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SyntaxFunctions.v
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SyntaxFunctions.v
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(*! Frontend | Functions on untyped ASTs, including error localization !*)
Require Import Koika.Syntax.
Section SyntaxFunctions.
Section CoqErrorReporting.
(* We don't have explicit positions in Coq, so the next best thing is to
annotate terms ourselves. *)
Context {var_t fn_name_t reg_t ext_fn_t: Type}.
Notation usugar pos_t := (usugar pos_t var_t fn_name_t).
Notation uaction pos_t := (uaction pos_t var_t fn_name_t).
Open Scope N.
Inductive path := PThis | PThat (p: path) (n: N).
Scheme Equality for path.
Definition foldi {A B: Type} (f : N -> B -> A -> A) (n: N) (a0: A) (bb: list B): N * A :=
List.fold_right (fun b '(n, a) => (N.succ n, f n b a)) (0, a0) bb.
Fixpoint reposition {reg_t ext_fn_t} (p: path) (a: uaction unit reg_t ext_fn_t)
: uaction path reg_t ext_fn_t :=
let r {reg_t ext_fn_t} n := @reposition reg_t ext_fn_t (PThat p n) in
let annotated : uaction path reg_t ext_fn_t :=
match a with
| UError err =>
UError {| epos := p; emsg := err.(emsg); esource := err.(esource) |}
| UFail tau => UFail tau
| UVar var => UVar var
| UConst cst => UConst cst
| UAssign v ex => UAssign v (r 0 ex)
| USeq a1 a2 => USeq (r 0 a1) (r 1 a2)
| UBind v ex body => UBind v (r 0 ex) (r 1 body)
| UIf cond tbranch fbranch =>
UIf (r 0 cond) (r 1 tbranch) (r 2 fbranch)
| URead port idx => URead port idx
| UWrite port idx value => UWrite port idx (r 0 value)
| UUnop ufn1 arg1 => UUnop ufn1 (r 0 arg1)
| UBinop ufn2 arg1 arg2 => UBinop ufn2 (r 0 arg1) (r 1 arg2)
| UExternalCall ufn arg =>
UExternalCall ufn (r 0 arg)
| UInternalCall ufn arg =>
let ufn := map_intf_body (r 0) ufn in
let args := snd (foldi (fun n a args => (r n a :: args)) 1 [] arg) in
UInternalCall ufn args
| UAPos _ e => (r 0 e)
| USugar s => USugar (reposition_sugar p s)
end in
UAPos p annotated
with reposition_sugar {reg_t ext_fn_t} (p: path) (s: usugar unit reg_t ext_fn_t)
: usugar path reg_t ext_fn_t :=
let r {reg_t ext_fn_t} n := @reposition reg_t ext_fn_t (PThat p n) in
match s with
| UErrorInAst => UErrorInAst
| USkip => USkip
| UConstBits bs => UConstBits bs
| UConstString s => UConstString s
| UConstEnum sig cst => UConstEnum sig cst
| UProgn aa =>
let aa := snd (foldi (fun n a aa => (r n a :: aa)) 0 [] aa) in
UProgn aa
| ULet bindings body =>
let '(n, bindings) :=
foldi (fun n '(v, a) bindings => (v, r n a) :: bindings) 0 [] bindings in
ULet bindings (r n body)
| UWhen cond body =>
UWhen (r 0 cond) (r 1 body)
| USwitch var default branches =>
let '(_, branches) :=
foldi (fun n '(a1, a2) branches => (r n a1, r (1 + 2 * n) a2) :: branches) 2 [] branches in
USwitch (r 0 var) (r 1 default) branches
| UStructInit sig fields =>
let '(_, fields) :=
foldi (fun n '(nm, a) fields => (nm, r n a) :: fields) 0 [] fields in
UStructInit sig fields
| UArrayInit tau elements =>
let '(_, elements) :=
foldi (fun n a elements => (r n a) :: elements) 0 [] elements in
UArrayInit tau elements
| UCallModule fR fSigma ufn args =>
let ufn := map_intf_body (r 0) ufn in
let args := snd (foldi (fun n a args => (r n a :: args)) 1 [] args) in
UCallModule fR fSigma ufn args
end.
Fixpoint rev_path acc (p: path) :=
match p with
| PThis => acc
| PThat p n => rev_path (PThat acc n) p
end.
Definition on_track (rev_target current_path: path) :=
match rev_target, current_path with
| PThis, _ => Some PThis
| p, PThis => Some p
| PThat p n, PThat _ n' =>
if N.eqb n n' then Some p else None
end.
Open Scope bool.
Inductive ErrorBeacon : Prop :=
| ErrorHere: forall {A}, A -> ErrorBeacon.
Fixpoint place_error_beacon {reg_t ext_fn_t}
(rev_target current_path: path) (a: uaction unit reg_t ext_fn_t)
: list ErrorBeacon * (uaction unit reg_t ext_fn_t) :=
match on_track rev_target current_path with
| Some PThis =>
let beacon := ErrorHere a in
([beacon], UError {| epos := tt;
emsg := ExplicitErrorInAst;
esource := ErrSrc beacon |})
| Some rev_target =>
let pe n := place_error_beacon rev_target (PThat current_path n) in
let '(beacons, annotated) :=
match a with
| UError err =>
([], a)
| UFail tau =>
([], a)
| UVar var =>
([], a)
| UConst cst =>
([], a)
| UAssign v ex =>
let '(found, ex) := pe 0 ex in
(found, UAssign v ex)
| USeq a1 a2 =>
let '(f1, a1) := pe 0 a1 in
let '(f2, a2) := pe 1 a2 in
(f1 ++ f2, USeq a1 a2)
| UBind v ex body =>
let '(fex, ex) := pe 0 ex in
let '(fbody, body) := pe 1 body in
(fex ++ fbody, UBind v ex body)
| UIf cond tbranch fbranch =>
let '(fcond, cond) := pe 0 cond in
let '(ftbranch, tbranch) := pe 1 tbranch in
let '(ffbranch, fbranch) := pe 2 fbranch in
(fcond ++ ftbranch ++ ffbranch, UIf cond tbranch fbranch)
| URead port idx =>
([], a)
| UWrite port idx value =>
let '(f, value) := pe 0 value in
(f, UWrite port idx value)
| UUnop ufn1 arg1 =>
let '(f1, arg1) := pe 0 arg1 in
(f1, UUnop ufn1 arg1)
| UBinop ufn2 arg1 arg2 =>
let '(f1, arg1) := pe 0 arg1 in
let '(f2, arg2) := pe 1 arg2 in
(f1 ++ f2, UBinop ufn2 arg1 arg2)
| UExternalCall ufn arg =>
let '(f, arg) := pe 0 arg in
(f, UExternalCall ufn arg)
| UInternalCall ufn args =>
let '(fbody, body) := pe 0 ufn.(int_body) in
let ufn :=
if fbody then
(* Only unfold the body if the error is in it *)
map_intf_body (fun _ => body) ufn
else ufn in
let '(n, (fargs, args)) :=
foldi (fun n arg '(fargs, args) =>
let '(f, arg) := pe n arg in (fargs ++ f, arg :: args))
1 ([], []) args in
(fbody ++ fargs, UInternalCall ufn args)
| UAPos _ e => pe 0 e
| USugar s =>
let '(fs, s) := place_error_beacon_in_sugar rev_target current_path s in
(fs, USugar s)
end in
(beacons, match beacons with
| [] => a
| _ => annotated
end)
| None => ([], a)
end
with place_error_beacon_in_sugar
{reg_t ext_fn_t}
(rev_target current_path: path) (s: usugar unit reg_t ext_fn_t)
: list ErrorBeacon * usugar unit reg_t ext_fn_t :=
let pe {reg_t ext_fn_t} n :=
@place_error_beacon reg_t ext_fn_t rev_target (PThat current_path n) in
match s with
| UErrorInAst => ([], s)
| USkip => ([], s)
| UConstBits _ => ([], s)
| UConstString _ => ([], s)
| UConstEnum _ _ => ([], s)
| UProgn aa =>
let '(n, (faa, aa)) :=
foldi (fun n arg '(faa, aa) =>
let '(f, arg) := pe n arg in (faa ++ f, arg :: aa))
0 ([], []) aa in
(faa, UProgn aa)
| ULet bindings body =>
let '(n, (fbindings, bindings)) :=
foldi (fun n '(v, a) '(fbindings, bindings) =>
let '(f, a) := pe n a in (fbindings ++ f, (v, a) :: bindings))
0 ([], []) bindings in
let '(fbody, body) := pe n body in
(fbindings ++ fbody, ULet bindings body)
| UWhen cond body =>
let '(fcond, cond) := pe 0 cond in
let '(fbody, body) := pe 1 body in
(fcond ++ fbody, UWhen cond body)
| USwitch var default branches =>
let '(_, (fbranches, branches)) :=
foldi (fun n '(a1, a2) '(fbranches, branches) =>
let '(f1, a1) := pe (2 * n) a1 in
let '(f2, a2) := pe (1 + 2 * n) a2 in
(fbranches ++ f1 ++ f2, (a1, a2) :: branches))
2 ([], []) branches in
let '(fvar, var) := pe 0 var in
let '(fdefault, default) := pe 1 default in
(fbranches ++ fvar ++ fdefault, USwitch var default branches)
| UArrayInit tau elements =>
let '(_, (felements, elements)) :=
foldi (fun n a '(felements, elements) =>
let '(f, a) := pe n a in (felements ++ f, a :: elements))
0 ([], []) elements in
(felements, UArrayInit tau elements)
| UStructInit sig fields =>
let '(_, (ffields, fields)) :=
foldi (fun n '(v, a) '(ffields, fields) =>
let '(f, a) := pe n a in (ffields ++ f, (v, a) :: fields))
0 ([], []) fields in
(ffields, UStructInit sig fields)
| UCallModule fR fSigma ufn args =>
let '(fbody, body) := pe 0 ufn.(int_body) in
let ufn :=
if fbody then (* Only unfold the body if the error is in it *)
map_intf_body (fun _ => body) ufn
else ufn in
let '(n, (fargs, args)) :=
foldi (fun n arg '(fargs, args) =>
let '(f, arg) := pe n arg in (fargs ++ f, arg :: args))
1 ([], []) args in
(fbody ++ fargs, UCallModule fR fSigma ufn args)
end.
End CoqErrorReporting.
Section TermSize.
Context {pos_t var_t fn_name_t reg_t ext_fn_t: Type}.
Fixpoint uaction_size
{reg_t ext_fn_t}
(ua: Syntax.uaction pos_t var_t fn_name_t reg_t ext_fn_t) :=
(1 + match ua with
| UAssign v ex =>
uaction_size ex
| USeq a1 a2 =>
uaction_size a1 + uaction_size a2
| UBind v ex body =>
uaction_size ex + uaction_size body
| UIf cond tbranch fbranch =>
uaction_size cond + uaction_size tbranch + uaction_size fbranch
| UWrite port idx value =>
uaction_size value
| UUnop ufn1 arg1 =>
uaction_size arg1
| UBinop ufn2 arg1 arg2 =>
uaction_size arg1 + uaction_size arg2
| UExternalCall ufn arg =>
uaction_size arg
| UInternalCall ufn args =>
List.fold_left
(fun acc arg => acc + uaction_size arg)
args (uaction_size ufn.(int_body))
| UAPos p e => uaction_size e
| USugar s => usugar_size s
| _ => 0
end)%N
with usugar_size
{reg_t ext_fn_t}
(us: usugar pos_t var_t fn_name_t reg_t ext_fn_t) :=
(1 + match us with
| UProgn aa =>
List.fold_left
(fun acc arg => acc + uaction_size arg)
aa 0
| ULet bindings body =>
List.fold_left
(fun acc '(_, value) => acc + uaction_size value)
bindings (uaction_size body)
| UWhen cond body =>
uaction_size cond + uaction_size body
| USwitch var default branches =>
List.fold_left
(fun acc '(_, body) => acc + uaction_size body)
branches (uaction_size default)
| UStructInit sig fields =>
List.fold_left
(fun acc '(_, value) => acc + uaction_size value)
fields 0
| UArrayInit tau elements =>
List.fold_left
(fun acc elem => acc + uaction_size elem)
elements 0
| UCallModule fR fSigma fn args =>
List.fold_left
(fun acc arg => acc + uaction_size arg)
args (uaction_size fn.(int_body))
| _ => 0
end)%N.
End TermSize.
End SyntaxFunctions.