TTuple ->
let generics = generic_args_to_strings env false generics in
"(" ^ String.concat " * " generics ^ ")"
| TAdtId _ | TAssumed _ ->
let generics = generic_args_to_strings env true generics in
let generics_s =
if generics = [] then "" else " " ^ String.concat " " generics
in
let ty_s = type_id_to_string env id ^ generics_s in
if generics <> [] && inside then "(" ^ ty_s ^ ")" else ty_s)
| TVar tv -> type_var_id_to_string env tv
| TLiteral lty -> literal_type_to_string lty
| TArrow (arg_ty, ret_ty) ->
let ty =
ty_to_string env true arg_ty ^ " -> " ^ ty_to_string env false ret_ty
in
if inside then "(" ^ ty ^ ")" else ty
| TTraitType (trait_ref, type_name) ->
let trait_ref = trait_ref_to_string env false trait_ref in
let s = trait_ref ^ "::" ^ type_name in
if inside then "(" ^ s ^ ")" else s
| Error -> "@Error"
and generic_args_to_strings (env : fmt_env) (inside : bool)
(generics : generic_args) : string list =
let tys = List.map (ty_to_string env inside) generics.types in
let cgs = List.map (const_generic_to_string env) generics.const_generics in
let trait_refs =
List.map (trait_ref_to_string env inside) generics.trait_refs
in
List.concat [ tys; cgs; trait_refs ]
and generic_args_to_string (env : fmt_env) (generics : generic_args) : string =
String.concat " " (generic_args_to_strings env true generics)
and trait_ref_to_string (env : fmt_env) (inside : bool) (tr : trait_ref) :
string =
let trait_id = trait_instance_id_to_string env false tr.trait_id in
let generics = generic_args_to_string env tr.generics in
let s = trait_id ^ generics in
if tr.generics = empty_generic_args || not inside then s else "(" ^ s ^ ")"
and trait_instance_id_to_string (env : fmt_env) (inside : bool)
(id : trait_instance_id) : string =
match id with
| Self -> "Self"
| TraitImpl id -> trait_impl_id_to_string env id
| Clause id -> trait_clause_id_to_string env id
| ParentClause (inst_id, _decl_id, clause_id) ->
let inst_id = trait_instance_id_to_string env false inst_id in
let clause_id = trait_clause_id_to_string env clause_id in
"parent(" ^ inst_id ^ ")::" ^ clause_id
| ItemClause (inst_id, _decl_id, item_name, clause_id) ->
let inst_id = trait_instance_id_to_string env false inst_id in
let clause_id = trait_clause_id_to_string env clause_id in
"(" ^ inst_id ^ ")::" ^ item_name ^ "::[" ^ clause_id ^ "]"
| TraitRef tr -> trait_ref_to_string env inside tr
| UnknownTrait msg -> "UNKNOWN(" ^ msg ^ ")"
let trait_clause_to_string (env : fmt_env) (clause : trait_clause) : string =
let trait_id = trait_decl_id_to_string env clause.trait_id in
let generics = generic_args_to_strings env true clause.generics in
let generics =
if generics = [] then "" else " " ^ String.concat " " generics
in
trait_id ^ generics
let generic_params_to_strings (env : fmt_env) (generics : generic_params) :
string list =
let tys = List.map type_var_to_string generics.types in
let cgs = List.map const_generic_var_to_string generics.const_generics in
let trait_clauses =
List.map (trait_clause_to_string env) generics.trait_clauses
in
List.concat [ tys; cgs; trait_clauses ]
let field_to_string env inside (f : field) : string =
match f.field_name with
| None -> ty_to_string env inside f.field_ty
| Some field_name ->
let s = field_name ^ " : " ^ ty_to_string env false f.field_ty in
if inside then "(" ^ s ^ ")" else s
let variant_to_string env (v : variant) : string =
v.variant_name ^ "("
^ String.concat ", " (List.map (field_to_string env false) v.fields)
^ ")"
let type_decl_to_string (env : fmt_env) (def : type_decl) : string =
let env = { env with generics = def.generics } in
let name = def.name in
let params =
if def.generics = empty_generic_params then ""
else " " ^ String.concat " " (generic_params_to_strings env def.generics)
in
match def.kind with
| Struct fields ->
if List.length fields > 0 then
let fields =
String.concat ","
(List.map (fun f -> "\n " ^ field_to_string env false f) fields)
in
"struct " ^ name ^ params ^ "{" ^ fields ^ "}"
else "struct " ^ name ^ params ^ "{}"
| Enum variants ->
let variants =
List.map (fun v -> "| " ^ variant_to_string env v) variants
in
let variants = String.concat "\n" variants in
"enum " ^ name ^ params ^ " =\n" ^ variants
| Opaque -> "opaque type " ^ name ^ params
let var_to_varname (v : var) : string =
match v.basename with
| Some name -> name ^ "^" ^ VarId.to_string v.id
| None -> "^" ^ VarId.to_string v.id
let var_to_string (env : fmt_env) (v : var) : string =
let varname = var_to_varname v in
"(" ^ varname ^ " : " ^ ty_to_string env false v.ty ^ ")"
let rec mprojection_to_string (env : fmt_env) (inside : string)
(p : mprojection) : string =
match p with
| [] -> inside
| pe :: p' -> (
let s = mprojection_to_string env inside p' in
match pe.pkind with
| E.ProjTuple _ -> "(" ^ s ^ ")." ^ T.FieldId.to_string pe.field_id
| E.ProjAdt (adt_id, opt_variant_id) -> (
let field_name =
match adt_field_to_string env adt_id opt_variant_id pe.field_id with
| Some field_name -> field_name
| None -> T.FieldId.to_string pe.field_id
in
match opt_variant_id with
| None -> "(" ^ s ^ ")." ^ field_name
| Some variant_id ->
let variant_name =
adt_variant_from_type_decl_id_to_string env adt_id variant_id
in
"(" ^ s ^ " as " ^ variant_name ^ ")." ^ field_name))
let mplace_to_string (env : fmt_env) (p : mplace) : string =
let name = match p.name with None -> "" | Some name -> name in
(* We add the "llbc" suffix to the variable index, because span-places
* use indices of the variables in the original LLBC program, while
* regular places use indices for the pure variables: we want to make
* this explicit, otherwise it is confusing. *)
let name = name ^ "^" ^ E.VarId.to_string p.var_id ^ "llbc" in
mprojection_to_string env name p.projection
let adt_variant_to_string ?(span = None) (env : fmt_env) (adt_id : type_id)
(variant_id : VariantId.id option) : string =
match adt_id with
| TTuple -> "Tuple"
| TAdtId def_id -> (
(* "Regular" ADT *)
match variant_id with
| Some vid -> adt_variant_from_type_decl_id_to_string env def_id vid
| None -> type_decl_id_to_string env def_id)
| TAssumed aty -> (
(* Assumed type *)
match aty with
| TState | TArray | TSlice | TStr | TRawPtr _ ->
(* Those types are opaque: we can't get there *)
craise_opt_span __FILE__ __LINE__ span "Unreachable"
| TResult ->
let variant_id = Option.get variant_id in
if variant_id = result_ok_id then "@Result::Return"
else if variant_id = result_fail_id then "@Result::Fail"
else
craise_opt_span __FILE__ __LINE__ span
"Unreachable: improper variant id for result type"
| TError ->
let variant_id = Option.get variant_id in
if variant_id = error_failure_id then "@Error::Failure"
else if variant_id = error_out_of_fuel_id then "@Error::OutOfFuel"
else
craise_opt_span __FILE__ __LINE__ span
"Unreachable: improper variant id for error type"
| TFuel ->
let variant_id = Option.get variant_id in
if variant_id = fuel_zero_id then "@Fuel::Zero"
else if variant_id = fuel_succ_id then "@Fuel::Succ"
else
craise_opt_span __FILE__ __LINE__ span
"Unreachable: improper variant id for fuel type")
let adt_field_to_string ?(span = None) (env : fmt_env) (adt_id : type_id)
(field_id : FieldId.id) : string =
match adt_id with
| TTuple ->
craise_opt_span __FILE__ __LINE__ span "Unreachable"
(* Tuples don't use the opaque field id for the field indices, but [int] *)
| TAdtId def_id -> (
(* "Regular" ADT *)
let fields = adt_field_names env def_id None in
match fields with
| None -> FieldId.to_string field_id
| Some fields -> FieldId.nth fields field_id)
| TAssumed aty -> (
(* Assumed type *)
match aty with
| TState | TFuel | TArray | TSlice | TStr ->
(* Opaque types: we can't get there *)
craise_opt_span __FILE__ __LINE__ span "Unreachable"
| TResult | TError | TRawPtr _ ->
(* Enumerations: we can't get there *)
craise_opt_span __FILE__ __LINE__ span "Unreachable")
(** TODO: we don't need a general function anymore (it is now only used for
patterns)
*)
let adt_g_value_to_string ?(span : Meta.span option = None) (env : fmt_env)
(value_to_string : 'v -> string) (variant_id : VariantId.id option)
(field_values : 'v list) (ty : ty) : string =
let field_values = List.map value_to_string field_values in
match ty with
| TAdt (TTuple, _) ->
(* Tuple *)
"(" ^ String.concat ", " field_values ^ ")"
| TAdt (TAdtId def_id, _) ->
(* "Regular" ADT *)
let adt_ident =
match variant_id with
| Some vid -> adt_variant_from_type_decl_id_to_string env def_id vid
| None -> type_decl_id_to_string env def_id
in
if field_values <> [] then
match adt_field_names env def_id variant_id with
| None ->
let field_values = String.concat ", " field_values in
adt_ident ^ " (" ^ field_values ^ ")"
| Some field_names ->
let field_values = List.combine field_names field_values in
let field_values =
List.map
(fun (field, value) -> field ^ " = " ^ value ^ ";")
field_values
in
let field_values = String.concat " " field_values in
adt_ident ^ " { " ^ field_values ^ " }"
else adt_ident
| TAdt (TAssumed aty, _) -> (
(* Assumed type *)
match aty with
| TState | TRawPtr _ ->
(* This type is opaque: we can't get there *)
craise_opt_span __FILE__ __LINE__ span "Unreachable"
| TResult ->
let variant_id = Option.get variant_id in
if variant_id = result_ok_id then
match field_values with
| [ v ] -> "@Result::Return " ^ v
| _ ->
craise_opt_span __FILE__ __LINE__ span
"Result::Return takes exactly one value"
else if variant_id = result_fail_id then
match field_values with
| [ v ] -> "@Result::Fail " ^ v
| _ ->
craise_opt_span __FILE__ __LINE__ span
"Result::Fail takes exactly one value"
else
craise_opt_span __FILE__ __LINE__ span
"Unreachable: improper variant id for result type"
| TError ->
cassert_opt_span __FILE__ __LINE__ (field_values = []) span
"Ill-formed error value";
let variant_id = Option.get variant_id in
if variant_id = error_failure_id then "@Error::Failure"
else if variant_id = error_out_of_fuel_id then "@Error::OutOfFuel"
else
craise_opt_span __FILE__ __LINE__ span
"Unreachable: improper variant id for error type"
| TFuel ->
let variant_id = Option.get variant_id in
if variant_id = fuel_zero_id then (
cassert_opt_span __FILE__ __LINE__ (field_values = []) span
"Ill-formed full value";
"@Fuel::Zero")
else if variant_id = fuel_succ_id then
match field_values with
| [ v ] -> "@Fuel::Succ " ^ v
| _ ->
craise_opt_span __FILE__ __LINE__ span
"@Fuel::Succ takes exactly one value"
else
craise_opt_span __FILE__ __LINE__ span
"Unreachable: improper variant id for fuel type"
| TArray | TSlice | TStr ->
cassert_opt_span __FILE__ __LINE__ (variant_id = None) span
"Ill-formed value";
let field_values =
List.mapi (fun i v -> string_of_int i ^ " -> " ^ v) field_values
in
let id = assumed_ty_to_string aty in
id ^ " [" ^ String.concat "; " field_values ^ "]")
| _ ->
craise_opt_span __FILE__ __LINE__ span
("Inconsistently typed value: expected ADT type but found:" ^ "\n- ty: "
^ ty_to_string env false ty ^ "\n- variant_id: "
^ Print.option_to_string VariantId.to_string variant_id)
let rec typed_pattern_to_string ?(span : Meta.span option = None)
(env : fmt_env) (v : typed_pattern) : string =
match v.value with
| PatConstant cv -> literal_to_string cv
| PatVar (v, None) -> var_to_string env v
| PatVar (v, Some mp) ->
let mp = "[@mplace=" ^ mplace_to_string env mp ^ "]" in
"(" ^ var_to_varname v ^ " " ^ mp ^ " : "
^ ty_to_string env false v.ty
^ ")"
| PatDummy -> "_"
| PatAdt av ->
adt_g_value_to_string ~span env
(typed_pattern_to_string ~span env)
av.variant_id av.field_values v.ty
let fun_sig_to_string (env : fmt_env) (sg : fun_sig) : string =
let env = { env with generics = sg.generics } in
let generics = generic_params_to_strings env sg.generics in
let inputs = List.map (ty_to_string env false) sg.inputs in
let output = ty_to_string env false sg.output in
let all_types = List.concat [ generics; inputs; [ output ] ] in
String.concat " -> " all_types
let inst_fun_sig_to_string (env : fmt_env) (sg : inst_fun_sig) : string =
let inputs = List.map (ty_to_string env false) sg.inputs in
let output = ty_to_string env false sg.output in
let all_types = List.append inputs [ output ] in
String.concat " -> " all_types
let fun_suffix (lp_id : LoopId.id option) : string =
let lp_suff =
match lp_id with
| None -> ""
| Some lp_id -> "^loop" ^ LoopId.to_string lp_id
in
lp_suff
let llbc_assumed_fun_id_to_string (fid : A.assumed_fun_id) : string =
match fid with
| BoxNew -> "alloc::boxed::Box::new"
| BoxFree -> "alloc::alloc::box_free"
| ArrayIndexShared -> "@ArrayIndexShared"
| ArrayIndexMut -> "@ArrayIndexMut"
| ArrayToSliceShared -> "@ArrayToSliceShared"
| ArrayToSliceMut -> "@ArrayToSliceMut"
| ArrayRepeat -> "@ArrayRepeat"
| SliceIndexShared -> "@SliceIndexShared"
| SliceIndexMut -> "@SliceIndexMut"
let llbc_fun_id_to_string (env : fmt_env) (fid : A.fun_id) : string =
match fid with
| FRegular fid -> fun_decl_id_to_string env fid
| FAssumed fid -> llbc_assumed_fun_id_to_string fid
let pure_assumed_fun_id_to_string (fid : pure_assumed_fun_id) : string =
match fid with
| Return -> "return"
| Fail -> "fail"
| Assert -> "assert"
| FuelDecrease -> "fuel_decrease"
| FuelEqZero -> "fuel_eq_zero"
let regular_fun_id_to_string (env : fmt_env) (fun_id : fun_id) : string =
match fun_id with
| FromLlbc (fid, lp_id) ->
let f =
match fid with
| FunId (FRegular fid) -> fun_decl_id_to_string env fid
| FunId (FAssumed fid) -> llbc_assumed_fun_id_to_string fid
| TraitMethod (trait_ref, method_name, _) ->
trait_ref_to_string env true trait_ref ^ "." ^ method_name
in
f ^ fun_suffix lp_id
| Pure fid -> pure_assumed_fun_id_to_string fid
let unop_to_string (unop : unop) : string =
match unop with
| Not -> "¬"
| Neg _ -> "-"
| Cast (src, tgt) ->
"cast<" ^ literal_type_to_string src ^ "," ^ literal_type_to_string tgt
^ ">"
let binop_to_string = Print.Expressions.binop_to_string
let fun_or_op_id_to_string (env : fmt_env) (fun_id : fun_or_op_id) : string =
match fun_id with
| Fun fun_id -> regular_fun_id_to_string env fun_id
| Unop unop -> unop_to_string unop
| Binop (binop, int_ty) ->
binop_to_string binop ^ "<" ^ integer_type_to_string int_ty ^ ">"
(** [inside]: controls the introduction of parentheses *)
let rec texpression_to_string ?(spandata : Meta.span option = None)
(env : fmt_env) (inside : bool) (indent : string) (indent_incr : string)
(e : texpression) : string =
match e.e with
| Var var_id -> var_id_to_string env var_id
| CVar cg_id -> const_generic_var_id_to_string env cg_id
| Const cv -> literal_to_string cv
| App _ ->
(* Recursively destruct the app, to have a pair (app, arguments list) *)
let app, args = destruct_apps e in
(* Convert to string *)
app_to_string ~span:spandata env inside indent indent_incr app args
| Lambda _ ->
let xl, e = destruct_lambdas e in
let e = lambda_to_string ~span:spandata env indent indent_incr xl e in
if inside then "(" ^ e ^ ")" else e
| Qualif _ ->
(* Qualifier without arguments *)
app_to_string ~span:spandata env inside indent indent_incr e []
| Let (monadic, lv, re, e) ->
let e =
let_to_string ~span:spandata env indent indent_incr monadic lv re e
in
if inside then "(" ^ e ^ ")" else e
| Switch (scrutinee, body) ->
let e =
switch_to_string ~span:spandata env indent indent_incr scrutinee body
in
if inside then "(" ^ e ^ ")" else e
| Loop loop ->
let e = loop_to_string ~span:spandata env indent indent_incr loop in
if inside then "(" ^ e ^ ")" else e
| StructUpdate supd -> (
let s =
match supd.init with
| None -> ""
| Some vid -> " " ^ var_id_to_string env vid ^ " with"
in
let indent1 = indent ^ indent_incr in
let indent2 = indent1 ^ indent_incr in
(* The id should be a custom type decl id or an array *)
match supd.struct_id with
| TAdtId aid ->
let field_names = Option.get (adt_field_names env aid None) in
let fields =
List.map
(fun (fid, fe) ->
let field = FieldId.nth field_names fid in
let fe =
texpression_to_string ~spandata env false indent2 indent_incr
fe
in
"\n" ^ indent1 ^ field ^ " := " ^ fe ^ ";")
supd.updates
in
let bl = if fields = [] then "" else "\n" ^ indent in
"{" ^ s ^ String.concat "" fields ^ bl ^ "}"
| TAssumed TArray ->
let fields =
List.map
(fun (_, fe) ->
texpression_to_string ~spandata env false indent2 indent_incr fe)
supd.updates
in
"[ " ^ String.concat ", " fields ^ " ]"
| _ -> craise_opt_span __FILE__ __LINE__ spandata "Unexpected")
| Meta (span, e) -> (
let span_s = espan_to_string ~spandata env span in
let e = texpression_to_string ~spandata env inside indent indent_incr e in
match span with
| Assignment _ | SymbolicAssignments _ | SymbolicPlaces _ | Tag _ ->
let e = span_s ^ "\n" ^ indent ^ e in
if inside then "(" ^ e ^ ")" else e
| MPlace _ -> "(" ^ span_s ^ " " ^ e ^ ")")
| EError (_, _) -> "@Error"
and app_to_string ?(span : Meta.span option = None) (env : fmt_env)
(inside : bool) (indent : string) (indent_incr : string) (app : texpression)
(args : texpression list) : string =
(* There are two possibilities: either the [app] is an instantiated,
* top-level qualifier (function, ADT constructore...), or it is a "regular"
* expression *)
let app, generics =
match app.e with
| Qualif qualif -> (
(* Qualifier case *)
match qualif.id with
| FunOrOp fun_id ->
let generics = generic_args_to_strings env true qualif.generics in
let qualif_s = fun_or_op_id_to_string env fun_id in
(qualif_s, generics)
| Global global_id ->
let generics = generic_args_to_strings env true qualif.generics in
(global_decl_id_to_string env global_id, generics)
| AdtCons adt_cons_id ->
let variant_s =
adt_variant_to_string ~span env adt_cons_id.adt_id
adt_cons_id.variant_id
in
(ConstStrings.constructor_prefix ^ variant_s, [])
| Proj { adt_id; field_id } ->
let adt_s = adt_variant_to_string ~span env adt_id None in
let field_s = adt_field_to_string ~span env adt_id field_id in
(* Adopting an F*-like syntax *)
(ConstStrings.constructor_prefix ^ adt_s ^ "?." ^ field_s, [])
| TraitConst (trait_ref, const_name) ->
let trait_ref = trait_ref_to_string env true trait_ref in
let qualif = trait_ref ^ "." ^ const_name in
(qualif, []))
| _ ->
(* "Regular" expression case *)
let inside = args <> [] || (args = [] && inside) in
( texpression_to_string ~spandata:span env inside indent indent_incr app,
[] )
in
(* Convert the arguments.
* The arguments are expressions, so indentation might get weird... (though
* those expressions will in most cases just be values) *)
let arg_to_string =
let inside = true in
let indent1 = indent ^ indent_incr in
texpression_to_string ~spandata:span env inside indent1 indent_incr
in
let args = List.map arg_to_string args in
let all_args = List.append generics args in
(* Put together *)
let e =
if all_args = [] then app else app ^ " " ^ String.concat " " all_args
in
(* Add parentheses *)
if all_args <> [] && inside then "(" ^ e ^ ")" else e
and lambda_to_string ?(span : Meta.span option = None) (env : fmt_env)
(indent : string) (indent_incr : string) (xl : typed_pattern list)
(e : texpression) : string =
let xl = List.map (typed_pattern_to_string ~span env) xl in
let e = texpression_to_string ~spandata:span env false indent indent_incr e in
"λ " ^ String.concat " " xl ^ ". " ^ e
and let_to_string ?(span : Meta.span option = None) (env : fmt_env)
(indent : string) (indent_incr : string) (monadic : bool)
(lv : typed_pattern) (re : texpression) (e : texpression) : string =
let indent1 = indent ^ indent_incr in
let inside = false in
let re =
texpression_to_string ~spandata:span env inside indent1 indent_incr re
in
let e =
texpression_to_string ~spandata:span env inside indent indent_incr e
in
let lv = typed_pattern_to_string ~span env lv in
if monadic then lv ^ " <-- " ^ re ^ ";\n" ^ indent ^ e
else "let " ^ lv ^ " = " ^ re ^ " in\n" ^ indent ^ e
and switch_to_string ?(span : Meta.span option = None) (env : fmt_env)
(indent : string) (indent_incr : string) (scrutinee : texpression)
(body : switch_body) : string =
let indent1 = indent ^ indent_incr in
(* Printing can mess up on the scrutinee, because it is an expression - but
* in most situations it will be a value or a function call, so it should be
* ok*)
let scrut =
texpression_to_string ~spandata:span env true indent1 indent_incr scrutinee
in
let e_to_string =
texpression_to_string ~spandata:span env false indent1 indent_incr
in
match body with
| If (e_true, e_false) ->
let e_true = e_to_string e_true in
let e_false = e_to_string e_false in
"if " ^ scrut ^ "\n" ^ indent ^ "then\n" ^ indent1 ^ e_true ^ "\n"
^ indent ^ "else\n" ^ indent1 ^ e_false
| Match branches ->
let branch_to_string (b : match_branch) : string =
let pat = typed_pattern_to_string ~span env b.pat in
indent ^ "| " ^ pat ^ " ->\n" ^ indent1 ^ e_to_string b.branch
in
let branches = List.map branch_to_string branches in
"match " ^ scrut ^ " with\n" ^ String.concat "\n" branches
and loop_to_string ?(span : Meta.span option = None) (env : fmt_env)
(indent : string) (indent_incr : string) (loop : loop) : string =
let indent1 = indent ^ indent_incr in
let indent2 = indent1 ^ indent_incr in
let loop_inputs =
"fresh_vars: ["
^ String.concat "; " (List.map (var_to_string env) loop.inputs)
^ "]"
in
let output_ty = "output_ty: " ^ ty_to_string env false loop.output_ty in
let fun_end =
texpression_to_string ~spandata:span env false indent2 indent_incr
loop.fun_end
in
let loop_body =
texpression_to_string ~spandata:span env false indent2 indent_incr
loop.loop_body
in
"loop {\n" ^ indent1 ^ loop_inputs ^ "\n" ^ indent1 ^ output_ty ^ "\n"
^ indent1 ^ "fun_end: {\n" ^ indent2 ^ fun_end ^ "\n" ^ indent1 ^ "}\n"
^ indent1 ^ "loop_body: {\n" ^ indent2 ^ loop_body ^ "\n" ^ indent1 ^ "}\n"
^ indent ^ "}"
and espan_to_string ?(spandata : Meta.span option = None) (env : fmt_env)
(span : espan) : string =
let span =
match span with
| Assignment (lp, rv, rp) ->
let rp =
match rp with
| None -> ""
| Some rp -> " [@src=" ^ mplace_to_string env rp ^ "]"
in
"@assign(" ^ mplace_to_string env lp ^ " := "
^ texpression_to_string ~spandata env false "" "" rv
^ rp ^ ")"
| SymbolicAssignments info ->
let infos =
List.map
(fun (var_id, rv) ->
VarId.to_string var_id ^ " == "
^ texpression_to_string ~spandata env false "" "" rv)
info
in
let infos = String.concat ", " infos in
"@symb_assign(" ^ infos ^ ")"
| SymbolicPlaces info ->
let infos =
List.map
(fun (var_id, name) ->
VarId.to_string var_id ^ " == \"" ^ name ^ "\"")
info
in
let infos = String.concat ", " infos in
"@symb_places(" ^ infos ^ ")"
| MPlace mp -> "@mplace=" ^ mplace_to_string env mp
| Tag msg -> "@tag \"" ^ msg ^ "\""
in
"@span[" ^ span ^ "]"
let fun_decl_to_string (env : fmt_env) (def : fun_decl) : string =
let env = { env with generics = def.signature.generics } in
let name = def.name ^ fun_suffix def.loop_id in
let signature = fun_sig_to_string env def.signature in
match def.body with
| None -> "val " ^ name ^ " :\n " ^ signature
| Some body ->
let inside = false in
let indent = " " in
let inputs = List.map (var_to_string env) body.inputs in
let inputs =
if inputs = [] then indent
else " fun " ^ String.concat " " inputs ^ " ->\n" ^ indent
in
let body =
texpression_to_string ~spandata:(Some def.item_meta.span) env inside
indent indent body.body
in
"let " ^ name ^ " :\n " ^ signature ^ " =\n" ^ inputs ^ body
|