Current Path : /usr/src/cddl/contrib/opensolaris/lib/libdtrace/common/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/cddl/contrib/opensolaris/lib/libdtrace/common/dt_grammar.y |
%{ /* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include <dt_impl.h> #define OP1(op, c) dt_node_op1(op, c) #define OP2(op, l, r) dt_node_op2(op, l, r) #define OP3(x, y, z) dt_node_op3(x, y, z) #define LINK(l, r) dt_node_link(l, r) #define DUP(s) strdup(s) %} %union { dt_node_t *l_node; dt_decl_t *l_decl; char *l_str; uintmax_t l_int; int l_tok; } %token DT_TOK_COMMA DT_TOK_ELLIPSIS %token DT_TOK_ASGN DT_TOK_ADD_EQ DT_TOK_SUB_EQ DT_TOK_MUL_EQ %token DT_TOK_DIV_EQ DT_TOK_MOD_EQ DT_TOK_AND_EQ DT_TOK_XOR_EQ DT_TOK_OR_EQ %token DT_TOK_LSH_EQ DT_TOK_RSH_EQ DT_TOK_QUESTION DT_TOK_COLON %token DT_TOK_LOR DT_TOK_LXOR DT_TOK_LAND %token DT_TOK_BOR DT_TOK_XOR DT_TOK_BAND DT_TOK_EQU DT_TOK_NEQ %token DT_TOK_LT DT_TOK_LE DT_TOK_GT DT_TOK_GE DT_TOK_LSH DT_TOK_RSH %token DT_TOK_ADD DT_TOK_SUB DT_TOK_MUL DT_TOK_DIV DT_TOK_MOD %token DT_TOK_LNEG DT_TOK_BNEG DT_TOK_ADDADD DT_TOK_SUBSUB %token DT_TOK_PREINC DT_TOK_POSTINC DT_TOK_PREDEC DT_TOK_POSTDEC %token DT_TOK_IPOS DT_TOK_INEG DT_TOK_DEREF DT_TOK_ADDROF %token DT_TOK_OFFSETOF DT_TOK_SIZEOF DT_TOK_STRINGOF DT_TOK_XLATE %token DT_TOK_LPAR DT_TOK_RPAR DT_TOK_LBRAC DT_TOK_RBRAC DT_TOK_PTR DT_TOK_DOT %token <l_str> DT_TOK_STRING %token <l_str> DT_TOK_IDENT %token <l_str> DT_TOK_PSPEC %token <l_str> DT_TOK_AGG %token <l_str> DT_TOK_TNAME %token <l_int> DT_TOK_INT %token DT_KEY_AUTO %token DT_KEY_BREAK %token DT_KEY_CASE %token DT_KEY_CHAR %token DT_KEY_CONST %token DT_KEY_CONTINUE %token DT_KEY_COUNTER %token DT_KEY_DEFAULT %token DT_KEY_DO %token DT_KEY_DOUBLE %token DT_KEY_ELSE %token DT_KEY_ENUM %token DT_KEY_EXTERN %token DT_KEY_FLOAT %token DT_KEY_FOR %token DT_KEY_GOTO %token DT_KEY_IF %token DT_KEY_IMPORT %token DT_KEY_INLINE %token DT_KEY_INT %token DT_KEY_LONG %token DT_KEY_PROBE %token DT_KEY_PROVIDER %token DT_KEY_REGISTER %token DT_KEY_RESTRICT %token DT_KEY_RETURN %token DT_KEY_SELF %token DT_KEY_SHORT %token DT_KEY_SIGNED %token DT_KEY_STATIC %token DT_KEY_STRING %token DT_KEY_STRUCT %token DT_KEY_SWITCH %token DT_KEY_THIS %token DT_KEY_TYPEDEF %token DT_KEY_UNION %token DT_KEY_UNSIGNED %token DT_KEY_VOID %token DT_KEY_VOLATILE %token DT_KEY_WHILE %token DT_KEY_XLATOR %token DT_TOK_EPRED %token DT_CTX_DEXPR %token DT_CTX_DPROG %token DT_CTX_DTYPE %token DT_TOK_EOF 0 %left DT_TOK_COMMA %right DT_TOK_ASGN DT_TOK_ADD_EQ DT_TOK_SUB_EQ DT_TOK_MUL_EQ DT_TOK_DIV_EQ DT_TOK_MOD_EQ DT_TOK_AND_EQ DT_TOK_XOR_EQ DT_TOK_OR_EQ DT_TOK_LSH_EQ DT_TOK_RSH_EQ %left DT_TOK_QUESTION DT_TOK_COLON %left DT_TOK_LOR %left DT_TOK_LXOR %left DT_TOK_LAND %left DT_TOK_BOR %left DT_TOK_XOR %left DT_TOK_BAND %left DT_TOK_EQU DT_TOK_NEQ %left DT_TOK_LT DT_TOK_LE DT_TOK_GT DT_TOK_GE %left DT_TOK_LSH DT_TOK_RSH %left DT_TOK_ADD DT_TOK_SUB %left DT_TOK_MUL DT_TOK_DIV DT_TOK_MOD %right DT_TOK_LNEG DT_TOK_BNEG DT_TOK_ADDADD DT_TOK_SUBSUB DT_TOK_IPOS DT_TOK_INEG %right DT_TOK_DEREF DT_TOK_ADDROF DT_TOK_SIZEOF DT_TOK_STRINGOF DT_TOK_XLATE %left DT_TOK_LPAR DT_TOK_RPAR DT_TOK_LBRAC DT_TOK_RBRAC DT_TOK_PTR DT_TOK_DOT %type <l_node> d_expression %type <l_node> d_program %type <l_node> d_type %type <l_node> translation_unit %type <l_node> external_declaration %type <l_node> inline_definition %type <l_node> translator_definition %type <l_node> translator_member_list %type <l_node> translator_member %type <l_node> provider_definition %type <l_node> provider_probe_list %type <l_node> provider_probe %type <l_node> probe_definition %type <l_node> probe_specifiers %type <l_node> probe_specifier_list %type <l_node> probe_specifier %type <l_node> statement_list %type <l_node> statement %type <l_node> declaration %type <l_node> init_declarator_list %type <l_node> init_declarator %type <l_decl> type_specifier %type <l_decl> type_qualifier %type <l_decl> struct_or_union_specifier %type <l_decl> specifier_qualifier_list %type <l_decl> enum_specifier %type <l_decl> declarator %type <l_decl> direct_declarator %type <l_decl> pointer %type <l_decl> type_qualifier_list %type <l_decl> type_name %type <l_decl> abstract_declarator %type <l_decl> direct_abstract_declarator %type <l_node> parameter_type_list %type <l_node> parameter_list %type <l_node> parameter_declaration %type <l_node> array %type <l_node> array_parameters %type <l_node> function %type <l_node> function_parameters %type <l_node> expression %type <l_node> assignment_expression %type <l_node> conditional_expression %type <l_node> constant_expression %type <l_node> logical_or_expression %type <l_node> logical_xor_expression %type <l_node> logical_and_expression %type <l_node> inclusive_or_expression %type <l_node> exclusive_or_expression %type <l_node> and_expression %type <l_node> equality_expression %type <l_node> relational_expression %type <l_node> shift_expression %type <l_node> additive_expression %type <l_node> multiplicative_expression %type <l_node> cast_expression %type <l_node> unary_expression %type <l_node> postfix_expression %type <l_node> primary_expression %type <l_node> argument_expression_list %type <l_tok> assignment_operator %type <l_tok> unary_operator %type <l_tok> struct_or_union %% dtrace_program: d_expression DT_TOK_EOF { return (dt_node_root($1)); } | d_program DT_TOK_EOF { return (dt_node_root($1)); } | d_type DT_TOK_EOF { return (dt_node_root($1)); } ; d_expression: DT_CTX_DEXPR { $$ = NULL; } | DT_CTX_DEXPR expression { $$ = $2; } ; d_program: DT_CTX_DPROG { $$ = dt_node_program(NULL); } | DT_CTX_DPROG translation_unit { $$ = dt_node_program($2); } ; d_type: DT_CTX_DTYPE { $$ = NULL; } | DT_CTX_DTYPE type_name { $$ = (dt_node_t *)$2; } ; translation_unit: external_declaration | translation_unit external_declaration { $$ = LINK($1, $2); } ; external_declaration: inline_definition | translator_definition | provider_definition | probe_definition | declaration ; inline_definition: DT_KEY_INLINE declaration_specifiers declarator { dt_scope_push(NULL, CTF_ERR); } DT_TOK_ASGN assignment_expression ';' { /* * We push a new declaration scope before shifting the * assignment_expression in order to preserve ds_class * and ds_ident for use in dt_node_inline(). Once the * entire inline_definition rule is matched, pop the * scope and construct the inline using the saved decl. */ dt_scope_pop(); $$ = dt_node_inline($6); } ; translator_definition: DT_KEY_XLATOR type_name DT_TOK_LT type_name DT_TOK_IDENT DT_TOK_GT '{' translator_member_list '}' ';' { $$ = dt_node_xlator($2, $4, $5, $8); } | DT_KEY_XLATOR type_name DT_TOK_LT type_name DT_TOK_IDENT DT_TOK_GT '{' '}' ';' { $$ = dt_node_xlator($2, $4, $5, NULL); } ; translator_member_list: translator_member | translator_member_list translator_member { $$ = LINK($1,$2); } ; translator_member: DT_TOK_IDENT DT_TOK_ASGN assignment_expression ';' { $$ = dt_node_member(NULL, $1, $3); } ; provider_definition: DT_KEY_PROVIDER DT_TOK_IDENT '{' provider_probe_list '}' ';' { $$ = dt_node_provider($2, $4); } | DT_KEY_PROVIDER DT_TOK_IDENT '{' '}' ';' { $$ = dt_node_provider($2, NULL); } ; provider_probe_list: provider_probe | provider_probe_list provider_probe { $$ = LINK($1, $2); } ; provider_probe: DT_KEY_PROBE DT_TOK_IDENT function DT_TOK_COLON function ';' { $$ = dt_node_probe($2, 2, $3, $5); } | DT_KEY_PROBE DT_TOK_IDENT function ';' { $$ = dt_node_probe($2, 1, $3, NULL); } ; probe_definition: probe_specifiers { /* * If the input stream is a file, do not permit a probe * specification without / <pred> / or { <act> } after * it. This can only occur if the next token is EOF or * an ambiguous predicate was slurped up as a comment. * We cannot perform this check if input() is a string * because dtrace(1M) [-fmnP] also use the compiler and * things like dtrace -n BEGIN have to be accepted. */ if (yypcb->pcb_fileptr != NULL) { dnerror($1, D_SYNTAX, "expected predicate and/" "or actions following probe description\n"); } $$ = dt_node_clause($1, NULL, NULL); } | probe_specifiers '{' statement_list '}' { $$ = dt_node_clause($1, NULL, $3); } | probe_specifiers DT_TOK_DIV expression DT_TOK_EPRED { dnerror($3, D_SYNTAX, "expected actions { } following " "probe description and predicate\n"); } | probe_specifiers DT_TOK_DIV expression DT_TOK_EPRED '{' statement_list '}' { $$ = dt_node_clause($1, $3, $6); } ; probe_specifiers: probe_specifier_list { yybegin(YYS_EXPR); $$ = $1; } ; probe_specifier_list: probe_specifier | probe_specifier_list DT_TOK_COMMA probe_specifier { $$ = LINK($1, $3); } ; probe_specifier: DT_TOK_PSPEC { $$ = dt_node_pdesc_by_name($1); } | DT_TOK_INT { $$ = dt_node_pdesc_by_id($1); } ; statement_list: statement { $$ = $1; } | statement_list ';' statement { $$ = LINK($1, $3); } ; statement: /* empty */ { $$ = NULL; } | expression { $$ = dt_node_statement($1); } ; argument_expression_list: assignment_expression | argument_expression_list DT_TOK_COMMA assignment_expression { $$ = LINK($1, $3); } ; primary_expression: DT_TOK_IDENT { $$ = dt_node_ident($1); } | DT_TOK_AGG { $$ = dt_node_ident($1); } | DT_TOK_INT { $$ = dt_node_int($1); } | DT_TOK_STRING { $$ = dt_node_string($1); } | DT_KEY_SELF { $$ = dt_node_ident(DUP("self")); } | DT_KEY_THIS { $$ = dt_node_ident(DUP("this")); } | DT_TOK_LPAR expression DT_TOK_RPAR { $$ = $2; } ; postfix_expression: primary_expression | postfix_expression DT_TOK_LBRAC argument_expression_list DT_TOK_RBRAC { $$ = OP2(DT_TOK_LBRAC, $1, $3); } | postfix_expression DT_TOK_LPAR DT_TOK_RPAR { $$ = dt_node_func($1, NULL); } | postfix_expression DT_TOK_LPAR argument_expression_list DT_TOK_RPAR { $$ = dt_node_func($1, $3); } | postfix_expression DT_TOK_DOT DT_TOK_IDENT { $$ = OP2(DT_TOK_DOT, $1, dt_node_ident($3)); } | postfix_expression DT_TOK_DOT DT_TOK_TNAME { $$ = OP2(DT_TOK_DOT, $1, dt_node_ident($3)); } | postfix_expression DT_TOK_PTR DT_TOK_IDENT { $$ = OP2(DT_TOK_PTR, $1, dt_node_ident($3)); } | postfix_expression DT_TOK_PTR DT_TOK_TNAME { $$ = OP2(DT_TOK_PTR, $1, dt_node_ident($3)); } | postfix_expression DT_TOK_ADDADD { $$ = OP1(DT_TOK_POSTINC, $1); } | postfix_expression DT_TOK_SUBSUB { $$ = OP1(DT_TOK_POSTDEC, $1); } | DT_TOK_OFFSETOF DT_TOK_LPAR type_name DT_TOK_COMMA DT_TOK_IDENT DT_TOK_RPAR { $$ = dt_node_offsetof($3, $5); } | DT_TOK_OFFSETOF DT_TOK_LPAR type_name DT_TOK_COMMA DT_TOK_TNAME DT_TOK_RPAR { $$ = dt_node_offsetof($3, $5); } | DT_TOK_XLATE DT_TOK_LT type_name DT_TOK_GT DT_TOK_LPAR expression DT_TOK_RPAR { $$ = OP2(DT_TOK_XLATE, dt_node_type($3), $6); } ; unary_expression: postfix_expression | DT_TOK_ADDADD unary_expression { $$ = OP1(DT_TOK_PREINC, $2); } | DT_TOK_SUBSUB unary_expression { $$ = OP1(DT_TOK_PREDEC, $2); } | unary_operator cast_expression { $$ = OP1($1, $2); } | DT_TOK_SIZEOF unary_expression { $$ = OP1(DT_TOK_SIZEOF, $2); } | DT_TOK_SIZEOF DT_TOK_LPAR type_name DT_TOK_RPAR { $$ = OP1(DT_TOK_SIZEOF, dt_node_type($3)); } | DT_TOK_STRINGOF unary_expression { $$ = OP1(DT_TOK_STRINGOF, $2); } ; unary_operator: DT_TOK_BAND { $$ = DT_TOK_ADDROF; } | DT_TOK_MUL { $$ = DT_TOK_DEREF; } | DT_TOK_ADD { $$ = DT_TOK_IPOS; } | DT_TOK_SUB { $$ = DT_TOK_INEG; } | DT_TOK_BNEG { $$ = DT_TOK_BNEG; } | DT_TOK_LNEG { $$ = DT_TOK_LNEG; } ; cast_expression: unary_expression | DT_TOK_LPAR type_name DT_TOK_RPAR cast_expression { $$ = OP2(DT_TOK_LPAR, dt_node_type($2), $4); } ; multiplicative_expression: cast_expression | multiplicative_expression DT_TOK_MUL cast_expression { $$ = OP2(DT_TOK_MUL, $1, $3); } | multiplicative_expression DT_TOK_DIV cast_expression { $$ = OP2(DT_TOK_DIV, $1, $3); } | multiplicative_expression DT_TOK_MOD cast_expression { $$ = OP2(DT_TOK_MOD, $1, $3); } ; additive_expression: multiplicative_expression | additive_expression DT_TOK_ADD multiplicative_expression { $$ = OP2(DT_TOK_ADD, $1, $3); } | additive_expression DT_TOK_SUB multiplicative_expression { $$ = OP2(DT_TOK_SUB, $1, $3); } ; shift_expression: additive_expression | shift_expression DT_TOK_LSH additive_expression { $$ = OP2(DT_TOK_LSH, $1, $3); } | shift_expression DT_TOK_RSH additive_expression { $$ = OP2(DT_TOK_RSH, $1, $3); } ; relational_expression: shift_expression | relational_expression DT_TOK_LT shift_expression { $$ = OP2(DT_TOK_LT, $1, $3); } | relational_expression DT_TOK_GT shift_expression { $$ = OP2(DT_TOK_GT, $1, $3); } | relational_expression DT_TOK_LE shift_expression { $$ = OP2(DT_TOK_LE, $1, $3); } | relational_expression DT_TOK_GE shift_expression { $$ = OP2(DT_TOK_GE, $1, $3); } ; equality_expression: relational_expression | equality_expression DT_TOK_EQU relational_expression { $$ = OP2(DT_TOK_EQU, $1, $3); } | equality_expression DT_TOK_NEQ relational_expression { $$ = OP2(DT_TOK_NEQ, $1, $3); } ; and_expression: equality_expression | and_expression DT_TOK_BAND equality_expression { $$ = OP2(DT_TOK_BAND, $1, $3); } ; exclusive_or_expression: and_expression | exclusive_or_expression DT_TOK_XOR and_expression { $$ = OP2(DT_TOK_XOR, $1, $3); } ; inclusive_or_expression: exclusive_or_expression | inclusive_or_expression DT_TOK_BOR exclusive_or_expression { $$ = OP2(DT_TOK_BOR, $1, $3); } ; logical_and_expression: inclusive_or_expression | logical_and_expression DT_TOK_LAND inclusive_or_expression { $$ = OP2(DT_TOK_LAND, $1, $3); } ; logical_xor_expression: logical_and_expression | logical_xor_expression DT_TOK_LXOR logical_and_expression { $$ = OP2(DT_TOK_LXOR, $1, $3); } ; logical_or_expression: logical_xor_expression | logical_or_expression DT_TOK_LOR logical_xor_expression { $$ = OP2(DT_TOK_LOR, $1, $3); } ; constant_expression: conditional_expression ; conditional_expression: logical_or_expression | logical_or_expression DT_TOK_QUESTION expression DT_TOK_COLON conditional_expression { $$ = OP3($1, $3, $5); } ; assignment_expression: conditional_expression | unary_expression assignment_operator assignment_expression { $$ = OP2($2, $1, $3); } ; assignment_operator: DT_TOK_ASGN { $$ = DT_TOK_ASGN; } | DT_TOK_MUL_EQ { $$ = DT_TOK_MUL_EQ; } | DT_TOK_DIV_EQ { $$ = DT_TOK_DIV_EQ; } | DT_TOK_MOD_EQ { $$ = DT_TOK_MOD_EQ; } | DT_TOK_ADD_EQ { $$ = DT_TOK_ADD_EQ; } | DT_TOK_SUB_EQ { $$ = DT_TOK_SUB_EQ; } | DT_TOK_LSH_EQ { $$ = DT_TOK_LSH_EQ; } | DT_TOK_RSH_EQ { $$ = DT_TOK_RSH_EQ; } | DT_TOK_AND_EQ { $$ = DT_TOK_AND_EQ; } | DT_TOK_XOR_EQ { $$ = DT_TOK_XOR_EQ; } | DT_TOK_OR_EQ { $$ = DT_TOK_OR_EQ; } ; expression: assignment_expression | expression DT_TOK_COMMA assignment_expression { $$ = OP2(DT_TOK_COMMA, $1, $3); } ; declaration: declaration_specifiers ';' { $$ = dt_node_decl(); dt_decl_free(dt_decl_pop()); yybegin(YYS_CLAUSE); } | declaration_specifiers init_declarator_list ';' { $$ = $2; dt_decl_free(dt_decl_pop()); yybegin(YYS_CLAUSE); } ; declaration_specifiers: d_storage_class_specifier | d_storage_class_specifier declaration_specifiers | type_specifier | type_specifier declaration_specifiers | type_qualifier | type_qualifier declaration_specifiers ; parameter_declaration_specifiers: storage_class_specifier | storage_class_specifier declaration_specifiers | type_specifier | type_specifier declaration_specifiers | type_qualifier | type_qualifier declaration_specifiers ; storage_class_specifier: DT_KEY_AUTO { dt_decl_class(DT_DC_AUTO); } | DT_KEY_REGISTER { dt_decl_class(DT_DC_REGISTER); } | DT_KEY_STATIC { dt_decl_class(DT_DC_STATIC); } | DT_KEY_EXTERN { dt_decl_class(DT_DC_EXTERN); } | DT_KEY_TYPEDEF { dt_decl_class(DT_DC_TYPEDEF); } ; d_storage_class_specifier: storage_class_specifier | DT_KEY_SELF { dt_decl_class(DT_DC_SELF); } | DT_KEY_THIS { dt_decl_class(DT_DC_THIS); } ; type_specifier: DT_KEY_VOID { $$ = dt_decl_spec(CTF_K_INTEGER, DUP("void")); } | DT_KEY_CHAR { $$ = dt_decl_spec(CTF_K_INTEGER, DUP("char")); } | DT_KEY_SHORT { $$ = dt_decl_attr(DT_DA_SHORT); } | DT_KEY_INT { $$ = dt_decl_spec(CTF_K_INTEGER, DUP("int")); } | DT_KEY_LONG { $$ = dt_decl_attr(DT_DA_LONG); } | DT_KEY_FLOAT { $$ = dt_decl_spec(CTF_K_FLOAT, DUP("float")); } | DT_KEY_DOUBLE { $$ = dt_decl_spec(CTF_K_FLOAT, DUP("double")); } | DT_KEY_SIGNED { $$ = dt_decl_attr(DT_DA_SIGNED); } | DT_KEY_UNSIGNED { $$ = dt_decl_attr(DT_DA_UNSIGNED); } | DT_KEY_STRING { $$ = dt_decl_spec(CTF_K_TYPEDEF, DUP("string")); } | DT_TOK_TNAME { $$ = dt_decl_spec(CTF_K_TYPEDEF, $1); } | struct_or_union_specifier | enum_specifier ; type_qualifier: DT_KEY_CONST { $$ = dt_decl_attr(DT_DA_CONST); } | DT_KEY_RESTRICT { $$ = dt_decl_attr(DT_DA_RESTRICT); } | DT_KEY_VOLATILE { $$ = dt_decl_attr(DT_DA_VOLATILE); } ; struct_or_union_specifier: struct_or_union_definition struct_declaration_list '}' { $$ = dt_scope_pop(); } | struct_or_union DT_TOK_IDENT { $$ = dt_decl_spec($1, $2); } | struct_or_union DT_TOK_TNAME { $$ = dt_decl_spec($1, $2); } ; struct_or_union_definition: struct_or_union '{' { dt_decl_sou($1, NULL); } | struct_or_union DT_TOK_IDENT '{' { dt_decl_sou($1, $2); } | struct_or_union DT_TOK_TNAME '{' { dt_decl_sou($1, $2); } ; struct_or_union: DT_KEY_STRUCT { $$ = CTF_K_STRUCT; } | DT_KEY_UNION { $$ = CTF_K_UNION; } ; struct_declaration_list: struct_declaration | struct_declaration_list struct_declaration ; init_declarator_list: init_declarator | init_declarator_list DT_TOK_COMMA init_declarator { $$ = LINK($1, $3); } ; init_declarator: declarator { $$ = dt_node_decl(); dt_decl_reset(); } ; struct_declaration: specifier_qualifier_list struct_declarator_list ';' { dt_decl_free(dt_decl_pop()); } ; specifier_qualifier_list: type_specifier | type_specifier specifier_qualifier_list { $$ = $2; } | type_qualifier | type_qualifier specifier_qualifier_list { $$ = $2; } ; struct_declarator_list: struct_declarator | struct_declarator_list DT_TOK_COMMA struct_declarator ; struct_declarator: declarator { dt_decl_member(NULL); } | DT_TOK_COLON constant_expression { dt_decl_member($2); } | declarator DT_TOK_COLON constant_expression { dt_decl_member($3); } ; enum_specifier: enum_definition enumerator_list '}' { $$ = dt_scope_pop(); } | DT_KEY_ENUM DT_TOK_IDENT { $$ = dt_decl_spec(CTF_K_ENUM, $2); } | DT_KEY_ENUM DT_TOK_TNAME { $$ = dt_decl_spec(CTF_K_ENUM, $2); } ; enum_definition: DT_KEY_ENUM '{' { dt_decl_enum(NULL); } | DT_KEY_ENUM DT_TOK_IDENT '{' { dt_decl_enum($2); } | DT_KEY_ENUM DT_TOK_TNAME '{' { dt_decl_enum($2); } ; enumerator_list: enumerator | enumerator_list DT_TOK_COMMA enumerator ; enumerator: DT_TOK_IDENT { dt_decl_enumerator($1, NULL); } | DT_TOK_IDENT DT_TOK_ASGN expression { dt_decl_enumerator($1, $3); } ; declarator: direct_declarator | pointer direct_declarator ; direct_declarator: DT_TOK_IDENT { $$ = dt_decl_ident($1); } | lparen declarator DT_TOK_RPAR { $$ = $2; } | direct_declarator array { dt_decl_array($2); } | direct_declarator function { dt_decl_func($1, $2); } ; lparen: DT_TOK_LPAR { dt_decl_top()->dd_attr |= DT_DA_PAREN; } ; pointer: DT_TOK_MUL { $$ = dt_decl_ptr(); } | DT_TOK_MUL type_qualifier_list { $$ = dt_decl_ptr(); } | DT_TOK_MUL pointer { $$ = dt_decl_ptr(); } | DT_TOK_MUL type_qualifier_list pointer { $$ = dt_decl_ptr(); } ; type_qualifier_list: type_qualifier | type_qualifier_list type_qualifier { $$ = $2; } ; parameter_type_list: parameter_list | DT_TOK_ELLIPSIS { $$ = dt_node_vatype(); } | parameter_list DT_TOK_COMMA DT_TOK_ELLIPSIS { $$ = LINK($1, dt_node_vatype()); } ; parameter_list: parameter_declaration | parameter_list DT_TOK_COMMA parameter_declaration { $$ = LINK($1, $3); } ; parameter_declaration: parameter_declaration_specifiers { $$ = dt_node_type(NULL); } | parameter_declaration_specifiers declarator { $$ = dt_node_type(NULL); } | parameter_declaration_specifiers abstract_declarator { $$ = dt_node_type(NULL); } ; type_name: specifier_qualifier_list { $$ = dt_decl_pop(); } | specifier_qualifier_list abstract_declarator { $$ = dt_decl_pop(); } ; abstract_declarator: pointer | direct_abstract_declarator | pointer direct_abstract_declarator ; direct_abstract_declarator: lparen abstract_declarator DT_TOK_RPAR { $$ = $2; } | direct_abstract_declarator array { dt_decl_array($2); } | array { dt_decl_array($1); $$ = NULL; } | direct_abstract_declarator function { dt_decl_func($1, $2); } | function { dt_decl_func(NULL, $1); } ; array: DT_TOK_LBRAC { dt_scope_push(NULL, CTF_ERR); } array_parameters DT_TOK_RBRAC { dt_scope_pop(); $$ = $3; } ; array_parameters: /* empty */ { $$ = NULL; } | constant_expression { $$ = $1; } | parameter_type_list { $$ = $1; } ; function: DT_TOK_LPAR { dt_scope_push(NULL, CTF_ERR); } function_parameters DT_TOK_RPAR { dt_scope_pop(); $$ = $3; } ; function_parameters: /* empty */ { $$ = NULL; } | parameter_type_list { $$ = $1; } ; %%