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authorPascal Rigaux <pixel@mandriva.com>2007-04-25 15:08:17 +0000
committerPascal Rigaux <pixel@mandriva.com>2007-04-25 15:08:17 +0000
commit1a06fa7e4a300880848047118f0adba68d38348d (patch)
treee6b01d6f4feae969f9905d5245648532db254c42 /perl_checker.src/parser_helper.ml
parente895f6b48826f09aeaada321d03a1d10548fc9ce (diff)
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re-sync after the big svn loss
Diffstat (limited to 'perl_checker.src/parser_helper.ml')
-rw-r--r--perl_checker.src/parser_helper.ml1409
1 files changed, 0 insertions, 1409 deletions
diff --git a/perl_checker.src/parser_helper.ml b/perl_checker.src/parser_helper.ml
deleted file mode 100644
index 43d60a4..0000000
--- a/perl_checker.src/parser_helper.ml
+++ /dev/null
@@ -1,1409 +0,0 @@
-open Types
-open Common
-open Printf
-
-let bpos = -1, -1
-
-let raw_pos2pos(a, b) = !Info.current_file, a, b
-let raw_pos_range { pos = (a1, b1) } { pos = (a2, b2) } = (if a1 = -1 then a2 else a1), (if b2 = -1 then b1 else b2)
-let pos_range esp1 esp2 = raw_pos2pos (raw_pos_range esp1 esp2)
-let get_pos pesp = raw_pos2pos pesp.pos
-let get_pos_start { pos = (start, _) } = start
-let get_pos_end { pos = (_, end_) } = end_
-let var_dollar_ pos = Deref(I_scalar, Ident(None, "_", pos))
-let var_STDOUT = Deref(I_star, Ident(None, "STDOUT", raw_pos2pos bpos))
-
-let new_any mcontext any spaces pos = { mcontext = mcontext ; any = any ; spaces = spaces ; pos = pos }
-let new_any_ any spaces pos = new_any M_unknown any spaces pos
-let new_esp mcontext e esp_start esp_end = new_any mcontext e esp_start.spaces (raw_pos_range esp_start esp_end)
-let new_1esp e esp = new_any esp.mcontext e esp.spaces esp.pos
-let new_pesp mcontext prio e esp_start esp_end = new_any mcontext { priority = prio ; expr = e } esp_start.spaces (raw_pos_range esp_start esp_end)
-let new_1pesp prio e esp = new_any esp.mcontext { priority = prio ; expr = e } esp.spaces esp.pos
-let default_esp e = new_any M_unknown e Space_none bpos
-let default_pesp prio e = new_any M_unknown { priority = prio ; expr = e } Space_none bpos
-
-let split_name_or_fq_name full_ident =
- match split_at2 ':'':' full_ident with
- | [] -> internal_error "split_ident"
- | [ident] -> None, ident
- | l ->
- let fql, name = split_last l in
- let fq = String.concat "::" fql in
- Some fq, name
-
-let is_var_dollar_ = function
- | Deref(I_scalar, Ident(None, "_", _)) -> true
- | _ -> false
-let is_var_number_match = function
- | Deref(I_scalar, Ident(None, s, _)) -> String.length s = 1 && s.[0] <> '0' && char_is_number s.[0]
- | _ -> false
-
-let non_scalar_context context = context = I_hash || context = I_array
-let is_scalar_context context = context = I_scalar
-
-let rec is_not_a_scalar = function
- | Deref_with(_, context, _, _)
- | Deref(context, _) -> non_scalar_context context
- | List []
- | List(_ :: _ :: _) -> true
- | Call(Deref(I_func, Ident(None, "map", _)), _)
- | Call(Deref(I_func, Ident(None, "grep", _)), _) -> true
- | Call_op("?:", [ _cond ; a; b ], _) -> is_not_a_scalar a || is_not_a_scalar b
- | _ -> false
-
-let is_a_scalar = function
- | Ref _
- | Num _
- | Raw_string _
- | String _
- | Call(Deref(I_func, Ident(None, "N", _)), _) -> true
- | My_our(_, [ context, _ ], _)
- | Deref_with(_, context, _, _)
- | Deref(context, _) -> is_scalar_context context
- | _ -> false
-
-let is_a_string = function
- | String _ | Raw_string _ -> true
- | _ -> false
-
-let is_parenthesized = function
- | List[]
- | List[List _] -> true
- | _ -> false
-
-let un_parenthesize = function
- | List[List[e]] -> e
- | List[e] -> e
- | _ -> internal_error "un_parenthesize"
-
-let rec un_parenthesize_full = function
- | List[e] -> un_parenthesize_full e
- | e -> e
-
-let rec un_parenthesize_full_l = function
- | [ List l ] -> un_parenthesize_full_l l
- | l -> l
-
-let is_always_true = function
- | Num(n, _) -> float_of_string n <> 0.
- | Raw_string(s, _) -> s <> ""
- | String(l, _) -> l <> []
- | Ref _ -> true
- | _ -> false
-
-let is_always_false = function
- | Num(n, _) -> float_of_string n = 0.
- | Raw_string(s, _) -> s = ""
- | String(l, _) -> l = []
- | List [] -> true
- | Ident(None, "undef", _) -> true
- | _ -> false
-
-let rec is_lvalue = function
- | Call(Deref(I_func, Ident(None, f, _)), _) -> List.mem f [ "substr" ]
-
- | Call_op("?:", [ _ ; a ; b ], _) -> is_lvalue a && is_lvalue b
-
- | Call_op("local", l, _)
- | List [ List l ]
- -> List.for_all is_lvalue l
-
- | My_our _
- | Deref(_, _)
- | Deref_with(_, _, _, _)
- | Ident(None, "undef", _)
- -> true
-
- | _ -> false
-
-let not_complex e =
- if is_parenthesized e then true else
- let rec not_complex_ op = function
- | Call_op("?:", _, _) -> false
- | Call_op(op', l, _) -> op <> op' && List.for_all (not_complex_ op') l
- | e -> not (is_parenthesized e)
- in not_complex_ "" (un_parenthesize_full e)
-
-let not_simple = function
- | Num _ | Ident _ | Deref(_, Ident _) -> false
- | _ -> true
-
-let context2s = function
- | I_scalar -> "$"
- | I_hash -> "%"
- | I_array -> "@"
- | I_func -> "&"
- | I_raw -> ""
- | I_star -> "*"
-let variable2s(context, ident) = context2s context ^ ident
-
-let rec string_of_fromparser = function
- | Semi_colon -> ";"
- | Undef -> "undef"
- | Num(num, _) -> num
-
- | Raw_string(s, _) -> "\"" ^ s ^ "\""
- | String(l, _) ->
- let l' = List.map (fun (s, e) ->
- s ^ if e = List[] then "" else string_of_fromparser e
- ) l in
- "\"" ^ String.concat "" l' ^ "\""
-
- | Ident(None, s, _) -> s
- | Ident(Some fq, s, _) -> fq ^ "::" ^ s
- | My_our(myour, l, _) -> myour ^ "(" ^ String.concat "," (List.map (fun (context, s) -> context2s context ^ s) l) ^ ")"
-
- | Anonymous_sub(_, e, _) -> "sub { " ^ string_of_fromparser e ^ " }"
- | Ref(_, e) -> "\\" ^ string_of_fromparser e
- | Deref(context, e) -> context2s context ^ string_of_fromparser e
-
- | Diamond(None) -> "<>"
- | Diamond(Some e) -> "<" ^ string_of_fromparser e ^ ">"
-
- | Sub_declaration(name, _prototype, body, Real_sub_declaration) ->
- "sub " ^ string_of_fromparser name ^ " { " ^ string_of_fromparser body ^ " }"
-
- | Sub_declaration(name, _prototype, body, Glob_assign) ->
- "*" ^ string_of_fromparser name ^ " = sub { " ^ string_of_fromparser body ^ " };"
-
- | Deref_with(_, _, _e1, _e2) ->
- internal_error "todo"
-
- | Package(p) -> "package " ^ string_of_fromparser p
-
- | Use(e, []) -> "use " ^ string_of_fromparser e
- | Use(e, l) -> "use " ^ string_of_fromparser e ^ "(" ^ lstring_of_fromparser l
-
- | List l -> lstring_of_fromparser_parentheses l
- | Block l -> "{ " ^ lstring_of_fromparser l ^ " }"
- | Call_op(op, l, _) -> op ^ lstring_of_fromparser_parentheses l
-
- | Call(e, l) -> string_of_fromparser e ^ lstring_of_fromparser l
-
- | Method_call(obj, meth, l) ->
- let para = if l = [] then "" else lstring_of_fromparser_parentheses l in
- string_of_fromparser obj ^ "->" ^ string_of_fromparser meth ^ para
-
- | Label(e) -> e ^ ": "
-
- | Perl_checker_comment _ -> ""
- | Too_complex -> "XXX"
-
-and lstring_of_fromparser l = String.concat ", " (List.map string_of_fromparser l)
-and lstring_of_fromparser_parentheses l = "(" ^ lstring_of_fromparser l ^ ")"
-
-let rec is_same_fromparser a b =
- match a, b with
- | Undef, Undef -> true
- | Ident(fq1, s1, _), Ident(fq2, s2, _) -> fq1 = fq2 && s1 = s2
- | Num(s1, _), Num(s2, _)
- | Raw_string(s1, _), Raw_string(s2, _) -> s1 = s2
-
- | String(l1, _), String(l2, _) ->
- for_all2_ (fun (s1, e1) (s2, e2) -> s1 = s2 && is_same_fromparser e1 e2) l1 l2
-
- | Ref(c1, e1), Ref(c2, e2)
- | Deref(c1, e1), Deref(c2, e2) -> c1 = c2 && is_same_fromparser e1 e2
-
- | Deref_with(c1, c_1, e1, e_1), Deref_with(c2, c_2, e2, e_2) -> c1 = c2 && c_1 = c_2 && is_same_fromparser e1 e2 && is_same_fromparser e_1 e_2
-
- | Diamond(None), Diamond(None) -> true
- | Diamond(Some e1), Diamond(Some e2) -> is_same_fromparser e1 e2
-
- | List(l1), List(l2) -> for_all2_ is_same_fromparser l1 l2
-
- | Call_op(op1, l1, _), Call_op(op2, l2, _) -> op1 = op2 && for_all2_ is_same_fromparser l1 l2
- | Call(e1, l1), Call(e2, l2) -> is_same_fromparser e1 e2 && for_all2_ is_same_fromparser l1 l2
-
- | Method_call(e1, m1, l1), Method_call(e2, m2, l2) ->
- is_same_fromparser e1 e2 && is_same_fromparser m1 m2 && for_all2_ is_same_fromparser l1 l2
-
- | _ -> false
-
-let from_scalar esp =
- match esp.any with
- | Deref(I_scalar, ident) -> ident
- | _ -> internal_error "from_scalar"
-
-let from_array esp =
- match esp.any with
- | Deref(I_array, ident) -> ident
- | _ -> internal_error "from_array"
-
-let rec get_pos_from_expr = function
- | Anonymous_sub(_, _, pos)
- | String(_, pos)
- | Call_op(_, _, pos)
- | Perl_checker_comment(_, pos)
- | My_our(_, _, pos)
- | Raw_string(_, pos)
- | Num(_, pos)
- | Ident(_, _, pos)
- -> pos
-
- | Package e
- | Ref(_, e)
- | Deref(_, e)
- | Sub_declaration(e, _, _, _)
- | Deref_with(_, _, e, _)
- | Use(e, _)
- | Call(e, _)
- | Method_call(_, e, _)
- -> get_pos_from_expr e
-
- | Diamond(option_e)
- -> if option_e = None then raw_pos2pos bpos else get_pos_from_expr (some option_e)
-
- | List l
- | Block l
- -> if l = [] then raw_pos2pos bpos else get_pos_from_expr (List.hd l)
-
- | Semi_colon
- | Too_complex
- | Undef
- | Label _
- -> raw_pos2pos bpos
-
-let msg_with_rawpos (start, end_) msg = Info.pos2sfull_current start end_ ^ msg
-let die_with_rawpos raw_pos msg = failwith (msg_with_rawpos raw_pos msg)
-let warn warn_types raw_pos msg = if Flags.are_warning_types_set warn_types then print_endline_flush (msg_with_rawpos raw_pos msg)
-
-let die_rule msg = die_with_rawpos (Parsing.symbol_start(), Parsing.symbol_end()) msg
-let warn_rule warn_types msg = warn warn_types (Parsing.symbol_start(), Parsing.symbol_end()) msg
-
-let warn_verb warn_types pos msg = if not !Flags.quiet then warn warn_types (pos, pos) msg
-let warn_too_many_space start = warn_verb [Warn_white_space] start "you should have only one space here"
-let warn_no_space start = warn_verb [Warn_white_space] start "you should have a space here"
-let warn_cr start = warn_verb [Warn_white_space] start "you should not have a carriage-return (\\n) here"
-let warn_space start = warn_verb [Warn_white_space] start "you should not have a space here"
-
-let rec prio_less = function
- | P_none, _ | _, P_none -> internal_error "prio_less"
-
- | P_paren_wanted prio1, prio2
- | prio1, P_paren_wanted prio2 -> prio_less(prio1, prio2)
-
- | P_ternary, P_or -> false
- | P_ternary, P_and -> false
-
- | _, P_loose -> true
- | P_loose, _ -> false
- | _, P_or -> true
- | P_or, _ -> false
-
- | _, P_and -> true
- | P_and, _ -> false
- | _, P_call_no_paren -> true
- | P_call_no_paren, _ -> false
- | _, P_comma -> true
- | P_comma, _ -> false
- | _, P_assign -> true
- | P_assign, _ -> false
- | _, P_ternary -> true
- | P_ternary, _ -> false
-
- | _, P_tight_or -> true
- | P_tight_or, _ -> false
- | _, P_tight_and -> true
- | P_tight_and, _ -> false
-
- | P_bit, P_bit -> true
- | P_bit, _ -> false
-
- | _, P_expr -> true
- | P_expr, _ -> false
-
- | _, P_eq -> true
- | P_eq, _ -> false
- | _, P_cmp -> true
- | P_cmp, _ -> false
- | _, P_uniop -> true
- | P_uniop, _ -> false
- | _, P_add -> true
- | P_add, _ -> false
- | _, P_mul -> true
- | P_mul, _ -> false
- | _, P_tight -> true
- | P_tight, _ -> false
-
- | _, P_paren _ -> true
- | P_paren _, _ -> true
- | P_tok, _ -> true
-
-let prio_lo_check pri_out pri_in pos expr =
- if prio_less(pri_in, pri_out) then
- (match pri_in with
- | P_paren (P_paren_wanted _) -> ()
- | P_paren pri_in' ->
- if pri_in' <> pri_out &&
- prio_less(pri_in', pri_out) && not_complex (un_parenthesize expr) then
- warn [Warn_suggest_simpler] pos "unneeded parentheses"
- | _ -> ())
- else
- (match expr with
- | Call(Deref(I_func, Ident(None, f, _)), _) when f <> "delete" && pri_in = P_uniop && pri_out = P_add
- -> () (* ugly special case since we don't parse uniop correctly (eg: -d $_ . "foo" *)
- | Call_op ("print", [Deref (I_star, Ident (None, "STDOUT", _)); (Deref(I_scalar, _) as ident)], _) ->
- warn [Warn_traps] pos (sprintf "use parentheses: replace \"print %s ...\" with \"print(%s ...)\"" (string_of_fromparser ident) (string_of_fromparser ident))
- | _ -> warn [Warn_traps] pos "missing parentheses (needed for clarity)")
-
-let prio_lo pri_out in_ = prio_lo_check pri_out in_.any.priority in_.pos in_.any.expr ; in_.any.expr
-
-let prio_lo_after pri_out in_ =
- if in_.any.priority = P_call_no_paren then in_.any.expr else prio_lo pri_out in_
-
-let prio_lo_concat esp = prio_lo P_mul { esp with any = { esp.any with priority = P_paren_wanted esp.any.priority } }
-
-let hash_ref esp = Ref(I_hash, prio_lo P_loose esp)
-
-let sp_0 esp =
- match esp.spaces with
- | Space_none -> ()
- | Space_0 -> ()
- | Space_1
- | Space_n -> warn_space (get_pos_start esp)
- | Space_cr -> warn_cr (get_pos_start esp)
-
-let sp_0_or_cr esp =
- match esp.spaces with
- | Space_none -> ()
- | Space_0 -> ()
- | Space_1
- | Space_n -> warn_space (get_pos_start esp)
- | Space_cr -> ()
-
-let sp_1 esp =
- match esp.spaces with
- | Space_none -> ()
- | Space_0 -> warn_no_space (get_pos_start esp)
- | Space_1 -> ()
- | Space_n -> warn_too_many_space (get_pos_start esp)
- | Space_cr -> warn_cr (get_pos_start esp)
-
-let sp_n esp =
- match esp.spaces with
- | Space_none -> ()
- | Space_0 -> warn_no_space (get_pos_start esp)
- | Space_1 -> ()
- | Space_n -> ()
- | Space_cr -> warn_cr (get_pos_start esp)
-
-let sp_p esp =
- match esp.spaces with
- | Space_none -> ()
- | Space_0 -> warn_no_space (get_pos_start esp)
- | Space_1 -> ()
- | Space_n -> ()
- | Space_cr -> ()
-
-let sp_cr esp =
- match esp.spaces with
- | Space_none -> ()
- | Space_0
- | Space_1
- | Space_n -> warn_verb [Warn_white_space] (get_pos_start esp) "you should have a carriage-return (\\n) here"
- | Space_cr -> ()
-
-let sp_same esp1 esp2 =
- if esp1.spaces <> Space_0 then sp_p esp2
- else if esp2.spaces <> Space_0 then sp_p esp1
-
-let function_to_context word_alone = function
- | "map" | "grep" | "grep_index" | "map_index" | "uniq" | "uniq_" -> M_array
- | "partition" -> M_tuple [ M_ref M_array ; M_ref M_array ]
- | "find" -> M_unknown_scalar
- | "any" | "every" -> M_bool
- | "find_index" -> M_int
- | "each_index" -> M_none
- | "N" | "N_" -> M_string
-
- | "chop" | "chomp" | "push" | "unshift" -> M_none
- | "hex" | "length" | "time" | "fork" | "getppid" -> M_int
- | "eof" | "wantarray" -> M_int
- | "stat" | "lstat" -> M_list
- | "arch" | "quotemeta" | "join" | "lc" | "lcfirst" | "uc" | "ucfirst" -> M_string
-
- | "split" -> M_array
- | "shift" | "pop" -> M_unknown_scalar
- | "die" | "return" | "redo" | "next" | "last" -> M_unknown
- | "caller" -> M_mixed [M_string ; M_list]
-
- | "ref" -> M_ref M_unknown_scalar
- | "undef" -> if word_alone then M_undef else M_none
- | _ -> M_unknown
-
-let word_alone esp =
- let word = esp.any in
- let mcontext, e = match word with
- | Ident(None, f, pos) ->
- let e = match f with
- | "length" | "stat" | "lstat" | "chop" | "chomp" | "quotemeta" | "lc" | "lcfirst" | "uc" | "ucfirst" ->
- Call(Deref(I_func, word), [var_dollar_ pos])
-
- | "split" -> Call(Deref(I_func, word), [ Raw_string(" ", pos) ; var_dollar_ pos ])
- | "die" -> Call(Deref(I_func, word), [ Deref(I_scalar, Ident(None, "@", raw_pos2pos bpos)) ])
- | "return" | "eof" | "caller"
- | "redo" | "next" | "last" ->
- Deref(I_func, word)
-
- | "hex" | "ref" ->
- warn_rule [Warn_complex_expressions] (sprintf "please use \"%s $_\" instead of \"%s\"" f f) ;
- Call(Deref(I_func, word), [ Raw_string(" ", pos) ; var_dollar_ pos ])
- | "time" | "wantarray" | "fork" | "getppid" | "arch" ->
- warn_rule [Warn_complex_expressions] (sprintf "please use %s() instead of %s" f f) ;
- Deref(I_func, word)
- | _ -> word
- in
- function_to_context true f, e
- | _ -> M_unknown, word
- in
- new_pesp mcontext P_tok e esp esp
-
-let check_parenthesized_first_argexpr word esp =
- let want_space = word.[0] = '-' in
- if word = "return" then () else
- match esp.any.expr with
- | [ Call_op(_, (e' :: l), _) ]
- | e' :: l ->
- if is_parenthesized e' then
- if l = [] then
- (if want_space then sp_n else sp_0) esp
- else
- (* eg: join (" ", @l) . "\n" *)
- die_with_rawpos (get_pos_start esp, get_pos_start esp) "please remove the space before the function call"
- else
- sp_p esp
- | _ ->
- if word = "time" then die_rule "please use time() instead of time";
- sp_p esp
-
-let check_parenthesized_first_argexpr_with_Ident ident esp =
- if esp.any.priority = P_tok then ();
- (match ident with
- | Ident(Some _, _, _) ->
- (match esp.any.expr with
- | [e] when is_parenthesized e -> ()
- | _ -> warn_rule [Warn_suggest_simpler] "use parentheses around argument (otherwise it might cause syntax errors if the package is \"require\"d and not \"use\"d")
- | Ident(None, word, _) when List.mem word ["ref" ; "readlink"] ->
- if esp.any.priority <> P_tok then warn_rule [Warn_complex_expressions] "use parentheses around argument"
- | _ -> ());
- check_parenthesized_first_argexpr (string_of_fromparser ident) esp
-
-let check_hash_subscript esp =
- let can_be_raw_string = function
- | "" | "x" | "y" -> false (* special case for {'y'} otherwise the emacs mode goes wild, special case for {'x'} to have the same as {'y'} (since they usually go together) *)
- | s ->
- char_is_alpha s.[0] && (String.length s = 1 || string_forall_with char_is_alphanumerical_ 1 s)
- in
- match esp.any.expr with
- | List [String ([(s, List [])], _)] when can_be_raw_string s -> warn [Warn_suggest_simpler] esp.pos (sprintf "{\"%s\"} can be written {%s}" s s)
- | List [Raw_string(s, _)] when can_be_raw_string s -> warn [Warn_suggest_simpler] esp.pos (sprintf "{'%s'} can be written {%s}" s s)
- | _ -> ()
-
-let check_arrow_needed arrow = function
- | Deref_with(I_array, I_scalar, List [List [Call _]], _) -> () (* "->" needed for (f())[0]->{XX} *)
- | Deref_with _ -> warn [Warn_suggest_simpler] arrow.pos "the arrow \"->\" is unneeded"
- | _ -> ()
-
-let check_scalar_subscripted esp =
- match esp.any with
- | Deref(I_scalar, Deref _) -> warn_rule [Warn_complex_expressions] "for complex dereferencing, use \"->\""
- | _ -> ()
-
-let negatable_ops = collect (fun (a, b) -> [ a, b ; b, a ]) [
- "==", "!=" ;
- "eq", "ne" ;
-]
-
-let check_negatable_expr esp =
- match un_parenthesize_full esp.any.expr with
- | Call_op("m//", var :: _, _) when not (is_var_dollar_ var) ->
- warn_rule [Warn_suggest_simpler] "!($var =~ /.../) is better written $var !~ /.../"
- | Call_op("!m//", var :: _, _) when not (is_var_dollar_ var) ->
- warn_rule [Warn_suggest_simpler] "!($var !~ /.../) is better written $var =~ /.../"
- | Call_op(op, _, _) ->
- (try
- let neg_op = List.assoc op negatable_ops in
- warn_rule [Warn_suggest_simpler] (Printf.sprintf "!($foo %s $bar) is better written $foo %s $bar" op neg_op)
- with Not_found -> ())
- | _ -> ()
-
-let check_ternary_paras(cond, a, b) =
- let rec dont_need_short_circuit_rec = function
- | Num _
- | Raw_string _
- | String ([(_, List [])], _)
- -> true
- | Call(Deref(I_func, Ident(None, "N", _)), [ List(String _ :: l) ])
- | Call_op(".", l, _)
- | Ref(I_hash, List l)
- | List l -> List.for_all dont_need_short_circuit_rec l
- | _ -> false
- in
- let rec dont_need_short_circuit = function
- | Ref(_, Deref(_, Ident _))
- | Deref(_, Ident _) -> true
- | Ref(I_hash, List l)
- | List l -> List.for_all dont_need_short_circuit l
- | e -> dont_need_short_circuit_rec e
- in
- let check_ternary_para = function
- | List [] -> warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you may use if_() here\n beware that the short-circuit semantic of ?: is not kept\n if you want to keep the short-circuit behaviour, replace () with @{[]} and there will be no warning anymore"
- | _ -> ()
- in
- if dont_need_short_circuit a || is_same_fromparser cond a then check_ternary_para b;
- if dont_need_short_circuit b || is_same_fromparser cond b then check_ternary_para a;
- if is_same_fromparser cond a && is_a_scalar a && is_a_scalar b then warn_rule [Warn_suggest_simpler] "you can replace \"$foo ? $foo : $bar\" with \"$foo || $bar\"";
- [ cond; a; b ]
-
-let check_unneeded_var_dollar_ esp =
- if is_var_dollar_ esp.any.expr then warn [Warn_suggest_simpler] esp.pos "\"$_ =~ /regexp/\" can be written \"/regexp/\"" else
- if is_var_number_match esp.any.expr then warn [Warn_complex_expressions] esp.pos "do not use the result of a match (eg: $1) to match another pattern"
-let check_unneeded_var_dollar_not esp =
- if is_var_dollar_ esp.any.expr then warn [Warn_suggest_simpler] esp.pos "\"$_ !~ /regexp/\" can be written \"!/regexp/\"" else
- if is_var_number_match esp.any.expr then warn [Warn_complex_expressions] esp.pos "do not use the result of a match (eg: $1) to match another pattern"
-let check_unneeded_var_dollar_s esp =
- let expr = esp.any.expr in
- if is_var_dollar_ expr then warn [Warn_suggest_simpler] esp.pos "\"$_ =~ s/regexp/.../\" can be written \"s/regexp/.../\"" else
- if is_var_number_match expr then warn [Warn_traps] esp.pos "do not modify the result of a match (eg: $1)" else
- let expr = match expr with
- | List [List [Call_op("=", [ expr; _], _)]] -> expr (* check $xx in ($xx = ...) =~ ... *)
- | _ -> expr in
- if is_a_string expr || not (is_a_scalar expr) then warn [Warn_complex_expressions] esp.pos "you can only use s/// on a variable"
-
-let check_my esp = if esp.any <> "my" then die_rule "syntax error"
-let check_foreach esp = if esp.any = "for" then warn [Warn_normalized_expressions] esp.pos "write \"foreach\" instead of \"for\""
-let check_for esp = if esp.any = "foreach" then warn [Warn_normalized_expressions] esp.pos "write \"for\" instead of \"foreach\""
-let check_for_foreach esp arg =
- match arg.any.expr with
- | List [ Deref(I_scalar, _) ] ->
- if esp.any = "foreach" then warn [Warn_normalized_expressions] esp.pos "you are using the special trick to locally set $_ with a value, for this please use \"for\" instead of \"foreach\""
- | List [ Deref_with(context, I_scalar, _, _) ] when context <> I_func ->
- if esp.any = "foreach" then warn [Warn_normalized_expressions] esp.pos "you are using the special trick to locally set $_ with a value, for this please use \"for\" instead of \"foreach\""
- | List [ Deref(I_hash, _) ] ->
- warn [Warn_traps] esp.pos "foreach with a hash is usually an error"
- | _ ->
- if esp.any = "for" then warn [Warn_normalized_expressions] esp.pos "write \"foreach\" instead of \"for\""
-
-let check_block_expr has_semi_colon last_expr esp_last esp_BRACKET_END =
- sp_p esp_BRACKET_END ;
-
- if esp_BRACKET_END.spaces = Space_cr then
- (if not has_semi_colon then warn_verb [Warn_white_space] (get_pos_end esp_last) "missing \";\"")
- else
- (if last_expr = Semi_colon then warn_verb [Warn_white_space] (get_pos_end esp_last) "spurious \";\" before closing block")
-
-let check_block_lines esp_lines esp_BRACKET_END =
- match fst esp_lines.any with
- | [] ->
- sp_0_or_cr esp_BRACKET_END
- | l ->
- (if List.hd l = Semi_colon then sp_0 else sp_p) esp_lines ;
- check_block_expr (snd esp_lines.any) (last l) esp_lines esp_BRACKET_END
-
-let check_unless_else elsif else_ =
- if elsif.any <> [] then warn [Warn_complex_expressions] elsif.pos "don't use \"elsif\" with \"unless\" (replace \"unless\" with \"if\")";
- if else_.any <> [] then warn [Warn_complex_expressions] else_.pos "don't use \"else\" with \"unless\" (replace \"unless\" with \"if\")"
-
-let check_my_our_paren { any = ((comma_closed, _), l) } after_esp =
- (if l = [] then sp_0 else sp_1) after_esp ;
- if not comma_closed then die_rule "syntax error"
-
-let check_simple_pattern = function
- | [ String([ st, List [] ], _); Raw_string("", _) ] ->
- if String.length st > 2 &&
- st.[0] = '^' && st.[String.length st - 1] = '$' then
- let st = skip_n_char_ 1 1 st in
- if string_forall_with char_is_alphanumerical_ 0 st then
- warn_rule [Warn_suggest_simpler] (sprintf "\"... =~ /^%s$/\" is better written \"... eq '%s'\"" st st)
- | _ -> ()
-
-let rec only_one esp =
- match esp.any with
- | [List l'] -> only_one { esp with any = l' }
- | [e] -> e
- | [] -> die_with_rawpos esp.pos "you must give one argument"
- | _ -> die_with_rawpos esp.pos "you must give only one argument"
-
-let only_one_array_ref esp =
- let e = only_one esp in
- (match e with
- | Call_op("last_array_index", [Deref(I_array, e)], _) ->
- warn [Warn_suggest_simpler] esp.pos (sprintf "you can replace $#%s with -1" (string_of_fromparser e))
- | _ -> ());
- e
-
-let only_one_in_List esp =
- match esp.any.expr with
- | List l -> only_one { esp with any = l }
- | e -> e
-
-let rec is_only_one_in_List = function
- | [List l] -> is_only_one_in_List l
- | [_] -> true
- | _ -> false
-
-let maybe_to_Raw_string = function
- | Ident(None, s, pos) -> Raw_string(s, pos)
- | Ident(Some fq, s, pos) -> Raw_string(fq ^ "::" ^ s, pos)
- | e -> e
-
-let to_List = function
- | [e] -> e
- | l -> List l
-
-let deref_arraylen e = Call_op("last_array_index", [Deref(I_array, e)], raw_pos2pos bpos)
-let deref_raw context e =
- let e = match e with
- | Raw_string(s, pos) ->
- let fq, ident = split_name_or_fq_name s in
- Ident(fq, ident, pos)
- | Deref(I_scalar, (Ident _ as ident)) ->
- warn_rule [Warn_suggest_simpler] (sprintf "%s{$%s} can be written %s$%s" (context2s context) (string_of_fromparser ident) (context2s context) (string_of_fromparser ident));
- e
- | _ -> e
- in Deref(context, e)
-
-let to_Ident { any = (fq, name); pos = pos } = Ident(fq, name, raw_pos2pos pos)
-let to_Raw_string { any = s; pos = pos } = Raw_string(s, raw_pos2pos pos)
-let to_Method_call (object_, method_, para) =
- match method_ with
- | Ident(Some "SUPER", name, pos) -> Method_call(maybe_to_Raw_string object_, Raw_string(name, pos), para)
- | Ident(Some _, _, _) -> Call(Deref(I_func, method_), maybe_to_Raw_string object_ :: para)
- | _ -> Method_call(maybe_to_Raw_string object_, maybe_to_Raw_string method_, para)
-let to_Deref_with(from_context, to_context, ref_, para) =
- if is_not_a_scalar ref_ then warn_rule [] "bad deref";
- Deref_with(from_context, to_context, ref_, para)
-
-let to_Deref_with_arrow arrow (from_context, to_context, ref_, para) =
- if from_context != I_func then check_arrow_needed arrow ref_ ;
- to_Deref_with(from_context, to_context, ref_, para)
-
-let lines_to_Block esp_lines esp_BRACKET_END =
- check_block_lines esp_lines esp_BRACKET_END;
- Block (fst esp_lines.any)
-
-let to_Local esp =
- let l =
- match esp.any.expr with
- | List[List l] -> l
- | e -> [e]
- in
- let local_vars, local_exprs = fpartition (function
- | Deref(I_star as context, Ident(None, ident, _))
- | Deref(I_scalar as context, Ident(None, ("_" as ident), _)) ->
- Some(context, ident)
- | Deref(I_scalar, Ident _)
- | Deref(I_array, Ident _)
- | Deref(I_star, Ident _)
- | Deref_with(I_hash, I_scalar, Ident _, _)
- | Deref_with(I_hash, I_scalar, Deref(I_scalar, _), _)
- | Deref_with(I_hash, I_scalar, Deref_with(I_hash, I_scalar, Ident _, _), _)
- | Deref_with(I_hash, I_scalar, Deref_with(I_hash, I_scalar, Deref(I_scalar, Ident _), _), _) ->
- None
- | _ -> die_with_rawpos esp.pos "bad argument to \"local\""
- ) l in
- if local_vars = [] then Call_op("local", local_exprs, raw_pos2pos esp.pos)
- else if local_exprs = [] then My_our("local", local_vars, raw_pos2pos esp.pos)
- else die_with_rawpos esp.pos "bad argument to \"local\""
-
-let sub_declaration (name, proto) body sub_kind = Sub_declaration(name, proto, Block body, sub_kind)
-let anonymous_sub proto lines bracket_end = Anonymous_sub (proto, lines_to_Block lines bracket_end, raw_pos2pos lines.pos)
-let call_with_same_para_special f = Call(f, [Deref(I_star, (Ident(None, "_", raw_pos2pos bpos)))])
-let remove_call_with_same_para_special = function
- | Call(f, [Deref(I_star, (Ident(None, "_", _)))]) -> f
- | e -> e
-
-let check_My_under_condition msg = function
- | List [ My_our("my", _, _) ] ->
- warn_rule [Warn_traps] "this is stupid"
- | List [ Call_op("=", [ My_our("my", _, _); _ ], _) ] ->
- warn_rule [Warn_traps] msg
- | _ -> ()
-
-let cook_call_op op para pos =
- (match op with
- | "le" | "ge" | "eq" | "ne" | "gt" | "lt" | "cmp" ->
- if List.exists (function Num _ -> true | _ -> false) para then
- warn_rule [Warn_traps] (sprintf "you should use a number operator, not the string operator \"%s\" (or replace the number with a string)" op)
- | "." ->
- if List.exists (function Call(Deref(I_func, Ident(None, "N_", _)), _) -> true | _ -> false) para then
- warn_rule [Warn_MDK_Common; Warn_traps] "N_(\"xxx\") . \"yyy\" is dumb since the string \"xxx\" will never get translated"
- | _ -> ());
-
- (match op, para with
- | "if", List [Call_op ("=", [ _; e ], _)] :: _ when is_always_true e || is_always_false e ->
- warn_rule [Warn_traps] "are you sure you did not mean \"==\" instead of \"=\"?"
-
- | "foreach", [ _; Block [ expr ; Semi_colon ] ]
- | "foreach", [ _; Block [ expr ] ] ->
- (match expr with
- | Call_op("if infix", [ List [ Call(Deref(I_func, Ident(None, "push", _)), [ Deref(I_array, Ident _) as l ; Deref(I_scalar, Ident(None, "_", _)) ]) ] ; _ ], _) ->
- let l = string_of_fromparser l in
- warn_rule [Warn_suggest_functional] (sprintf "use \"push %s, grep { ... } ...\" instead of \"foreach (...) { push %s, $_ if ... }\"\n or sometimes \"%s = grep { ... } ...\"" l l l)
- | Call_op("if infix", [ List [ Call(Deref(I_func, Ident(None, "push", _)), [ Deref(I_array, Ident _) as l; _ ]) ] ; _ ], _) ->
- let l = string_of_fromparser l in
- warn_rule [Warn_suggest_functional] (sprintf "use \"push %s, map { ... ? ... : () } ...\" instead of \"foreach (...) { push %s, ... if ... }\"\n or sometimes \"%s = map { ... ? ... : () } ...\"\n or sometimes \"%s = map { if_(..., ...) } ...\"" l l l l)
-
- | Call_op ("if", [ _; Block [ List [ Call_op("=", [Deref(I_scalar, _) as ret; Deref(I_scalar, Ident(None, "_", _)) ], _) ];
- Semi_colon;
- List [ Deref(I_func, Ident(None, "last", _)) ];
- Semi_colon ] ], _) ->
- warn_rule [Warn_suggest_functional; Warn_MDK_Common] (sprintf "use \"%s = find { ... } ...\"" (string_of_fromparser ret))
-
- | List [ Call(Deref(I_func, Ident(None, "push", _)), [ Deref(I_array, Ident _) as l; _ ]) ] ->
- let l = string_of_fromparser l in
- warn_rule [Warn_suggest_functional] (sprintf "use \"push %s, map { ... } ...\" instead of \"foreach (...) { push %s, ... }\"\n or sometimes \"%s = map { ... } ...\"" l l l)
- | _ -> ())
-
- | "=", [My_our _; Ident(None, "undef", _)] ->
- warn [Warn_suggest_simpler] pos "no need to initialize variable, it's done by default"
- | "=", [My_our _; List[]] ->
- if Info.is_on_same_line_current pos then warn [Warn_suggest_simpler] pos "no need to initialize variables, it's done by default"
-
- | "=", [ Deref_with(I_array, I_scalar, id, Deref(I_array, id_)); _ ] when is_same_fromparser id id_ ->
- warn_rule [Warn_suggest_simpler] "\"$a[@a] = ...\" is better written \"push @a, ...\""
-
- | "=", [ Deref(I_star, String ([(sf1, List [])], _)); _ ] ->
- warn_rule [Warn_help_perl_checker] (sprintf "write *{'%s'} instead of *{\"%s\"}" sf1 sf1)
-
- | "||=", List [ List _ ] :: _
- | "&&=", List [ List _ ] :: _ -> warn_rule [Warn_complex_expressions] "remove the parentheses"
- | "||=", e :: _
- | "&&=", e :: _ -> if is_not_a_scalar e then warn_rule [Warn_traps] (sprintf "\"%s\" is only useful with a scalar" op)
-
- | "==", [Call_op("last_array_index", _, _); Num(n, _)] ->
- warn_rule [Warn_suggest_simpler] (sprintf "$#x == %s is better written @x == %d" n (1 + int_of_string n))
- | "==", [Call_op("last_array_index", _, _); Call_op("- unary", [Num (n, _)], _)] ->
- warn_rule [Warn_suggest_simpler] (sprintf "$#x == -%s is better written @x == %d" n (1 - int_of_string n))
-
-
- | "||", e :: _ when is_always_true e -> warn_rule [Warn_strange] "<constant> || ... is the same as <constant>"
- | "&&", e :: _ when is_always_false e -> warn_rule [Warn_strange] "<constant> && ... is the same as <constant>"
- | "||", e :: _ when is_always_false e -> warn_rule [Warn_strange] "<constant> || ... is the same as ..."
- | "&&", e :: _ when is_always_true e -> warn_rule [Warn_strange] "<constant> && ... is the same as ..."
-
- | "or", e :: _ when is_always_true (un_parenthesize_full e) -> warn_rule [Warn_strange] "<constant> or ... is the same as <constant>"
- | "and", e :: _ when is_always_false (un_parenthesize_full e) -> warn_rule [Warn_strange] "<constant> and ... is the same as <constant>"
- | "or", e :: _ when is_always_false (un_parenthesize_full e) -> warn_rule [Warn_strange] "<constant> or ... is the same as ..."
- | "and", e :: _ when is_always_true (un_parenthesize_full e) -> warn_rule [Warn_strange] "<constant> and ... is the same as ..."
-
- | "or", [ List [ Deref(I_scalar, id) ]; List [ Call_op("=", [ Deref(I_scalar, id_); _], _) ] ] when is_same_fromparser id id_ ->
- warn_rule [Warn_suggest_simpler] "\"$foo or $foo = ...\" can be written \"$foo ||= ...\""
-
- | "and", [ _cond ; expr ] -> check_My_under_condition "replace \"<cond> and my $foo = ...\" with \"my $foo = <cond> && ...\"" expr
- | "or", [ _cond ; expr ] -> check_My_under_condition "replace \"<cond> or my $foo = ...\" with \"my $foo = !<cond> && ...\"" expr
-
- | _ -> ());
-
- match op, para with
- | "=", [ Deref(I_star, (Ident _ as f1)); Deref(I_star, (Ident _ as f2)) ] ->
- let s1, s2 = string_of_fromparser f1, string_of_fromparser f2 in
- warn [Warn_complex_expressions] pos (sprintf "\"*%s = *%s\" is better written \"*%s = \\&%s\"" s1 s2 s1 s2) ;
- sub_declaration (f1, None) [ call_with_same_para_special(Deref(I_func, f2)) ] Glob_assign
- | "=", [ Deref(I_star, Raw_string(sf1, pos_f1)); Deref(I_star, (Ident _ as f2)) ] ->
- let s2 = string_of_fromparser f2 in
- warn [Warn_help_perl_checker] pos (sprintf "\"*{'%s'} = *%s\" is better written \"*{'%s'} = \\&%s\"" sf1 s2 sf1 s2) ;
- sub_declaration (Ident(None, sf1, pos_f1), None) [ call_with_same_para_special(Deref(I_func, f2)) ] Glob_assign
-
- | "=", [ Deref(I_star, (Ident _ as f1)); Ref(I_scalar, Deref(I_func, (Ident _ as f2))) ] ->
- sub_declaration (f1, None) [ call_with_same_para_special(Deref(I_func, f2)) ] Glob_assign
- | "=", [ Deref(I_star, Raw_string(sf1, pos_f1)); Ref(I_scalar, Deref(I_func, (Ident _ as f2))) ] ->
- sub_declaration (Ident(None, sf1, pos_f1), None) [ call_with_same_para_special(Deref(I_func, f2)) ] Glob_assign
-
- | "=", [ Deref(I_star, (Ident _ as f1)); (Anonymous_sub(proto, sub, _)) ] ->
- sub_declaration (f1, proto) [ sub ] Glob_assign
-
- | _ -> Call_op(op, para, raw_pos2pos pos)
-
-let to_Call_op mcontext op para esp_start esp_end =
- let pos = raw_pos_range esp_start esp_end in
- new_any mcontext (cook_call_op op para pos) esp_start.spaces pos
-let to_Call_op_ mcontext prio op para esp_start esp_end =
- let pos = raw_pos_range esp_start esp_end in
- new_any mcontext { priority = prio ; expr = cook_call_op op para pos } esp_start.spaces pos
-let to_Call_assign_op_ mcontext prio op left right esp_left esp_end =
- if not (is_lvalue left) then warn [Warn_strange] esp_left.pos "invalid lvalue";
- to_Call_op_ mcontext prio op [ left ; right ] esp_left esp_end
-
-let followed_by_comma expr true_comma =
- if true_comma then expr else
- match split_last expr with
- | l, Ident(None, s, pos) -> l @ [Raw_string(s, pos)]
- | _ -> expr
-
-
-let pot_strings = Hashtbl.create 16
-let po_comments = ref []
-let po_comment esp = lpush po_comments esp.any
-
-let check_format_a_la_printf s pos =
- let rec check_format_a_la_printf_ contexts i =
- try
- let i' = String.index_from s i '%' in
- try
- let contexts =
- match s.[i' + 1] with
- | '%' -> contexts
- | 'd' -> M_int :: contexts
- | 's' | 'c' -> M_string :: contexts
- | c -> warn [Warn_strange] (pos + i', pos + i') (sprintf "invalid command %%%c" c); contexts
- in
- check_format_a_la_printf_ contexts (i' + 2)
- with Invalid_argument _ -> warn [Warn_strange] (pos + i', pos + i') "invalid command %" ; contexts
- with Not_found -> contexts
- in check_format_a_la_printf_ [] 0
-
-let generate_pot file =
- let fd = open_out file in
- output_string fd
-("# SOME DESCRIPTIVE TITLE.
-# Copyright (C) YEAR Free Software Foundation, Inc.
-# FIRST AUTHOR <EMAIL@ADDRESS>, YEAR.
-#
-#, fuzzy
-msgid \"\"
-msgstr \"\"
-\"Project-Id-Version: PACKAGE VERSION\\n\"
-\"POT-Creation-Date: " ^ input_line (Unix.open_process_in "date '+%Y-%m-%d %H:%M%z'") ^ "\\n\"
-\"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\\n\"
-\"Last-Translator: FULL NAME <EMAIL@ADDRESS>\\n\"
-\"Language-Team: LANGUAGE <LL@li.org>\\n\"
-\"MIME-Version: 1.0\\n\"
-\"Content-Type: text/plain; charset=CHARSET\\n\"
-\"Content-Transfer-Encoding: 8-bit\\n\"
-
-") ;
-
- let rec print_formatted_char = function
- | '"' -> output_char fd '\\'; output_char fd '"'
- | '\t' -> output_char fd '\\'; output_char fd 't'
- | '\\' -> output_char fd '\\'; output_char fd '\\'
- | '\n' -> output_string fd "\\n\"\n\""
- | c -> output_char fd c
- in
- let sorted_pot_strings = List.sort (fun (_, pos_a) (_, pos_b) -> compare pos_a pos_b)
- (Hashtbl.fold (fun k (v, _) l -> (k,v) :: l) pot_strings [] ) in
- List.iter (fun (s, _) ->
- match Hashtbl.find_all pot_strings s with
- | [] -> ()
- | l ->
- List.iter (fun _ -> Hashtbl.remove pot_strings s) l ;
-
- List.iter (fun po_comment -> output_string fd ("#. " ^ po_comment ^ "\n")) (collect snd l);
-
- let pos_l = List.sort compare (List.map fst l) in
- fprintf fd "#: %s\n" (String.concat " " (List.map Info.pos2s_for_po pos_l)) ;
- output_string fd "#, c-format\n" ;
-
- output_string fd (if String.contains s '\n' then "msgid \"\"\n\"" else "msgid \"") ;
- String.iter print_formatted_char s ;
- output_string fd "\"\n" ;
- output_string fd "msgstr \"\"\n\n"
- ) sorted_pot_strings ;
- close_out fd
-
-let check_system_call = function
- | "mkdir" :: l ->
- let has_p = List.exists (str_begins_with "-p") l in
- let has_m = List.exists (str_begins_with "-m") l in
- if has_p && has_m then ()
- else if has_p then warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace system(\"mkdir -p ...\") with mkdir_p(...)"
- else if has_m then warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace system(\"mkdir -m <mode> ...\") with mkdir(..., <mode>)"
- else warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace system(\"mkdir ...\") with mkdir(...)"
- | _ -> ()
-
-let call_raw force_non_builtin_func (e, para) =
- let check_anonymous_block f = function
- | [ Anonymous_sub _ ; Deref (I_hash, _) ] ->
- warn_rule [Warn_strange] ("a hash is not a valid parameter to function " ^ f)
-
- | Anonymous_sub _ :: _ -> ()
- | _ -> warn_rule [Warn_complex_expressions] (sprintf "always use \"%s\" with a block (eg: %s { ... } @list)" f f)
- in
-
- match e with
- | Deref(I_func, Ident(None, f, _)) ->
- (match f with
- | "join" ->
- (match un_parenthesize_full_l para with
- | e :: _ when not (is_a_scalar e) -> warn_rule [Warn_traps] "first argument of join() must be a scalar";
- | [_] -> warn_rule [Warn_traps] "not enough parameters"
- | [_; e] when is_a_scalar e -> warn_rule [Warn_traps] "join('...', $foo) is the same as $foo"
- | _ -> ())
-
- | "length" ->
- if para = [] then warn_rule [Warn_complex_expressions] (sprintf "please use \"%s $_\" instead of \"%s\"" f f) else
- if is_not_a_scalar (List.hd para) then warn_rule [Warn_traps] "never use \"length @l\", it returns the length of the string int(@l)" ;
-
- | "open" ->
- (match para with
- | [ List(Ident(None, name, _) :: _) ]
- | Ident(None, name, _) :: _ ->
- if not (List.mem name [ "STDIN" ; "STDOUT" ; "STDERR" ]) then
- warn_rule [Warn_complex_expressions] (sprintf "use a scalar instead of a bareword (eg: occurrences of %s with $%s)" name name)
- | _ -> ())
-
- | "N" | "N_" ->
- (match para with
- | [ List(String([ s, List [] ], (_, pos_offset, _ as pos)) :: para) ] ->
- if !Flags.generate_pot then (
- Hashtbl.add pot_strings s (pos, !po_comments) ;
- po_comments := []
- ) ;
- let contexts = check_format_a_la_printf s pos_offset in
- if f = "N" then
- if List.length para < List.length contexts then
- warn_rule [Warn_traps; Warn_MDK_Common] "not enough parameters"
- else if List.length para > List.length contexts then
- warn_rule [Warn_traps; Warn_MDK_Common] "too many parameters" ;
- (*if String.contains s '\t' then warn_rule "tabulation in translated string must be written \\\\t";*)
- (*if count_matching_char s '\n' > 10 then warn_rule "long string";*)
- | [ List(String _ :: _) ] -> die_rule "don't use interpolated translated string, use %s or %d instead"
- | _ -> die_rule (sprintf "%s() must be used with a string" f))
-
- | "if_" ->
- (match para with
- | [ List [ _ ] ] -> warn_rule [Warn_traps; Warn_MDK_Common] "not enough parameters";
- | _ -> ())
-
- | "map" ->
- (match para with
-
- | Anonymous_sub(None, Block [ List [ Call(Deref(I_func, Ident(None, "if_", _)),
- [ List [ _ ; Deref(I_scalar, Ident(None, "_", _)) ] ]) ] ], _) :: _ ->
- warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace \"map { if_(..., $_) }\" with \"grep { ... }\""
- | _ -> check_anonymous_block f para)
-
- | "grep" ->
- (match para with
- | [ Anonymous_sub(None, Block [ List [ Call_op("not", [ Call(Deref(I_func, Ident(None, "member", _)), [ List(Deref(I_scalar, Ident(None, "_", _)) :: _) ]) ], _) ] ], _); _ ] ->
- warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace \"grep { !member($_, ...) } @l\" with \"difference2([ @l ], [ ... ])\""
- | [ Anonymous_sub(None, Block [ List [ Call(Deref(I_func, Ident(None, "member", _)), [ List(Deref(I_scalar, Ident(None, "_", _)) :: _) ]) ] ], _); _ ] ->
- warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace \"grep { member($_, ...) } @l\" with \"intersection([ @l ], [ ... ])\""
- | _ -> check_anonymous_block f para)
-
- | "any" ->
- (match para with
- [Anonymous_sub (None, Block
- [ List [ Call_op("eq", [Deref(I_scalar, Ident(None, "_", _)); _ ], _) ] ],
- _); _ ] ->
- warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace \"any { $_ eq ... } @l\" with \"member(..., @l)\""
- | _ -> check_anonymous_block f para)
-
- | "grep_index" | "map_index" | "partition" | "uniq_"
- | "find"
- | "every"
- | "find_index"
- | "each_index" -> check_anonymous_block f para
-
- | "member" ->
- (match para with
- [ List [ _; Call(Deref(I_func, Ident(None, "keys", _)), _) ] ] ->
- warn_rule [Warn_suggest_simpler; Warn_MDK_Common] "you can replace \"member($xxx, keys %yyy)\" with \"exists $yyy{$xxx}\""
- | _ -> ())
-
- | "pop" | "shift" ->
- (match para with
- | []
- | [ Deref(I_array, _) ]
- | [ List [ Deref(I_array, _) ] ] -> ()
- | _ -> warn_rule [Warn_traps] (f ^ " is expecting an array and nothing else"))
-
- | "push" | "unshift" ->
- (match para with
- | Deref(I_array, _) :: l
- | [ List (Deref(I_array, _) :: l) ] ->
- if l = [] then warn_rule [Warn_traps] ("you must give some arguments to " ^ f)
- | _ -> warn_rule [Warn_traps] (f ^ " is expecting an array"))
-
- | "system" ->
- let fake_string_option_from_expr = function
- | String(l, _) -> Some(String.concat "" (List.map fst l))
- | Raw_string(s, _) -> Some s
- | _ -> None
- in
- (match un_parenthesize_full_l para with
- | [ e ] ->
- (match fake_string_option_from_expr e with
- | Some s ->
- if List.exists (String.contains s) [ '\'' ; char_quote ] &&
- not (List.exists (String.contains s) [ '<' ; '>' ; '&' ; ';']) then
- warn_rule [Warn_complex_expressions] "instead of quoting parameters you should give a list of arguments";
- check_system_call (split_at ' ' s)
- | None -> ())
- | l ->
- let l' = filter_some_with fake_string_option_from_expr l in
- check_system_call l')
- | _ -> ()
- );
-
- let para' = match f with
- | "no" ->
- (match para with
- | [ Ident(_, _, pos) as s ] -> Some [ Raw_string(string_of_fromparser s, pos) ]
- | [ Call(Deref(I_func, (Ident(_, _, pos) as s)), l) ] -> Some(Raw_string(string_of_fromparser s, pos) :: l)
- | _ -> die_rule "use \"no PACKAGE <para>\"")
- | "undef" ->
- (match para with
- | [ Deref(I_star, ident) ] -> Some [ Deref(I_func, ident) ]
- | _ -> None)
-
- | "goto" ->
- (match para with
- | [ Ident(None, s, pos) ] -> Some [ Raw_string(s, pos) ]
- | _ -> None)
-
- | "last" | "next" | "redo" when not force_non_builtin_func ->
- (match para with
- | [ Ident(None, s, pos) ] -> Some [ Raw_string(s, pos) ]
- | _ -> die_rule (sprintf "%s must be used with a raw string" f))
-
- | "split" ->
- (match para with
- | [ List(Call_op("m//", Deref(I_scalar, Ident(None, "_", _)) :: pattern, pos) :: l) ]
- | Call_op("m//", Deref(I_scalar, Ident(None, "_", _)) :: pattern, pos) :: l ->
- Some(Call_op("qr//", pattern, pos) :: l)
- | _ -> None)
-
- | _ -> None
- in Call(e, some_or para' para)
- | _ -> Call(e, para)
-
-let call(e, para) = call_raw false (e, para)
-
-let check_return esp_func esp_para =
- match esp_func.any with
- | Ident(None, "return", _) ->
- prio_lo_check P_call_no_paren esp_para.any.priority esp_para.pos (List esp_para.any.expr)
- | _ -> ()
-
-let call_and_context(e, para) force_non_builtin_func priority esp_start esp_end =
- let context =
- match e with
- | Deref(I_func, Ident(None, f, _)) -> function_to_context false f
- | _ -> M_unknown
- in
- new_pesp context priority (call_raw force_non_builtin_func (e, para)) esp_start esp_end
-
-let call_no_paren esp_func esp_para = check_return esp_func esp_para; call_and_context(Deref(I_func, esp_func.any), esp_para.any.expr) false P_call_no_paren esp_func esp_para
-let call_with_paren esp_func esp_para = check_return esp_func esp_para; call_and_context (Deref(I_func, esp_func.any), esp_para.any.expr) false P_tok esp_func esp_para
-
-let call_func esp_func esp_para =
- call_and_context(esp_func.any, esp_para.any.expr) true P_tok esp_func esp_para
-
-let call_one_scalar_para prio { any = e ; pos = pos } para esp_start esp_end =
- let para' =
- match para with
- | [] ->
- if e = "shift" || e = "pop" then
- [] (* can't decide here *)
- else
- (if not (List.mem e [ "length" ]) then warn_rule [Warn_complex_expressions] (sprintf "please use \"%s $_\" instead of \"%s\"" e e) ;
- [var_dollar_ (raw_pos2pos pos)])
- | _ -> para
- in
- new_pesp M_unknown prio (call(Deref(I_func, Ident(None, e, raw_pos2pos pos)), para')) esp_start esp_end
-
-
-let (current_lexbuf : Lexing.lexbuf option ref) = ref None
-
-let rec list2tokens l =
- let rl = ref l in
- fun lexbuf ->
- match !rl with
- | [] -> internal_error "list2tokens"
- | ((start, end_), e) :: l ->
- (* HACK: fake a normal lexbuf *)
- lexbuf.Lexing.lex_start_p <- { Lexing.dummy_pos with Lexing.pos_cnum = start } ;
- lexbuf.Lexing.lex_curr_p <- { Lexing.dummy_pos with Lexing.pos_cnum = end_ } ;
- rl := l ; e
-
-let parse_tokens parse tokens lexbuf_opt =
- if lexbuf_opt <> None then current_lexbuf := lexbuf_opt ;
- if tokens = [] then [] else
- parse (list2tokens tokens) (some !current_lexbuf)
-
-let parse_interpolated parse l =
- let l' = List.map (fun (s, tokens) -> s, to_List(parse_tokens parse tokens None)) l in
- match split_last l' with
- | pl, ("", List []) -> pl
- | _ -> l'
-
-let to_String parse strict { any = l ; pos = pos } =
- let l' = parse_interpolated parse l in
- (match l' with
- | [ "", List [Deref(I_scalar, Ident(None, ident, _))]] ->
- if ident <> "!" && strict then warn [Warn_suggest_simpler] pos (sprintf "%s is better written without the double quotes" (variable2s(I_scalar, ident)))
- | [ "", List [Deref(I_hash, _)]] ->
- warn [Warn_traps] pos "don't use a hash in string context"
- | [ "", List [Deref(I_array, _)]]
- | [ "", List [Deref_with(I_array, I_array, _, _)]] -> (* for slices like: "@m3[1..$#m3]" *)
- ()
- | [("", _)] ->
- if strict then warn [Warn_suggest_simpler] pos "double quotes are unneeded"
- | _ -> ());
- String(l', raw_pos2pos pos)
-
-let from_PATTERN parse { any = (s, opts) ; pos = pos } =
- let re = parse_interpolated parse s in
- (match List.rev re with
- | (s, List []) :: _ ->
- if str_ends_with s ".*" then
- warn_rule [Warn_suggest_simpler] (sprintf "you can remove \"%s\" at the end of your regexp" ".*")
- else if str_ends_with s ".*$" then
- warn_rule [Warn_suggest_simpler] (sprintf "you can remove \"%s\" at the end of your regexp" ".*$")
- | _ -> ());
- let pattern = [ String(re, raw_pos2pos pos) ; Raw_string(opts, raw_pos2pos pos) ] in
- check_simple_pattern pattern;
- pattern
-
-let from_PATTERN_SUBST parse { any = (s1, s2, opts) ; pos = pos } =
- [ String(parse_interpolated parse s1, raw_pos2pos pos) ;
- String(parse_interpolated parse s2, raw_pos2pos pos) ;
- Raw_string(opts, raw_pos2pos pos) ]
-
-
-let rec mcontext2s = function
- | M_none -> "()"
-
- | M_bool -> "bool"
-
- | M_int -> "int"
- | M_float -> "float"
- | M_string -> "string"
- | M_ref c -> "ref(" ^ mcontext2s c ^ ")"
- | M_revision -> "revision"
- | M_undef -> "undef"
- | M_sub -> "sub"
- | M_unknown_scalar -> "scalar"
-
- | M_tuple l -> "tuple(" ^ String.concat ", " (List.map mcontext2s l) ^ ")"
- | M_list -> "list"
- | M_array -> "array"
- | M_hash -> "hash"
-
- | M_special -> "special"
- | M_unknown -> "unknown"
- | M_mixed l -> String.concat " | " (List.map mcontext2s l)
-
-let rec mcontext_lower c1 c2 =
- match c1, c2 with
- | M_special, _ | _, M_special -> internal_error "M_special in mcontext_compare"
-
- | M_unknown, _
- | _, M_unknown -> true
-
- | M_mixed l, c -> List.exists (fun a -> mcontext_lower a c) l
- | c, M_mixed l -> List.exists (mcontext_lower c) l
-
- | M_none, M_none | M_sub, M_sub | M_hash, M_hash | M_hash, M_bool -> true
- | M_none, _ | M_sub, _ | M_hash, _ -> false
-
- | _, M_list -> true
-
- | M_list, M_bool
- | M_list, M_tuple _
-
- (* M_unknown_scalar is M_mixed [ M_int ; M_float ; M_string ; M_bool ; M_ref _ ; M_revision ; M_undef ] *)
- | M_unknown_scalar, M_int | M_unknown_scalar, M_float | M_unknown_scalar, M_string | M_unknown_scalar, M_bool
- | M_unknown_scalar, M_ref _ | M_unknown_scalar, M_revision | M_unknown_scalar, M_undef | M_unknown_scalar, M_unknown_scalar
-
- | M_array, M_array | M_array, M_int | M_array, M_float | M_array, M_bool | M_array, M_unknown_scalar | M_array, M_tuple _
- | M_int, M_int | M_int, M_float | M_int, M_string | M_int, M_bool | M_int, M_unknown_scalar
- | M_float, M_float | M_float, M_string | M_float, M_bool | M_float, M_unknown_scalar
- | M_string, M_string | M_string, M_bool | M_string, M_unknown_scalar
- | M_bool, M_bool | M_bool, M_unknown_scalar
-
- | M_ref _, M_unknown_scalar
- | M_revision, M_revision | M_revision, M_unknown_scalar
- | M_undef, M_undef | M_undef, M_unknown_scalar
-
- -> true
-
- | M_tuple t1, M_tuple t2 ->
- List.length t1 = List.length t2 && for_all2_true mcontext_lower t1 t2
-
- | M_tuple [c], M_int | M_tuple [c], M_float | M_tuple [c], M_string | M_tuple [c], M_bool
- | M_tuple [c], M_ref _ | M_tuple [c], M_revision | M_tuple [c], M_undef | M_tuple [c], M_unknown_scalar
- -> mcontext_lower c c2
-
-(* | M_ref a, M_ref b -> mcontext_lower a b *)
-
- | _ -> false
-
-let mcontext_is_scalar = function
- | M_unknown -> false
- | c -> mcontext_lower c M_unknown_scalar
-
-let mcontext_to_scalar = function
- | M_array -> M_int
- | c -> if mcontext_is_scalar c then c else M_unknown_scalar
-
-let mcontext_merge_raw c1 c2 =
- match c1, c2 with
- | M_unknown, _ | _, M_unknown -> Some M_unknown
- | M_unknown_scalar, c when mcontext_is_scalar c -> Some M_unknown_scalar
- | c, M_unknown_scalar when mcontext_is_scalar c -> Some M_unknown_scalar
- | M_mixed _, _ | _, M_mixed _ -> internal_error "mcontext_merge_raw"
- | _ ->
- if mcontext_lower c1 c2 then Some c2 else
- if mcontext_lower c2 c1 then Some c1 else
- if c1 = c2 then Some c1 else
- None
-
-let rec mcontext_lmerge_add l = function
- | M_mixed l2 -> List.fold_left mcontext_lmerge_add [] (l2 @ l)
- | c ->
- let rec add_to = function
- | [] -> [c]
- | M_mixed subl :: l -> add_to (subl @ l)
- | c2 :: l ->
- match mcontext_merge_raw c c2 with
- | Some c' -> c' :: l
- | None -> c2 :: add_to l
- in add_to l
-
-let mcontext_lmerge l =
- match List.fold_left mcontext_lmerge_add [] l with
- | [] -> internal_error "mcontext_lmerge"
- | [c] -> c
- | l -> M_mixed l
-
-let mcontext_merge c1 c2 = mcontext_lmerge [ c1 ; c2 ]
-
-let mcontext_lmaybe esp = if esp.any = [] then [] else [esp.mcontext]
-
-let mcontext_check_raw wanted_mcontext mcontext =
- if not (mcontext_lower mcontext wanted_mcontext) then
- warn_rule [Warn_context] (sprintf "context %s is not compatible with context %s" (mcontext2s mcontext) (mcontext2s wanted_mcontext))
-
-let mcontext_check wanted_mcontext esp =
- (match wanted_mcontext with
- | M_list | M_array | M_float | M_mixed [M_array; M_none] | M_tuple _ -> ()
- | _ ->
- match un_parenthesize_full esp.any.expr with
- | Call(Deref(I_func, Ident(None, "grep", _)), _) ->
- warn_rule [Warn_suggest_simpler; Warn_help_perl_checker] (if wanted_mcontext = M_bool then
- "in boolean context, use \"any\" instead of \"grep\"" else
- "you may use \"find\" instead of \"grep\"")
- | _ -> ());
- mcontext_check_raw wanted_mcontext esp.mcontext
-
-let mcontext_check_unop_l wanted_mcontext esp =
- mcontext_check wanted_mcontext { esp with any = { esp.any with expr = List esp.any.expr } }
-
-let mcontext_check_non_none esp =
- if esp.mcontext = M_none then warn_rule [Warn_context] "() context not accepted here"
-
-let mcontext_check_none msg expr esp =
- let rec mcontext_check_none_rec msg expr = function
- | M_none | M_unknown -> ()
- | M_mixed l when List.exists (fun c -> c = M_none) l -> ()
- | M_tuple l ->
- (match expr with
- | [Block [List l_expr]]
- | [List l_expr]
- | [List l_expr ; Semi_colon] ->
- let rec iter = function
- | e::l_expr, mcontext::l ->
- mcontext_check_none_rec (if l = [] then msg else "value is dropped") [e] mcontext ;
- iter (l_expr, l)
- | [], [] -> ()
- | _ -> internal_error "mcontext_check_none"
- in iter (un_parenthesize_full_l l_expr, l)
- | _ -> internal_error "mcontext_check_none")
- | _ ->
- match expr with
- | [List [Num("1", _)]; Semi_colon] -> () (* allow "1;" for package return value. It would be much better to check we are at toplevel, but hell i don't want to wire this information up to here *)
- | [List [Call_op ("<>", [Ident (None, "STDIN", _)], _)]; Semi_colon] -> () (* allow <STDIN> to ask "press return" *)
- | [List [Call(Deref(I_func, Ident(None, "map", _)), _)]; Semi_colon] -> warn_rule [Warn_void] "if you don't use the return value, use \"foreach\" instead of \"map\""
- | _ -> warn [Warn_void] esp.pos msg
- in
- mcontext_check_none_rec msg expr esp.mcontext
-
-(* only returns M_float when there is at least one float *)
-let mcontext_float_or_int l =
- List.iter (mcontext_check_raw M_float) l;
- if List.mem M_float l then M_float else M_int
-
-let mcontext_op_assign left right =
- mcontext_check_non_none right;
-
- let left_mcontext =
- match left.mcontext with
- | M_mixed [ c ; M_none ] -> c
- | c -> c
- in
-
- let wanted_mcontext = match left_mcontext with
- | M_array -> M_list
- | M_hash -> M_mixed [ M_hash ; M_list ]
- | m -> m
- in
- mcontext_check wanted_mcontext right;
-
- let return_mcontext =
- match left_mcontext with
- | M_tuple _ -> M_array
- | c -> c
- in
- mcontext_merge return_mcontext M_none
-
-let mtuple_context_concat c1 c2 =
- match c1, c2 with
- | M_array, _ | _, M_array
- | M_hash, _ | _, M_hash -> M_list
- | M_tuple l, _ -> M_tuple (l @ [c2])
- | _ -> M_tuple [c1 ; c2]
-
-let call_op_if_infix left right esp_start esp_end =
- (match left, right with
- | List [Call_op("=", [Deref(context, _); _], _)], _ when non_scalar_context context -> ()
- | List [Call_op("=", [v; _], _)],
- List [Call_op("not", [v'], _)] when is_same_fromparser v v' ->
- warn_rule [Warn_suggest_simpler] "\"$foo = ... if !$foo\" can be written \"$foo ||= ...\""
- | _ -> ());
-
- mcontext_check_none "value is dropped" [left] esp_start;
- (match right with
- | List [ Num("0", _)] -> () (* allow my $x if 0 *)
- | _ -> check_My_under_condition "replace \"my $foo = ... if <cond>\" with \"my $foo = <cond> && ...\"" left);
-
- let pos = raw_pos_range esp_start esp_end in
- new_any M_none (Call_op("if infix", [ left ; right], raw_pos2pos pos)) esp_start.spaces pos
-
-let call_op_unless_infix left right esp_start esp_end =
- (match left, right with
- | List [Call_op("=", [Deref(context, _); _], _)], _ when non_scalar_context context -> ()
- | List [Call_op("=", [v; _], _)], List [v'] when is_same_fromparser v v' ->
- warn_rule [Warn_suggest_simpler] "\"$foo = ... unless $foo\" can be written \"$foo ||= ...\""
- | _ -> ());
- (match right with
- | List [Call_op(op, _, _)] ->
- (match op with
- | "&&" | "||" | "not" | "ne" | "?:" -> warn_rule [Warn_complex_expressions] "don't use \"unless\" when the condition is complex, use \"if\" instead"
- | _ -> ());
- | _ -> ());
-
- mcontext_check_none "value is dropped" [left] esp_start;
- check_My_under_condition "replace \"my $foo = ... unless <cond>\" with \"my $foo = !<cond> && ...\"" left;
-
- let pos = raw_pos_range esp_start esp_end in
- new_any M_none (Call_op("unless infix", [ left ; right], raw_pos2pos pos)) esp_start.spaces pos
-
-let symops pri para_context return_context op_str left op right =
- sp_same op right;
- let skip_context_check =
- (op_str = "==" || op_str = "!=") && (match left.any.expr, right.any.expr with
- | Deref(I_array, _), List [] -> true (* allow @l == () and @l != () *)
- | _ -> false)
- in
- if op_str <> "==" && op_str <> "!=" && para_context = M_float then
- (match un_parenthesize_full left.any.expr with
- | Call_op("last_array_index", _, _) -> warn_rule [Warn_complex_expressions] "change your expression to use @xxx instead of $#xxx"
- | _ -> ());
-
- if not skip_context_check then
- (mcontext_check para_context left ; mcontext_check para_context right) ;
- to_Call_op_ return_context pri op_str [prio_lo pri left; prio_lo_after pri right] left right