summaryrefslogtreecommitdiffstats
path: root/src/parser.mly
diff options
context:
space:
mode:
authorMageia SVN-Git Migration <svn-git-migration@mageia.org>2007-04-25 15:16:21 +0000
committerMageia SVN-Git Migration <svn-git-migration@mageia.org>2007-04-25 15:16:21 +0000
commitbe4fff49f0164e606d4b2f76f64d4d108895f236 (patch)
treea46bc8c23de0b885f8a2962a9069930b48836fd9 /src/parser.mly
parent4746e8e79a5b3cdf3f72400a5a5d6742f6a76a8c (diff)
downloadperl_checker-be4fff49f0164e606d4b2f76f64d4d108895f236.tar
perl_checker-be4fff49f0164e606d4b2f76f64d4d108895f236.tar.gz
perl_checker-be4fff49f0164e606d4b2f76f64d4d108895f236.tar.bz2
perl_checker-be4fff49f0164e606d4b2f76f64d4d108895f236.tar.xz
perl_checker-be4fff49f0164e606d4b2f76f64d4d108895f236.zip
Rename folder to match history.
This is a Synthesized commit to combine perl-MDK-Common and perl_checker repository history.
Diffstat (limited to 'src/parser.mly')
-rw-r--r--src/parser.mly500
1 files changed, 500 insertions, 0 deletions
diff --git a/src/parser.mly b/src/parser.mly
new file mode 100644
index 0000000..a9bf396
--- /dev/null
+++ b/src/parser.mly
@@ -0,0 +1,500 @@
+%{ (* -*- caml -*- *)
+ open Types
+ open Common
+ open Parser_helper
+
+ let parse_error msg = die_rule msg
+ let prog_ref = ref None
+ let to_String e = Parser_helper.to_String (some !prog_ref) e
+ let from_PATTERN e = Parser_helper.from_PATTERN (some !prog_ref) e
+ let from_PATTERN_SUBST e = Parser_helper.from_PATTERN_SUBST (some !prog_ref) e
+%}
+
+
+%token <unit Types.any_spaces_pos> EOF
+%token <string Types.any_spaces_pos> NUM RAW_STRING BAREWORD BAREWORD_PAREN REVISION COMMENT POD LABEL PO_COMMENT PERL_CHECKER_COMMENT ONE_SCALAR_PARA
+%token <(string * string) Types.any_spaces_pos> PRINT_TO_STAR PRINT_TO_SCALAR
+%token <string Types.any_spaces_pos> QUOTEWORDS COMPACT_HASH_SUBSCRIPT
+%token <(string * Types.raw_pos) Types.any_spaces_pos> RAW_HERE_DOC
+%token <(string * ((int * int) * token) list) list Types.any_spaces_pos> STRING COMMAND_STRING
+%token <((string * ((int * int) * token) list) list * Types.raw_pos) Types.any_spaces_pos> HERE_DOC FORMAT
+
+%token <((string * ((int * int) * token) list) list * string) Types.any_spaces_pos> PATTERN QR_PATTERN
+%token <((string * ((int * int) * token) list) list * (string * ((int * int) * token) list) list * string) Types.any_spaces_pos> PATTERN_SUBST
+
+%token <(string option * string) Types.any_spaces_pos> SCALAR_IDENT ARRAY_IDENT HASH_IDENT FUNC_IDENT STAR_IDENT RAW_IDENT RAW_IDENT_PAREN ARRAYLEN_IDENT
+%token <string Types.any_spaces_pos> SUB_WITH_PROTO
+%token <(string option * string * string) Types.any_spaces_pos> FUNC_DECL_WITH_PROTO
+
+%token <string Types.any_spaces_pos> FOR PRINT
+%token <unit Types.any_spaces_pos> NEW
+%token <string Types.any_spaces_pos> COMPARE_OP COMPARE_OP_STR EQ_OP EQ_OP_STR
+%token <string Types.any_spaces_pos> ASSIGN MY_OUR
+
+%token <unit Types.any_spaces_pos> IF ELSIF ELSE UNLESS DO WHILE UNTIL CONTINUE SUB LOCAL
+%token <unit Types.any_spaces_pos> USE PACKAGE BEGIN END
+%token <unit Types.any_spaces_pos> AT DOLLAR PERCENT AMPERSAND STAR ARRAYLEN
+%token <unit Types.any_spaces_pos> SEMI_COLON PKG_SCOPE
+%token <unit Types.any_spaces_pos> PAREN PAREN_END
+%token <unit Types.any_spaces_pos> BRACKET BRACKET_END BRACKET_HASHREF
+%token <unit Types.any_spaces_pos> ARRAYREF ARRAYREF_END
+
+%token <unit Types.any_spaces_pos> ARROW
+%token <unit Types.any_spaces_pos> INCR DECR
+%token <unit Types.any_spaces_pos> POWER
+%token <unit Types.any_spaces_pos> TIGHT_NOT BIT_NEG REF
+%token <unit Types.any_spaces_pos> PATTERN_MATCH PATTERN_MATCH_NOT
+%token <string Types.any_spaces_pos> MULT
+%token <string Types.any_spaces_pos> PLUS
+%token <string Types.any_spaces_pos> BIT_SHIFT
+%token <unit Types.any_spaces_pos> LT GT CONCAT MULT_L_STR
+%token <unit Types.any_spaces_pos> BIT_AND
+%token <unit Types.any_spaces_pos> BIT_OR BIT_XOR
+%token <unit Types.any_spaces_pos> AND_TIGHT
+%token <unit Types.any_spaces_pos> OR_TIGHT
+%token <string Types.any_spaces_pos> DOTDOT
+%token <unit Types.any_spaces_pos> QUESTION_MARK COLON
+%token <unit Types.any_spaces_pos> COMMA RIGHT_ARROW
+%token <unit Types.any_spaces_pos> NOT
+%token <unit Types.any_spaces_pos> AND
+%token <unit Types.any_spaces_pos> OR XOR
+
+%nonassoc PREC_LOW
+%nonassoc LOOPEX
+
+%right OR XOR
+%right AND
+%right NOT
+%nonassoc LSTOP
+%left COMMA RIGHT_ARROW
+
+%right ASSIGN
+%right QUESTION_MARK COLON
+%nonassoc DOTDOT
+%left OR_TIGHT
+%left AND_TIGHT
+%left BIT_OR BIT_XOR
+%left BIT_AND
+%nonassoc EQ_OP EQ_OP_STR
+%nonassoc LT GT COMPARE_OP COMPARE_OP_STR
+%nonassoc UNIOP ONE_SCALAR_PARA
+%left BIT_SHIFT
+%left PLUS CONCAT
+%left MULT MULT_L_STR
+%left PATTERN_MATCH PATTERN_MATCH_NOT
+%right TIGHT_NOT BIT_NEG REF UNARY_MINUS
+%right POWER
+%nonassoc INCR DECR
+%left ARROW
+
+%nonassoc PAREN_END
+%left PAREN PREC_HIGH
+%left ARRAYREF BRACKET
+
+%type <Types.fromparser list> prog
+%type <prio_expr_spaces_pos> expr term
+%type <fromparser any_spaces_pos> scalar bracket_subscript variable restricted_subscripted
+
+%start prog
+
+
+%%
+prog: lines EOF {fst $1.any}
+
+lines: /* A collection of "lines" in the program */
+| { default_esp ([], true) }
+| sideff { new_1esp ([$1.any], false) $1 }
+| line lines { if fst $2.any <> [] then mcontext_check_none "value is dropped" $1.any $1; new_esp $2.mcontext ($1.any @ fst $2.any, snd $2.any) $1 $2 }
+
+line:
+| decl { new_1esp [$1.any] $1 }
+| if_then_else { new_1esp [$1.any] $1 }
+| loop { new_1esp [$1.any] $1 }
+| LABEL { sp_cr($1); new_1esp [Label $1.any] $1 }
+| PERL_CHECKER_COMMENT {sp_p($1); new_1esp [Perl_checker_comment($1.any, get_pos $1)] $1 }
+| semi_colon {warn_rule [Warn_white_space] "unneeded \";\""; new_1esp [Semi_colon] $1 }
+| sideff semi_colon {new_1esp [$1.any ; Semi_colon] $1 }
+| BRACKET lines BRACKET_END {new_esp $2.mcontext [lines_to_Block $2 $3] $1 $3}
+
+if_then_else: /* Real conditional expressions */
+| IF PAREN expr PAREN_END BRACKET lines BRACKET_END elsif else_ {sp_p($1); sp_n($2); sp_0($3); sp_0_or_cr($4); sp_p($5); mcontext_check M_bool $3; to_Call_op (if $9.any = [] then M_none else mcontext_lmerge ($6.mcontext :: mcontext_lmaybe $8 @ [$9.mcontext])) "if" (prio_lo P_loose $3 :: lines_to_Block $6 $7 :: $8.any @ $9.any) $1 $9}
+| UNLESS PAREN expr PAREN_END BRACKET lines BRACKET_END elsif else_ {sp_p($1); sp_n($2); sp_0($3); sp_0_or_cr($4); sp_p($5); mcontext_check M_bool $3; check_unless_else $8 $9; to_Call_op M_none "unless" (prio_lo P_loose $3 :: lines_to_Block $6 $7 :: $8.any @ $9.any) $1 $9}
+
+elsif:
+| {default_esp []}
+| ELSIF PAREN expr PAREN_END BRACKET lines BRACKET_END elsif {sp_p($1); sp_n($2); sp_0($3); sp_0_or_cr($4); sp_p($5); mcontext_check M_bool $3; new_esp (mcontext_lmerge ($6.mcontext :: mcontext_lmaybe $8)) (prio_lo P_loose $3 :: lines_to_Block $6 $7 :: $8.any) $1 $8}
+
+else_:
+| { default_esp [] }
+| ELSE BRACKET lines BRACKET_END {sp_p($1); sp_n($2); new_esp $3.mcontext [lines_to_Block $3 $4] $1 $4}
+
+loop:
+| WHILE PAREN expr PAREN_END BRACKET lines BRACKET_END cont {sp_p($1); sp_n($2); sp_0($3); sp_0_or_cr($4); sp_p($5); mcontext_check M_bool $3; to_Call_op M_none "while" [ prio_lo P_loose $3; lines_to_Block $6 $7 ] $1 $8}
+| UNTIL PAREN expr PAREN_END BRACKET lines BRACKET_END cont {sp_p($1); sp_n($2); sp_0($3); sp_0_or_cr($4); sp_p($5); mcontext_check M_bool $3; to_Call_op M_none "until" [ prio_lo P_loose $3; lines_to_Block $6 $7 ] $1 $8}
+| FOR PAREN expr_or_empty semi_colon expr_or_empty semi_colon expr_or_empty PAREN_END BRACKET lines BRACKET_END {sp_p($1); check_for($1); sp_n($2); sp_0($3); sp_p($5); sp_p($7); sp_0($8); sp_n($9); to_Call_op M_none "for" [ $3.any; $5.any; $7.any; lines_to_Block $10 $11 ] $1 $11}
+| FOR SCALAR_IDENT PAREN expr PAREN_END BRACKET lines BRACKET_END cont { warn_rule [Warn_normalized_expressions] "don't use for without \"my\"ing the iteration variable"; sp_p($1); sp_0($4); sp_0_or_cr($5); sp_p($6); mcontext_check M_list $4; to_Call_op M_none "foreach" [ prio_lo P_loose $4; lines_to_Block $7 $8 ] $1 $9}
+| FOR PAREN expr PAREN_END BRACKET lines BRACKET_END cont {sp_p($1); sp_n($2); sp_0($3); sp_0_or_cr($4); sp_p($5); mcontext_check M_list $3; check_for_foreach $1 $3; to_Call_op M_none "foreach" [ prio_lo P_loose $3; lines_to_Block $6 $7 ] $1 $8}
+| for_my lines BRACKET_END cont { to_Call_op M_none "foreach my" ($1.any @ [ lines_to_Block $2 $3 ]) $1 $4}
+
+for_my:
+| FOR MY_OUR SCALAR_IDENT PAREN expr PAREN_END BRACKET {sp_p($1); check_my($2); check_foreach($1); sp_n($4); sp_0($5); sp_0_or_cr($6); sp_p($7); new_esp M_none [ My_our($2.any, [I_scalar, snd $3.any], get_pos $3); prio_lo P_loose $5 ] $1 $7}
+
+
+cont: /* Continue blocks */
+| {default_esp ()}
+| CONTINUE BRACKET lines BRACKET_END {sp_p($1); sp_n($2); check_block_lines $3 $4; new_esp $3.mcontext () $1 $4}
+
+sideff: /* An expression which may have a side-effect */
+| expr { new_1esp $1.any.expr $1 }
+| expr IF expr {sp_p($2); sp_p($3); mcontext_check M_bool $3; call_op_if_infix (prio_lo P_loose $1) (prio_lo P_loose $3) $1 $3}
+| expr UNLESS expr {sp_p($2); sp_p($3); mcontext_check M_bool $3; call_op_unless_infix (prio_lo P_loose $1) (prio_lo P_loose $3) $1 $3}
+| expr WHILE expr {sp_p($2); sp_p($3); mcontext_check M_bool $3; to_Call_op M_none "while infix" [ prio_lo P_loose $1 ; prio_lo P_loose $3 ] $1 $3}
+| expr UNTIL expr {sp_p($2); sp_p($3); mcontext_check M_bool $3; to_Call_op M_none "until infix" [ prio_lo P_loose $1 ; prio_lo P_loose $3 ] $1 $3}
+| expr FOR expr {sp_p($2); sp_p($3); mcontext_check M_list $3; check_foreach($2); to_Call_op M_none "for infix" [ prio_lo P_loose $1 ; prio_lo P_loose $3 ] $1 $3}
+
+decl:
+| FORMAT BAREWORD ASSIGN {to_Call_op M_none "format" [Raw_string($2.any, get_pos $2) ; to_String false (new_1esp (fst $1.any) $1)] $1 $3}
+| FORMAT ASSIGN {new_esp M_none Too_complex $1 $2}
+| func_decl semi_colon {if snd $1.any = None then die_rule "there is no need to pre-declare in Perl!" else (warn_rule [Warn_normalized_expressions] "please don't use prototype pre-declaration" ; new_esp M_special Too_complex $1 $2) }
+| func_decl BRACKET BRACKET_END {sp_n($2); sp_0_or_cr($3); let name, proto = $1.any in new_esp M_none (sub_declaration (name, proto) [] Real_sub_declaration) $1 $3}
+| func_decl BRACKET lines BRACKET_END {sp_n($2); check_block_lines $3 $4; new_esp M_none (sub_declaration $1.any (fst $3.any) Real_sub_declaration) $1 $4}
+| func_decl BRACKET BRACKET expr BRACKET_END BRACKET_END {sp_n($2); sp_p($3); sp_p($4); sp_p($5); check_block_expr false Undef $5 $6; new_esp M_none (sub_declaration $1.any [hash_ref $4] Real_sub_declaration) $1 $6}
+| func_decl BRACKET BRACKET expr BRACKET_END semi_colon BRACKET_END {sp_n($2); sp_p($3); sp_p($4); sp_p($5); check_block_expr true Semi_colon $6 $7; new_esp M_none (sub_declaration $1.any [hash_ref $4; Semi_colon] Real_sub_declaration) $1 $7}
+| PACKAGE word semi_colon {sp_0_or_cr($1); sp_1($2); new_esp M_none (Package $2.any) $1 $3}
+| BEGIN BRACKET lines BRACKET_END {sp_0_or_cr($1); sp_1($2); new_esp M_none (Sub_declaration(Ident(None, "BEGIN", get_pos $1), None, lines_to_Block $3 $4, Glob_assign)) $1 $4}
+| END BRACKET lines BRACKET_END {sp_0_or_cr($1); sp_1($2); new_esp M_none (Sub_declaration(Ident(None, "END", get_pos $1), None, lines_to_Block $3 $4, Glob_assign)) $1 $4}
+| use {$1}
+
+use:
+| use_word listexpr semi_colon {sp_n($2); new_esp M_none (Use($1.any, $2.any.expr)) $1 $3}
+| use_revision word_paren PAREN listexpr PAREN_END {sp_0($4); sp_0_or_cr($5); new_esp M_none (Use($2.any, $4.any.expr)) $1 $5}
+
+use_word:
+| use_revision word comma {new_esp M_none $2.any $1 $3}
+| use_revision word {new_esp M_none $2.any $1 $2}
+| use_revision {new_1esp Undef $1 }
+
+use_revision:
+| USE REVISION comma {$1}
+| USE REVISION {$1}
+| USE {$1}
+
+func_decl:
+| SUB word { new_esp M_none ($2.any, None) $1 $2}
+| SUB ONE_SCALAR_PARA { new_esp M_none (Ident(None, $2.any, get_pos $2), None) $1 $2}
+| SUB BAREWORD_PAREN PAREN PAREN_END { warn_rule [Warn_white_space] "remove carriage return between \"sub\" and the function name"; new_esp M_none (Ident(None, $2.any, get_pos $2), Some "") $1 $4 }
+| FUNC_DECL_WITH_PROTO {new_1esp (Ident(fst3 $1.any, snd3 $1.any, get_pos $1), Some (ter3 $1.any)) $1 }
+
+listexpr: /* Basic list expressions */
+| %prec PREC_LOW { default_pesp P_tok []}
+| argexpr %prec PREC_LOW {$1}
+
+expr: /* Ordinary expressions; logical combinations */
+| expr AND expr {sp_p($2); sp_p($3); mcontext_check M_bool $1; mcontext_check_none "value should be dropped" [$3.any.expr] $3; to_Call_op_ M_none P_and "and" [ prio_lo P_and $1; prio_lo_after P_and $3 ] $1 $3}
+| expr OR expr {sp_p($2); sp_p($3); mcontext_check M_bool $1; mcontext_check_none "value should be dropped" [$3.any.expr] $3; to_Call_op_ M_none P_or "or" [ prio_lo P_or $1; prio_lo_after P_or $3 ] $1 $3}
+| argexpr %prec PREC_LOW { new_1pesp $1.any.priority (List $1.any.expr) $1 }
+
+argexpr: /* Expressions are a list of terms joined by commas */
+| argexpr comma { new_pesp $1.mcontext P_comma $1.any.expr $1 $2}
+| bareword RIGHT_ARROW term {if not_simple ($3.any.expr) then sp_p($3); new_pesp (mtuple_context_concat M_string $3.mcontext) P_comma (followed_by_comma [$1.any] false @ [$3.any.expr]) $1 $3}
+| bareword RIGHT_ARROW BRACKET expr BRACKET_END {sp_p($3); sp_p($5); new_pesp (mtuple_context_concat M_string (M_ref M_hash)) P_comma (followed_by_comma [$1.any] false @ [ hash_ref $4 ]) $1 $5}
+| argexpr comma term {prio_lo_check P_comma $1.any.priority $1.pos (last $1.any.expr); if not_simple ($3.any.expr) then sp_p($3); new_pesp (mtuple_context_concat $1.mcontext $3.mcontext) P_comma (followed_by_comma $1.any.expr $2.any @ [$3.any.expr]) $1 $3}
+| argexpr comma BRACKET expr BRACKET_END {sp_p($3); sp_p($5); new_pesp (mtuple_context_concat $1.mcontext (M_ref M_hash)) P_comma (followed_by_comma $1.any.expr $2.any @ [ hash_ref $4 ]) $1 $5}
+| term %prec PREC_LOW { new_1pesp $1.any.priority [$1.any.expr] $1 }
+
+/********************************************************************************/
+term:
+| term
+ COMPARE_OP_STR term {sp_p $2; symops P_cmp M_string M_bool $2.any $1 $2 $3}
+| term COMPARE_OP term {sp_p $2; symops P_cmp M_float M_bool $2.any $1 $2 $3}
+| term LT term {sp_p $2; symops P_cmp M_float M_bool "<" $1 $2 $3}
+| term GT term {sp_p $2; symops P_cmp M_float M_bool ">" $1 $2 $3}
+| term EQ_OP term {sp_p $2; symops P_eq M_float M_bool $2.any $1 $2 $3}
+| term EQ_OP_STR term {sp_p $2; symops P_eq M_string M_bool $2.any $1 $2 $3}
+
+| term BIT_AND term {sp_p $2; symops P_bit M_int M_int "&" $1 $2 $3}
+| term BIT_OR term { symops P_bit M_int M_int "|" $1 $2 $3}
+| term BIT_XOR term {sp_p $2; symops P_bit M_int M_int "^" $1 $2 $3}
+
+| term POWER term { symops P_tight M_float (mcontext_float_or_int [$1.mcontext; $3.mcontext]) "**" $1 $2 $3}
+| term PLUS term { symops P_add M_float (mcontext_float_or_int [$1.mcontext; $3.mcontext]) $2.any $1 $2 $3}
+| term CONCAT term {sp_p $2; symops P_add M_string M_string "." $1 $2 $3}
+| term BIT_SHIFT term { symops (P_paren_wanted P_tight) M_int M_int $2.any $1 $2 $3}
+| term XOR term {sp_p $2; symops (P_paren_wanted P_expr) M_bool M_bool "xor" $1 $2 $3}
+| term DOTDOT term { symops (P_paren_wanted P_expr) M_unknown_scalar M_string $2.any $1 $2 $3}
+
+| term AND_TIGHT term {sp_p $2; sp_same $2 $3; mcontext_check M_bool $1; let pri = P_tight_and in to_Call_op_ (mcontext_to_scalar $3.mcontext) pri "&&" [prio_lo pri $1; prio_lo_after pri $3] $1 $3}
+| term OR_TIGHT term {sp_p $2; sp_same $2 $3; mcontext_check M_bool $1; let pri = P_tight_or in to_Call_op_ (mcontext_to_scalar (mcontext_merge $1.mcontext $3.mcontext)) pri "||" [prio_lo pri $1; prio_lo_after pri $3] $1 $3}
+
+| term MULT term {sp_same $2 $3; let pri = P_mul in to_Call_op_ (mcontext_float_or_int [$1.mcontext; $3.mcontext]) pri $2.any [prio_lo_concat $1; prio_lo_after pri $3] $1 $3}
+| term MULT_L_STR term {sp_same $2 $3; mcontext_check M_int $3; let pri = P_mul in to_Call_op_ (if mcontext_lower $1.mcontext M_string then M_string else M_list) pri "x"
+ [prio_lo_concat $1; prio_lo_after pri $3] $1 $3}
+
+| term ASSIGN term {sp_same $2 $3; let pri = P_assign in to_Call_assign_op_ (mcontext_op_assign $1 $3) pri $2.any ($1.any.expr) (prio_lo_after pri $3) $1 $3}
+
+| term ASSIGN BRACKET expr_bracket_end {sp_p($2); sp_p($3); sp_p($4); to_Call_assign_op_ (M_mixed [M_ref M_hash; M_none]) P_assign $2.any (prio_lo P_assign $1) $4.any $1 $4}
+| term AND_TIGHT BRACKET expr_bracket_end {sp_p($2); sp_p($3); sp_p($4); to_Call_op_ M_bool P_tight_and "&&" [prio_lo P_assign $1; $4.any] $1 $4}
+| term OR_TIGHT BRACKET expr_bracket_end {sp_p($2); sp_p($3); sp_p($4); to_Call_op_ M_bool P_tight_or "||" [prio_lo P_assign $1; $4.any] $1 $4}
+
+
+| term PATTERN_MATCH PATTERN {sp_n($2); sp_p($3); check_unneeded_var_dollar_ ($1); mcontext_check M_string $1; to_Call_op_ M_array P_expr "m//" ($1.any.expr :: from_PATTERN $3) $1 $3}
+| term PATTERN_MATCH_NOT PATTERN {sp_n($2); sp_p($3); check_unneeded_var_dollar_not($1); mcontext_check M_string $1; to_Call_op_ M_int P_expr "!m//" ($1.any.expr :: from_PATTERN $3) $1 $3}
+| term PATTERN_MATCH PATTERN_SUBST {sp_n($2); sp_p($3); check_unneeded_var_dollar_s ($1); to_Call_op_ (M_mixed[M_none; M_int]) P_expr "s///" ($1.any.expr :: from_PATTERN_SUBST $3) $1 $3}
+| term PATTERN_MATCH_NOT PATTERN_SUBST {die_with_rawpos $2.pos "use =~ instead of !~ and negate the return value"}
+
+| term PATTERN_MATCH QR_PATTERN {warn [Warn_traps] $3.pos "use m/.../ or /.../ instead of qr/.../ when you do a pattern matching"; to_Call_op_ M_array P_expr "m//" ($1.any.expr :: from_PATTERN $3) $1 $3}
+| term PATTERN_MATCH_NOT QR_PATTERN {warn [Warn_traps] $3.pos "use m/.../ or /.../ instead of qr/.../ when you do a pattern matching"; to_Call_op_ M_int P_expr "!m//" ($1.any.expr :: from_PATTERN $3) $1 $3}
+| term PATTERN_MATCH scalar { new_pesp M_array P_expr (Call(Too_complex, [$1.any.expr ; $3.any ])) $1 $3}
+| term PATTERN_MATCH_NOT scalar { new_pesp M_int P_expr (Call(Too_complex, [$1.any.expr ; $3.any ])) $1 $3}
+
+| term PATTERN_MATCH RAW_STRING {warn [Warn_complex_expressions] $3.pos "use a regexp, not a string"; to_Call_op_ M_array P_expr "m//" [ $1.any.expr; to_Raw_string $3 ] $1 $3}
+| term PATTERN_MATCH_NOT RAW_STRING {warn [Warn_complex_expressions] $3.pos "use a regexp, not a string"; to_Call_op_ M_int P_expr "!m//" [ $1.any.expr; to_Raw_string $3 ] $1 $3}
+| term PATTERN_MATCH STRING {warn [Warn_complex_expressions] $3.pos "use a regexp, not a string"; to_Call_op_ M_array P_expr "m//" [ $1.any.expr; to_String false $3 ] $1 $3}
+| term PATTERN_MATCH_NOT STRING {warn [Warn_complex_expressions] $3.pos "use a regexp, not a string"; to_Call_op_ M_int P_expr "!m//" [ $1.any.expr; to_String false $3 ] $1 $3}
+
+
+| term QUESTION_MARK term COLON term {sp_p($2); sp_p($3); sp_p($4); sp_p($5); mcontext_check M_bool $1; to_Call_op_ (mcontext_merge $3.mcontext $5.mcontext) P_ternary "?:" (check_ternary_paras(prio_lo P_ternary $1, prio_lo_after P_ternary $3, prio_lo_after P_ternary $5)) $1 $5}
+| term QUESTION_MARK term COLON BRACKET expr BRACKET_END {sp_p($2); sp_p($3); sp_p($4); sp_p($5); sp_p($6); sp_p($7); mcontext_check M_bool $1; to_Call_op_ (mcontext_merge $3.mcontext (M_ref M_hash)) P_ternary "?:" (check_ternary_paras(prio_lo P_ternary $1, prio_lo_after P_ternary $3, hash_ref $6)) $1 $7}
+| term QUESTION_MARK BRACKET expr BRACKET_END COLON term {sp_p($2); sp_p($3); sp_p($4); sp_p($5); sp_p($6); sp_p($7); mcontext_check M_bool $1; to_Call_op_ (mcontext_merge $7.mcontext (M_ref M_hash)) P_ternary "?:" (check_ternary_paras(prio_lo P_ternary $1, hash_ref $4, prio_lo_after P_ternary $7)) $1 $7}
+| term QUESTION_MARK BRACKET expr BRACKET_END COLON BRACKET expr BRACKET_END {sp_p($2); sp_p($3); sp_p($4); sp_p($5); sp_p($6); sp_p($7); sp_p($8); sp_p($9); mcontext_check M_bool $1; to_Call_op_ (M_ref M_hash) P_ternary "?:" (check_ternary_paras(prio_lo P_ternary $1, hash_ref $4, hash_ref $8)) $1 $9}
+
+/* Unary operators and terms */
+| PLUS term %prec UNARY_MINUS {
+ sp_0($2);
+ match $1.any with
+ | "+" ->
+ warn_rule [Warn_normalized_expressions] "don't use unary +" ;
+ to_Call_op_ (mcontext_float_or_int [$2.mcontext]) P_tight "+ unary" [$2.any.expr] $1 $2
+ | "-" ->
+ (match $2.any.expr with
+ | Ident(_, _, pos) when $2.spaces = Space_0 ->
+ let s = "-" ^ string_of_fromparser $2.any.expr in
+ warn_rule [Warn_complex_expressions] (Printf.sprintf "don't use %s, use '%s' instead" s s);
+ new_pesp M_string P_tok (Raw_string(s, pos)) $1 $2
+ | _ -> to_Call_op_ (mcontext_float_or_int [$2.mcontext]) P_tight "- unary" [$2.any.expr] $1 $2)
+ | _ -> die_rule "syntax error"
+}
+| TIGHT_NOT term {check_negatable_expr $2; mcontext_check M_bool $2; to_Call_op_ M_bool P_tight "not" [$2.any.expr] $1 $2}
+| BIT_NEG term { mcontext_check M_int $2; to_Call_op_ M_int P_expr "~" [$2.any.expr] $1 $2}
+| INCR term {sp_0($2); mcontext_check M_int $2; to_Call_op_ (M_mixed [M_int ; M_none]) P_tight "++" [$2.any.expr] $1 $2}
+| DECR term {sp_0($2); mcontext_check M_int $2; to_Call_op_ (M_mixed [M_int ; M_none]) P_tight "--" [$2.any.expr] $1 $2}
+| term INCR {sp_0($2); mcontext_check M_int $1; to_Call_op_ (M_mixed [M_int ; M_none]) P_tight "++ post" [$1.any.expr] $1 $2}
+| term DECR {sp_0($2); mcontext_check M_int $1; to_Call_op_ (M_mixed [M_int ; M_none]) P_tight "-- post" [$1.any.expr] $1 $2}
+| NOT argexpr {warn_rule [Warn_normalized_expressions] "don't use \"not\", use \"!\" instead"; mcontext_check_unop_l M_bool $2; to_Call_op_ M_bool P_and "not" ($2.any.expr) $1 $2}
+
+/* Constructors for anonymous data */
+
+| ARRAYREF ARRAYREF_END {sp_0($2); new_pesp (M_ref M_array) P_expr (Ref(I_array, List[])) $1 $2}
+| arrayref_start ARRAYREF_END {(if $1.any = [] then sp_0 else sp_p)($2) ; new_pesp (M_ref M_array) P_expr (Ref(I_array, List $1.any)) $1 $2}
+| arrayref_start expr ARRAYREF_END {sp_same $2 $3; new_pesp (M_ref M_array) P_expr (Ref(I_array, List($1.any @ [$2.any.expr]))) $1 $3}
+| arrayref_start BRACKET expr BRACKET_END ARRAYREF_END {sp_same $2 $5; new_pesp (M_ref M_array) P_expr (Ref(I_array, List($1.any @ [hash_ref $3]))) $1 $5}
+
+| BRACKET BRACKET_END {new_pesp (M_ref M_hash) P_expr (Ref(I_hash, List [])) $1 $2} /* empty hash */
+| BRACKET_HASHREF expr BRACKET_END %prec PREC_HIGH {sp_p($3); new_pesp (M_ref M_hash) P_expr (hash_ref $2) $1 $3} /* { foo => "Bar" } */
+| SUB BRACKET BRACKET_END %prec PREC_HIGH {sp_n($2); sp_0($3); new_pesp (M_ref M_sub) P_expr (Anonymous_sub(None, Block [], pos_range $2 $3)) $1 $3}
+| SUB_WITH_PROTO BRACKET BRACKET_END %prec PREC_HIGH {sp_n($2); sp_0($3); new_pesp (M_ref M_sub) P_expr (Anonymous_sub(Some $1.any, Block [], pos_range $2 $3)) $1 $3}
+| SUB BRACKET lines BRACKET_END %prec PREC_HIGH {sp_n($2); new_pesp (M_ref M_sub) P_expr (anonymous_sub None $3 $4) $1 $4}
+| SUB_WITH_PROTO BRACKET lines BRACKET_END %prec PREC_HIGH {sp_n($2); new_pesp (M_ref M_sub) P_expr (anonymous_sub (Some $1.any) $3 $4) $1 $4}
+
+| termdo {new_1pesp P_tok $1.any $1}
+| REF term {new_pesp (M_ref $2.mcontext) P_expr (Ref(I_scalar, remove_call_with_same_para_special $2.any.expr)) $1 $2} /* \$x, \@y, \%z */
+| my_our %prec UNIOP {new_1pesp P_expr $1.any $1}
+| LOCAL term %prec UNIOP {sp_n($2); new_pesp (M_mixed [ $2.mcontext ; M_none ]) P_expr (to_Local $2) $1 $2}
+
+| parenthesized {new_1pesp $1.any.priority (List $1.any.expr) $1} /* (1, 2) */
+| parenthesized arrayref {sp_0($2); let is_slice = not (is_only_one_in_List $2.any) in new_pesp (if is_slice then M_list else M_unknown_scalar) P_tok (to_Deref_with(I_array, (if is_slice then I_array else I_scalar), List $1.any.expr, List $2.any)) $1 $2} /* list indexing or slicing */
+
+| variable {
+ let e =
+ match $1.any with
+ | Deref(I_func, Ident _) ->
+ call_with_same_para_special $1.any (* not the same as f(@_) *)
+ | e -> e in
+ new_1pesp P_tok e $1
+ }
+
+| subscripted {new_1pesp P_tok $1.any $1}
+
+| array arrayref {new_pesp M_list P_expr (to_Deref_with(I_array, I_array, from_array $1, List $2.any)) $1 $2} /* array slice: @array[vals] */
+| array BRACKET expr BRACKET_END {sp_0($2); sp_0($3); sp_0($4); new_pesp M_list P_expr (to_Deref_with(I_hash, I_array, from_array $1, $3.any.expr)) $1 $4} /* hash slice: @hash{@keys} */
+
+/* function_calls */
+| ONE_SCALAR_PARA RAW_STRING {call_one_scalar_para P_uniop $1 [to_Raw_string $2] $1 $2}
+| ONE_SCALAR_PARA STRING {call_one_scalar_para P_uniop $1 [to_String true $2] $1 $2}
+| ONE_SCALAR_PARA variable {call_one_scalar_para P_uniop $1 [$2.any] $1 $2}
+| ONE_SCALAR_PARA restricted_subscripted {call_one_scalar_para P_uniop $1 [$2.any] $1 $2}
+| ONE_SCALAR_PARA parenthesized {call_one_scalar_para P_tok $1 $2.any.expr $1 $2}
+| ONE_SCALAR_PARA BRACKET lines BRACKET_END {sp_n($2); new_pesp M_unknown P_uniop (call(Deref(I_func, Ident(None, $1.any, raw_pos2pos $1.pos)), [anonymous_sub None $3 $4])) $1 $4} /* eval { foo } */
+| ONE_SCALAR_PARA diamond {call_one_scalar_para P_uniop $1 [$2.any] $1 $2}
+| ONE_SCALAR_PARA %prec PREC_LOW {call_one_scalar_para P_tok $1 [] $1 $1}
+| ONE_SCALAR_PARA word argexpr {check_parenthesized_first_argexpr_with_Ident $2.any $3; call_one_scalar_para P_uniop $1 [call(Deref(I_func, $2.any), $3.any.expr)] $1 $3} /* ref foo $a, $b */
+| ONE_SCALAR_PARA hash PKG_SCOPE {sp_0($3); call_one_scalar_para P_uniop $1 [ Call(Too_complex, [$2.any]) ] $1 $3} /* keys %main:: */
+| ONE_SCALAR_PARA BAREWORD {if $2.any = "_" && $1.any.[0] = '-' then new_pesp M_bool P_uniop Too_complex $1 $2 else die_rule "syntax error"} /* -e "foo" && -f _ */
+
+| ONE_SCALAR_PARA array arrayref {call_one_scalar_para P_uniop $1 [to_Deref_with(I_array, I_array, from_array $2, List $3.any)] $1 $3} /* array slice: @array[vals] */
+| ONE_SCALAR_PARA array BRACKET expr BRACKET_END {sp_0($3); sp_0($4); sp_0($5); call_one_scalar_para P_uniop $1 [to_Deref_with(I_hash, I_array, from_array $2, $4.any.expr)] $1 $5} /* hash slice: @hash{@keys} */
+
+| func parenthesized {sp_0($2); call_func $1 $2} /* &foo(@args) */
+| word argexpr {check_parenthesized_first_argexpr_with_Ident $1.any $2; call_no_paren $1 $2} /* foo $a, $b */
+| word BRACKET lines BRACKET_END MULT { die_with_rawpos $5.pos "I can't handle this correctly, please add parentheses" }
+| word BRACKET lines BRACKET_END COMMA argexpr %prec LSTOP {sp_n($2); new_pesp M_unknown P_call_no_paren (call(Deref(I_func, $1.any), Ref(I_hash, List (fst $3.any)) :: $6.any.expr)) $1 $6} /* bless { foo }, $bar */
+| word_paren parenthesized {sp_0($2); call_with_paren $1 $2} /* foo(@args) */
+| word BRACKET lines BRACKET_END listexpr %prec LSTOP {sp_n($2); call_and_context(Deref(I_func, $1.any), anonymous_sub None $3 $4 :: $5.any.expr) false (if $5.any.expr = [] then P_tok else P_call_no_paren) $1 $5} /* map { foo } @bar */
+| word BRACKET BRACKET expr BRACKET_END BRACKET_END listexpr %prec LSTOP {sp_n($2); sp_p($3); sp_p($4); sp_p($5); sp_p($6); new_pesp M_unknown (if $7.any.expr = [] then P_tok else P_call_no_paren) (call(Deref(I_func, $1.any), anonymous_sub None (new_esp (M_ref M_hash) ([ hash_ref $4 ], false) $3 $5) $6 :: $7.any.expr)) $1 $7} /* map { { foo } } @bar */
+| word BRACKET BRACKET expr BRACKET_END semi_colon BRACKET_END listexpr %prec LSTOP {sp_n($2); sp_p($3); sp_p($4); sp_p($5); sp_p($7); new_pesp M_unknown (if $8.any.expr = [] then P_tok else P_call_no_paren) (call(Deref(I_func, $1.any), anonymous_sub None (new_esp (M_ref M_hash) ([ hash_ref $4; Semi_colon ], true) $3 $6) $7 :: $8.any.expr)) $1 $8} /* map { { foo }; } @bar */
+
+| term ARROW word_or_scalar parenthesized {sp_0($2); sp_0($3); sp_0($4); if $4.any.expr = [] then warn [Warn_suggest_simpler] $4.pos "remove these unneeded parentheses"; new_pesp M_unknown P_tok (to_Method_call($1.any.expr, $3.any, $4.any.expr)) $1 $4} /* $foo->bar(list) */
+| term ARROW word_or_scalar {sp_0($2); sp_0($3); new_pesp M_unknown P_tok (to_Method_call($1.any.expr, $3.any, [])) $1 $3} /* $foo->bar */
+
+| NEW word { sp_n($2); new_pesp (M_ref M_unknown) P_expr (to_Method_call ($2.any, Ident(None, "new", get_pos $1), [])) $1 $2} /* new Class */
+| NEW word_paren parenthesized { sp_n($2); sp_0($3); new_pesp (M_ref M_unknown) P_expr (to_Method_call($2.any, Ident(None, "new", get_pos $1), $3.any.expr)) $1 $3} /* new Class(...) */
+| NEW word terminal { die_rule "you must parenthesize parameters: \"new Class(...)\" instead of \"new Class ...\"" }
+| NEW word variable { die_rule "you must parenthesize parameters: \"new Class(...)\" instead of \"new Class ...\"" }
+
+| PRINT { to_Call_op_ (M_mixed [M_int; M_none]) P_call_no_paren $1.any (var_STDOUT :: [ var_dollar_ (get_pos $1) ]) $1 $1}
+| PRINT argexpr {check_parenthesized_first_argexpr $1.any $2; to_Call_op_ (M_mixed [M_int; M_none]) P_call_no_paren $1.any (var_STDOUT :: $2.any.expr) $1 $2}
+| PRINT_TO_SCALAR { to_Call_op_ (M_mixed [M_int; M_none]) P_call_no_paren (fst $1.any) (var_STDOUT :: [ Deref(I_scalar, Ident(None, snd $1.any, get_pos $1)) ]) $1 $1}
+| PRINT_TO_SCALAR argexpr { to_Call_op_ (M_mixed [M_int; M_none]) P_call_no_paren (fst $1.any) (Deref(I_scalar, Ident(None, snd $1.any, get_pos $1)) :: $2.any.expr) $1 $2}
+| PRINT_TO_STAR { to_Call_op_ (M_mixed [M_int; M_none]) P_call_no_paren (fst $1.any) (Deref(I_star, Ident(None, snd $1.any, get_pos $1)) :: [ var_dollar_ (get_pos $1) ]) $1 $1}
+| PRINT_TO_STAR argexpr { to_Call_op_ (M_mixed [M_int; M_none]) P_call_no_paren (fst $1.any) (Deref(I_star, Ident(None, snd $1.any, get_pos $1)) :: $2.any.expr) $1 $2}
+
+| hash PKG_SCOPE {sp_0($2); new_pesp M_hash P_tok (Call(Too_complex, [$1.any])) $1 $2} /* %main:: */
+
+| terminal {$1}
+
+expr_bracket_end:
+| expr BRACKET_END { sp_p($2); new_esp (M_ref M_hash) (hash_ref $1) $1 $2 }
+| expr BRACKET_END ARROW bracket_subscript {sp_p($2); sp_0($3); new_esp M_unknown_scalar (to_Deref_with(I_hash, I_scalar, hash_ref $1, $4.any)) $1 $4} /* { foo }->{Bar} */
+
+terminal:
+| word {word_alone $1}
+| NUM {new_1pesp P_tok (Num($1.any, get_pos $1)) $1}
+| STRING {new_1pesp P_tok (to_String true $1) $1}
+| RAW_STRING {new_1pesp P_tok (to_Raw_string $1) $1}
+| REVISION {new_1pesp P_tok (to_Raw_string $1) $1}
+| COMMAND_STRING {to_Call_op_ (M_mixed[M_string; M_list]) P_tok "``" [to_String false $1] $1 $1}
+| QUOTEWORDS {let l = List.map (fun s -> Raw_string(s, raw_pos2pos $1.pos)) (words $1.any) in new_pesp (M_tuple (repeat M_string (List.length l))) P_tok (List [ List l ]) $1 $1}
+| HERE_DOC {new_1pesp P_tok (to_String false (new_1esp (fst $1.any) $1)) $1 }
+| RAW_HERE_DOC {new_1pesp P_tok (Raw_string(fst $1.any, raw_pos2pos (snd $1.any))) $1}
+| QR_PATTERN {to_Call_op_ M_string P_tok "qr//" (from_PATTERN $1) $1 $1}
+| PATTERN {to_Call_op_ M_array P_expr "m//" (var_dollar_ (get_pos $1) :: from_PATTERN $1) $1 $1}
+| PATTERN_SUBST {to_Call_op_ (M_mixed[M_none; M_int]) P_expr "s///" (var_dollar_ (get_pos $1) :: from_PATTERN_SUBST $1) $1 $1}
+| diamond {new_1pesp P_expr $1.any $1}
+
+diamond:
+| LT GT {sp_0($2); to_Call_op (M_mixed[M_string; M_list]) "<>" [] $1 $2}
+| LT term GT {sp_0($2); sp_0($3); to_Call_op (M_mixed[M_string; M_list]) "<>" [$2.any.expr] $1 $3}
+
+subscripted: /* Some kind of subscripted expression */
+| variable PKG_SCOPE bracket_subscript {sp_0($2); sp_0($3); new_esp M_unknown (Call(Too_complex, [$3.any])) $1 $3} /* $foo::{something} */
+| scalar bracket_subscript {sp_0($2); check_scalar_subscripted $1; new_esp M_unknown_scalar (to_Deref_with(I_hash , I_scalar, from_scalar $1, $2.any )) $1 $2} /* $foo{bar} */
+| scalar arrayref {sp_0($2); check_scalar_subscripted $1; new_esp M_unknown_scalar (to_Deref_with(I_array, I_scalar, from_scalar $1, only_one_array_ref $2)) $1 $2} /* $array[$element] */
+| term ARROW simple_subscript {sp_0($2); sp_0($3); new_esp $3.mcontext (to_Deref_with_arrow $2 (fst $3.any, I_scalar, $1.any.expr, snd $3.any)) $1 $3}
+| subscripted simple_subscript {sp_0($2); new_esp $2.mcontext (to_Deref_with(fst $2.any, I_scalar, $1.any, snd $2.any)) $1 $2}
+
+restricted_subscripted: /* Some kind of subscripted expression */
+| variable PKG_SCOPE bracket_subscript {sp_0($2); sp_0($3); new_esp M_unknown (Call(Too_complex, [$3.any])) $1 $3} /* $foo::{something} */
+| word_paren parenthesized {new_esp M_unknown (call(Deref(I_func, $1.any), $2.any.expr)) $1 $2}
+| scalar bracket_subscript {sp_0($2); check_scalar_subscripted $1; new_esp M_unknown_scalar (to_Deref_with(I_hash , I_scalar, from_scalar $1, $2.any )) $1 $2} /* $foo{bar} */
+| scalar arrayref {sp_0($2); check_scalar_subscripted $1; new_esp M_unknown_scalar (to_Deref_with(I_array, I_scalar, from_scalar $1, only_one_array_ref $2)) $1 $2} /* $array[$element] */
+| scalar ARROW simple_subscript {sp_0($2); sp_0($3); new_esp $3.mcontext (to_Deref_with_arrow $2 (fst $3.any, I_scalar, $1.any, snd $3.any)) $1 $3}
+| restricted_subscripted ARROW simple_subscript {sp_0($2); sp_0($3); new_esp $3.mcontext (to_Deref_with_arrow $2 (fst $3.any, I_scalar, $1.any, snd $3.any)) $1 $3} /* somehref->{bar} */
+| restricted_subscripted simple_subscript {sp_0($2); new_esp $2.mcontext (to_Deref_with(fst $2.any, I_scalar, $1.any, snd $2.any)) $1 $2}
+
+| restricted_subscripted ARROW word_or_scalar parenthesized {sp_0($2); sp_0($3); sp_0($4); if $4.any.expr = [] then warn [Warn_suggest_simpler] $4.pos "remove these unneeded parentheses"; new_esp M_unknown (to_Method_call($1.any, $3.any, $4.any.expr)) $1 $4} /* $foo->bar(list) */
+| restricted_subscripted ARROW word_or_scalar {sp_0($2); sp_0($3); new_esp M_unknown (to_Method_call($1.any, $3.any, [])) $1 $3} /* $foo->bar */
+
+simple_subscript:
+| bracket_subscript {new_esp M_unknown_scalar (I_hash, $1.any) $1 $1}
+| arrayref {new_esp M_unknown_scalar (I_array, only_one_array_ref $1) $1 $1}
+| parenthesized {new_esp M_unknown (I_func , List($1.any.expr)) $1 $1}
+
+
+arrayref:
+| arrayref_start ARRAYREF_END {sp_0($2); new_esp (M_ref M_array) $1.any $1 $2}
+| arrayref_start expr ARRAYREF_END {sp_0($3); new_esp (M_ref M_array) ($1.any @ [$2.any.expr]) $1 $3}
+| arrayref_start BRACKET expr BRACKET_END ARRAYREF_END {sp_p($2); sp_p($4); sp_0($5); new_esp (M_ref M_hash) ($1.any @ [hash_ref $3]) $1 $5}
+parenthesized:
+| parenthesized_start PAREN_END {sp_0_or_cr($2); new_pesp (if $1.any = [] then M_list else $1.mcontext) (if $1.any = [] then P_tok else P_paren P_comma) $1.any $1 $2}
+| parenthesized_start expr PAREN_END {sp_0_or_cr($3); (if $1.any = [] then sp_0_or_cr else sp_p)($2); new_pesp (if $1.any = [] then $2.mcontext else M_list) (P_paren (if $1.any = [] then $2.any.priority else P_comma)) ($1.any @ [(if $1.any = [] then prio_lo P_loose else prio_lo_after P_comma) $2]) $1 $3}
+| parenthesized_start BRACKET expr BRACKET_END PAREN_END {sp_p($4); sp_0_or_cr($5); new_pesp (if $1.any = [] then M_ref M_hash else M_list) (P_paren (if $1.any = [] then P_expr else P_comma)) ($1.any @ [hash_ref $3]) $1 $5}
+
+arrayref_start:
+| ARRAYREF {new_1esp [] $1 }
+| arrayref_start BRACKET expr BRACKET_END comma {sp_p($2); sp_p($3); sp_p($4); new_esp M_special ($1.any @ [hash_ref $3]) $1 $5}
+parenthesized_start:
+| PAREN {new_1esp [] $1 }
+| parenthesized_start BRACKET expr BRACKET_END comma {(if $1.any = [] then sp_0_or_cr else sp_p)($2); sp_p($3); sp_p($4); new_esp (M_ref M_hash) ($1.any @ [hash_ref $3]) $1 $5}
+
+my_our: /* Things that can be "my"'d */
+| my_our_paren PAREN_END {sp_0($2); new_esp (M_mixed [ $1.mcontext ; M_none ]) (My_our(sndfst $1.any, snd $1.any, get_pos $1)) $1 $2}
+| my_our_paren SCALAR_IDENT PAREN_END {check_my_our_paren $1 $2; new_esp (M_mixed [ mtuple_context_concat $1.mcontext M_unknown_scalar; M_none ]) (My_our(sndfst $1.any, snd $1.any @ [I_scalar, snd $2.any], pos_range $1 $3)) $1 $3}
+| my_our_paren HASH_IDENT PAREN_END {check_my_our_paren $1 $2; new_esp (M_mixed [ M_list ; M_none ]) (My_our(sndfst $1.any, snd $1.any @ [I_hash, snd $2.any], pos_range $1 $3)) $1 $3}
+| my_our_paren ARRAY_IDENT PAREN_END {check_my_our_paren $1 $2; new_esp (M_mixed [ M_list ; M_none ]) (My_our(sndfst $1.any, snd $1.any @ [I_array, snd $2.any], pos_range $1 $3)) $1 $3}
+| MY_OUR SCALAR_IDENT {new_esp (M_mixed [M_unknown_scalar; M_none]) (My_our($1.any, [I_scalar, snd $2.any], get_pos $2)) $1 $2}
+| MY_OUR HASH_IDENT {new_esp (M_mixed [M_hash ; M_none]) (My_our($1.any, [I_hash, snd $2.any], get_pos $2)) $1 $2}
+| MY_OUR ARRAY_IDENT {new_esp (M_mixed [M_array ; M_none]) (My_our($1.any, [I_array, snd $2.any], get_pos $2)) $1 $2}
+
+my_our_paren:
+| MY_OUR PAREN {sp_1($2); new_esp (M_tuple []) ((true, $1.any), []) $1 $2}
+| my_our_paren comma {if fstfst $1.any then die_rule "syntax error"; new_esp $1.mcontext ((true, sndfst $1.any), snd $1.any) $1 $2}
+| my_our_paren BAREWORD {check_my_our_paren $1 $2; if $2.any <> "undef" then die_rule "scalar expected"; new_esp (mtuple_context_concat $1.mcontext M_none) ((false, sndfst $1.any), snd $1.any @ [I_raw, $2.any]) $1 $2}
+| my_our_paren SCALAR_IDENT {check_my_our_paren $1 $2; new_esp (mtuple_context_concat $1.mcontext M_unknown_scalar) ((false, sndfst $1.any), snd $1.any @ [I_scalar, snd $2.any]) $1 $2}
+| my_our_paren HASH_IDENT {check_my_our_paren $1 $2; new_esp M_list ((false, sndfst $1.any), snd $1.any @ [I_hash, snd $2.any]) $1 $2}
+| my_our_paren ARRAY_IDENT {check_my_our_paren $1 $2; new_esp M_list ((false, sndfst $1.any), snd $1.any @ [I_array, snd $2.any]) $1 $2}
+
+termdo: /* Things called with "do" */
+| DO term %prec UNIOP { die_rule "\"do EXPR\" not allowed" } /* do $filename */
+| DO BRACKET lines BRACKET_END %prec PREC_HIGH {sp_n($2); new_esp $3.mcontext (lines_to_Block $3 $4) $1 $4} /* do { code */
+
+bracket_subscript:
+| BRACKET expr BRACKET_END {sp_0($1); sp_same $2 $3; check_hash_subscript $2; new_esp M_special (only_one_in_List $2) $1 $3}
+| COMPACT_HASH_SUBSCRIPT {sp_0($1); new_1esp (to_Raw_string $1) $1 }
+
+variable:
+| scalar {$1}
+| star {$1}
+| hash {$1}
+| array {$1}
+| arraylen {$1} /* $#x, $#{ something } */
+| func {$1} /* &foo; */
+
+word:
+| bareword { $1 }
+| RAW_IDENT { new_1esp (to_Ident $1) $1 }
+
+comma: COMMA {new_esp M_special true $1 $1} | RIGHT_ARROW {sp_p($1); new_1esp false $1 }
+
+semi_colon: SEMI_COLON {sp_0($1); $1}
+
+word_or_scalar:
+| word {$1}
+| scalar {$1}
+| word_paren {$1}
+| MULT_L_STR { new_1esp (Ident(None, "x", get_pos $1)) $1 }
+| FOR { new_1esp (Ident(None, $1.any, get_pos $1)) $1 }
+| ONE_SCALAR_PARA { new_1esp (Ident(None, $1.any, get_pos $1)) $1 }
+
+bareword:
+| NEW { new_1esp (Ident(None, "new", get_pos $1)) $1 }
+| BAREWORD { new_1esp (Ident(None, $1.any, get_pos $1)) $1 }
+
+word_paren:
+| BAREWORD_PAREN { new_1esp (Ident(None, $1.any, get_pos $1)) $1 }
+| RAW_IDENT_PAREN { new_1esp (to_Ident $1) $1 }
+| PO_COMMENT word_paren { po_comment($1); new_esp M_special $2.any $1 $2 }
+
+
+arraylen: ARRAYLEN_IDENT {new_esp M_int (deref_arraylen (to_Ident $1)) $1 $1} | ARRAYLEN scalar {sp_0($2); new_esp M_int (deref_arraylen $2.any ) $1 $1 } | ARRAYLEN bracket_subscript {new_esp M_int (deref_arraylen $2.any) $1 $2}
+scalar: SCALAR_IDENT {new_esp M_unknown_scalar (Deref(I_scalar, to_Ident $1)) $1 $1} | DOLLAR scalar {sp_0($2); new_esp M_unknown_scalar (Deref(I_scalar, $2.any)) $1 $1 } | DOLLAR bracket_subscript {new_esp M_unknown_scalar (deref_raw I_scalar $2.any) $1 $2} | DOLLAR BRACKET BRACKET expr BRACKET_END BRACKET_END {sp_0($2); sp_0($3); sp_p($5); sp_0($6); new_esp M_unknown_scalar (Deref(I_scalar, hash_ref $4)) $1 $6}
+func: FUNC_IDENT {new_esp M_unknown (Deref(I_func , to_Ident $1)) $1 $1} | AMPERSAND scalar {sp_0($2); new_esp M_unknown (Deref(I_func , $2.any)) $1 $1 } | AMPERSAND bracket_subscript {new_esp M_unknown (deref_raw I_func $2.any) $1 $2}
+array: ARRAY_IDENT {new_esp M_array (Deref(I_array , to_Ident $1)) $1 $1} | AT scalar {sp_0($2); new_esp M_array (Deref(I_array , $2.any)) $1 $1 } | AT bracket_subscript {new_esp M_array (deref_raw I_array $2.any) $1 $2}
+hash: HASH_IDENT {new_esp M_hash (Deref(I_hash , to_Ident $1)) $1 $1} | PERCENT scalar {sp_0($2); new_esp M_hash (Deref(I_hash , $2.any)) $1 $1 } | PERCENT bracket_subscript {new_esp M_hash (deref_raw I_hash $2.any) $1 $2}
+star: STAR_IDENT {new_esp M_unknown (Deref(I_star , to_Ident $1)) $1 $1} | STAR scalar {sp_0($2); new_esp M_unknown (Deref(I_star , $2.any)) $1 $1 } | STAR bracket_subscript {new_esp M_unknown (deref_raw I_star $2.any) $1 $2}
+
+expr_or_empty: {default_esp (Block [])} | expr {new_1esp $1.any.expr $1 }
+
+%%
+
+prog_ref := Some prog
+;;