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|
(* Copyright (c) 2012, Adam Chlipala
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - The names of contributors may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*)
structure GetInfo :> GET_INFO = struct
structure U = ElabUtilPos
structure E = ElabEnv
structure L = Elab
structure P = Print
fun isPosIn (file: string) (row: int) (col: int) (span: ErrorMsg.span) =
let
val start = #first span
val end_ = #last span
in
String.isSuffix file (#file span)
andalso
(#line start < row orelse
#line start = row andalso #char start <= col)
andalso
(#line end_ > row orelse
#line end_ = row andalso #char end_ >= col)
end
fun isSmallerThan (s1: ErrorMsg.span) (s2: ErrorMsg.span) =
(#line (#first s1) > #line (#first s2) orelse
(#line (#first s1) = #line (#first s2) andalso (#char (#first s1) >= #char (#first s2))))
andalso
(#line (#last s1) < #line (#last s2) orelse
(#line (#last s1) = #line (#last s2) andalso (#char (#last s1) <= #char (#last s2))))
datatype item =
Kind of L.kind
| Con of L.con
| Exp of L.exp
| Sgn_item of L.sgn_item
| Sgn of L.sgn
| Str of L.str
| Decl of L.decl
fun getSpan (f: item * E.env) =
case #1 f of
Kind k => #2 k
| Con c => #2 c
| Exp e => #2 e
| Sgn_item si => #2 si
| Sgn s => #2 s
| Str s => #2 s
| Decl d => #2 d
(* Just use ElabPrint functions. *)
(* These are better for compiler error messages, but it's better than nothing *)
fun printLiterally {span = span, item = item, env = env} =
P.box [ case item of
Kind k => P.box [P.PD.string "KIND: ", ElabPrint.p_kind env k]
| Con c => P.box [P.PD.string "CON: ", ElabPrint.p_con env c]
| Exp e => P.box [P.PD.string "EXP: ", ElabPrint.p_exp env e]
| Sgn_item si => P.box [P.PD.string "SGN_ITEM: ", ElabPrint.p_sgn_item env si]
| Sgn s => P.box [P.PD.string "SGN: ", ElabPrint.p_sgn env s]
| Str s => P.box [P.PD.string "STR: ", ElabPrint.p_str env s]
| Decl d => P.box [P.PD.string "DECL: ", ElabPrint.p_decl env d]
]
fun getInfo env str fileName {line = row, character = col} =
let
val () = U.mliftConInCon := E.mliftConInCon
(* Adding previous declarations in file to environment *)
(* "open <mod>" statements are already translated during elaboration *)
(* They get added to the env here "unprefixed" *)
val env = (case str of
L.StrConst decls =>
List.foldl (fn (d, env) =>
if #line (#first (#2 d)) <= row
andalso #char (#first (#2 d)) <= col
then E.declBinds env d
else env) env decls
| _ => env)
(* This isn't very precise since we use the span of the parent exp/decl/etc *)
(* to find the "smallest part" *)
fun printPat env (pat: L.pat) =
if isPosIn fileName row col (#2 pat)
then
case #1 pat of
L.PVar (str, c) => SOME (P.box [ P.PD.string str
, P.PD.string " : "
, ElabPrint.p_con env c])
| L.PCon (_, _, _, SOME p) => printPat env p
| L.PRecord fields => (case List.mapPartial (fn field => printPat env (#2 field)) fields of
[] => NONE
| first :: _ => SOME first)
| _ => NONE
else NONE
fun isXmlTag env c =
case c of
L.CApp
((L.CApp
((L.CApp
(( L.CApp
(( L.CApp
((L.CNamed n, _) , _)
, _)
, _)
, _)
, _)
, _)
, _)
, _)
, _) =>
(case E.lookupCNamed env n of
("tag", _, _) => true
| _ => false)
| _ => false
fun formatTypeBox (a: P.PD.pp_desc, b: P.PD.pp_desc) =
P.PD.hvBox (P.PD.PPS.Rel 0, [a,
P.PD.string ": ",
P.PD.break {nsp = 0, offset = 2},
b])
(* TODO We lose some really useful information, like eg. inferred parameters, *)
(* which we do have in the actual items (L.Decl, L.Exp, etc) *)
(* but not when we do a lookup into the Env *)
(* TODO Rename? *)
fun printGoodPart env f span =
(case f of
Exp (L.EPrim p, _) =>
let
val rendered = formatTypeBox ( Prim.p_t p
, P.PD.string (case p of
Prim.Int _ => "int"
| Prim.Float _ => "float"
| Prim.String _ => "string"
| Prim.Char _ => "char"))
in
case p of
Prim.String (_, str) =>
if Substring.foldl (fn (c, acc) => acc andalso c = #" ") true (Substring.full str)
then NONE
else SOME rendered
| _ => SOME (rendered)
end
| Exp (L.ERel n, _) =>
SOME ((let val found = E.lookupERel env n
in
formatTypeBox ( P.PD.string (#1 found)
, ElabPrint.p_con env (#2 found))
end)
handle E.UnboundRel _ => P.PD.string ("UNBOUND_REL" ^ Int.toString n))
| Exp (L.ENamed n, span) =>
((let
val found = E.lookupENamed env n
val rendered = formatTypeBox ( P.PD.string (#1 found)
, ElabPrint.p_con env (#2 found))
(* val () = if #1 found = "body" *)
(* then Print.eprint (ElabPrint.p_con env (#2 found)) *)
(* else () *)
in
(* case #2 found of *)
(* (L.TFun ((L.CUnit, _), (c, _)), _) => *)
(* (if isXmlTag env c *)
(* then SOME (P.box [ P.PD.string "<" *)
(* , P.PD.string ( #1 found) *)
(* , P.PD.string ">" *)
(* ]) *)
(* else SOME rendered) *)
(* | _ => *) SOME rendered
end)
handle E.UnboundNamed _ => SOME (P.PD.string ("UNBOUND_NAMED" ^ Int.toString n)))
| Exp (L.EAbs (varName, domain, _, _), _) =>
if isPosIn fileName row col (#2 domain)
then
SOME (formatTypeBox ( P.PD.string varName
, ElabPrint.p_con env domain)
)
else NONE
| Exp (L.EField (e, c, {field, ...}), loc) =>
SOME (formatTypeBox ( P.box [ElabPrint.p_exp env e,
P.PD.string ".",
ElabPrint.p_con env c]
, ElabPrint.p_con env field))
| Exp (L.EModProj ( m1 (* number (= "name") of top level module *)
, ms (* names of submodules - possibly none *)
, x (* identifier *)), loc) =>
(let
val (m1name, m1sgn) = E.lookupStrNamed env m1
val (str, sgn) = foldl (fn (m, (str, sgn)) =>
case E.projectStr env {sgn = sgn, str = str, field = m} of
NONE => raise Fail ("Couldn't find Structure: " ^ m)
| SOME sgn => ((L.StrProj (str, m), loc), sgn))
((L.StrVar m1, loc), m1sgn)
ms
val t = case E.projectVal env {sgn = sgn, str = str, field = x} of
NONE => raise Fail ("Couldn't find identifier: " ^ x)
| SOME t => t
in
case (m1name, x) of
(* Stripping these because XML desugaring adds these with small spans and crowd out the stuff you want to see *)
("Basis", "cdata") => NONE
| ("Top", "txt") => NONE
| ("Basis", "join") => NONE
| ("Basis", "bind") => NONE
| ("Basis", "sql_subset") => NONE
| ("Basis", "sql_subset_all") => NONE
| ("Basis", "sql_query") => NONE
| ("Basis", "sql_query1") => NONE
| ("Basis", "sql_eq") => NONE
| ("Basis", "sql_inner_join") => NONE
(* | ("Basis", "sql_field") => NONE *)
| ("Basis", "sql_binary") => NONE
| _ =>
SOME (formatTypeBox ( P.p_list_sep (P.PD.string ".") P.PD.string (m1name :: ms @ [x])
, ElabPrint.p_con env t))
end
handle E.UnboundNamed _ => SOME (P.PD.string ("Module not found: " ^ Int.toString m1)))
| Exp (L.ELet (edecls, _, _), _) =>
let
val found = List.mapPartial
(fn (edecl, loc) =>
if isPosIn fileName row col loc
then
case edecl of
L.EDVal (pat, _, _) => printPat env pat
| L.EDValRec ((x, c, _) :: _) =>
SOME (formatTypeBox ( P.PD.string x
, ElabPrint.p_con env c))
| _ => NONE
else NONE)
edecls
in
if List.length found > 0
then SOME (List.hd found)
else NONE
end
| Exp (L.ECase (_, pats, _), _) =>
(case List.find (fn ((pat', loc), exp) => isPosIn fileName row col loc) pats of
NONE => NONE
| SOME (pat, _) => printPat env pat)
| Exp e => NONE
| Kind k => NONE
| Con c => NONE
| Sgn_item si => NONE
| Sgn s => NONE
| Str s => NONE
| Decl (L.DVal (x, _, con, _), _) =>
SOME (formatTypeBox ( P.PD.string x
, ElabPrint.p_con env con ))
| Decl (L.DValRec decls, _) =>
(* valrecs don't have nice spans per declaration so we find the *)
(* declaration for which the con starts closest *)
let
val res =
List.foldl (fn (decl, accO) =>
let
val distanceFromRow = Int.abs (#line (#first (#2 (#3 decl))) - row)
val accDistanceFromRow = case accO of
NONE => 999
| SOME acc => Int.abs (#line (#first (#2 (#3 acc))) - row)
in
if distanceFromRow < accDistanceFromRow andalso distanceFromRow <= 1
then SOME decl
else accO
end)
NONE
decls
in
case res of
NONE => NONE
| SOME (x, _, con, _) =>
SOME (formatTypeBox ( P.PD.string x
, ElabPrint.p_con env con))
end
| Decl d => NONE
)
fun add (env: ElabEnv.env) (item: item) (span: ErrorMsg.span) (acc: { smallest : { span : ErrorMsg.span
, item : item
, env : ElabEnv.env }
, smallestgoodpart : { span : ErrorMsg.span
, desc : P.PD.pp_desc
, env : ElabEnv.env
, item : item
} option
}
) =
if not (isPosIn fileName row col span)
then
acc
else
let
val smallest =
if isSmallerThan span (#span (#smallest acc))
then {span = span, item = item, env = env}
else #smallest acc
val smallestgoodpart =
case #smallestgoodpart acc of
NONE =>
(case printGoodPart env item span of
NONE => NONE
| SOME desc => SOME {desc = desc, span = span, env = env, item = item})
| SOME (prev as {desc = desc', span = span', env = env', item = item'}) =>
if
isSmallerThan span span'
then
(case printGoodPart env item span of
NONE => SOME prev
| SOME desc => SOME {desc = desc, span = span, env = env, item = item})
else SOME prev
in
{smallest = smallest, smallestgoodpart = smallestgoodpart}
end
(* Look for item at input position *)
(* We're looking for two things simultaneously: *)
(* 1. The "smallest" part, ie. the one of which the source span is the smallest *)
(* 2. The "smallestgoodpart" part, ie. the one of which the source span is the smallest AND has a special case in printGoodPart *)
(* If we end up with a smallestgoodpart, we'll show that one since that one is probably more useful *)
(* TODO source spans of XML and SQL sources are weird and you end *)
(* up with eg: a span from eg 1-5 and another from 2-6, makes no sense? *)
(* That's one of the reasons why we're searching for the two things mentioned above *)
val result =
U.Decl.foldB
{ kind = fn (env, (k, span), acc) => add env (Kind (k, span)) span acc,
con = fn (env, (k, span), acc) => add env (Con (k, span)) span acc,
exp = fn (env, (k, span), acc) => add env (Exp (k, span)) span acc,
sgn_item = fn (env, (k, span), acc) => add env (Sgn_item (k, span)) span acc,
sgn = fn (env, (k, span), acc) => add env (Sgn (k, span)) span acc,
str = fn (env, (k, span), acc) => add env (Str (k, span)) span acc,
decl = fn (env, (k, span), acc) => add env (Decl (k, span)) span acc,
bind = fn (env, binder) =>
case binder of
U.Decl.RelK x => E.pushKRel env x
| U.Decl.RelC (x, k) => E.pushCRel env x k
| U.Decl.NamedC (x, n, k, co) => E.pushCNamedAs env x n k co
| U.Decl.RelE (x, c) => E.pushERel env x c
| U.Decl.NamedE (x, c) => #1 (E.pushENamed env x c)
| U.Decl.Str (x, n, sgn) => #1 (E.pushStrNamed env x sgn)
| U.Decl.Sgn (x, n, sgn) => #1 (E.pushSgnNamed env x sgn)
}
env
{ smallestgoodpart = NONE
, smallest = { item = Str (str, { file = fileName
, first = { line = 0, char = 0}
, last = { line = 99999, char = 0} })
, span = { file = fileName
, first = { line = 0, char = 0}
, last = { line = 99999, char = 0} }
, env = env }
}
( L.DStr (Compiler.moduleOf "fileName", 0, (L.SgnError, ErrorMsg.dummySpan), (str, {file = fileName, first = ErrorMsg.dummyPos, last = ErrorMsg.dummyPos}))
, {file = fileName, first = ErrorMsg.dummyPos, last = ErrorMsg.dummyPos})
in
result
end
end
|