%{ /* * ctf-parser.y * * Common Trace Format Metadata Grammar. * * Copyright 2010 - Mathieu Desnoyers * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. */ #include #include #include #include #include #include #include #include #include #include #include "ctf-scanner.h" #include "ctf-parser.h" #include "ctf-ast.h" int yydebug; /* * TODO: support enum, variant and struct declarations in scopes. */ /* Join two lists, put "add" at the end of "head". */ static inline void _cds_list_splice_tail (struct cds_list_head *add, struct cds_list_head *head) { /* Do nothing if the list which gets added is empty. */ if (add != add->next) { add->next->prev = head->prev; add->prev->next = head; head->prev->next = add->next; head->prev = add->prev; } } int yyparse(struct ctf_scanner *scanner); int yylex(union YYSTYPE *yyval, struct ctf_scanner *scanner); int yylex_init_extra(struct ctf_scanner *scanner, yyscan_t * ptr_yy_globals); int yylex_destroy(yyscan_t yyscanner); void yyrestart(FILE * in_str, yyscan_t scanner); int yydebug; struct gc_string { struct cds_list_head gc; size_t alloclen; char s[]; }; static const char *node_type_to_str[] = { [ NODE_UNKNOWN ] = "NODE_UNKNOWN", [ NODE_ROOT ] = "NODE_ROOT", [ NODE_EVENT ] = "NODE_EVENT", [ NODE_STREAM ] = "NODE_STREAM", [ NODE_TRACE ] = "NODE_TRACE", [ NODE_CTF_EXPRESSION ] = "NODE_CTF_EXPRESSION", [ NODE_UNARY_EXPRESSION ] = "NODE_UNARY_EXPRESSION", [ NODE_TYPEDEF ] = "NODE_TYPEDEF", [ NODE_TYPEALIAS_TARGET ] = "NODE_TYPEALIAS_TARGET", [ NODE_TYPEALIAS_ALIAS ] = "NODE_TYPEALIAS_ALIAS", [ NODE_TYPEALIAS ] = "NODE_TYPEALIAS", [ NODE_TYPE_SPECIFIER ] = "NODE_TYPE_SPECIFIER", [ NODE_TYPE_SPECIFIER_LIST ] = "NODE_TYPE_SPECIFIER_LIST", [ NODE_POINTER ] = "NODE_POINTER", [ NODE_TYPE_DECLARATOR ] = "NODE_TYPE_DECLARATOR", [ NODE_FLOATING_POINT ] = "NODE_FLOATING_POINT", [ NODE_INTEGER ] = "NODE_INTEGER", [ NODE_STRING ] = "NODE_STRING", [ NODE_ENUMERATOR ] = "NODE_ENUMERATOR", [ NODE_ENUM ] = "NODE_ENUM", [ NODE_STRUCT_OR_VARIANT_DECLARATION ] = "NODE_STRUCT_OR_VARIANT_DECLARATION", [ NODE_VARIANT ] = "NODE_VARIANT", [ NODE_STRUCT ] = "NODE_STRUCT", }; const char *node_type(struct ctf_node *node) { if (node->type < NR_NODE_TYPES) return node_type_to_str[node->type]; else return NULL; } static struct gc_string *gc_string_alloc(struct ctf_scanner *scanner, size_t len) { struct gc_string *gstr; size_t alloclen; /* TODO: could be faster with find first bit or glib Gstring */ /* sizeof long to account for malloc header (int or long ?) */ for (alloclen = 8; alloclen < sizeof(long) + sizeof(*gstr) + len; alloclen *= 2); gstr = malloc(alloclen); cds_list_add(&gstr->gc, &scanner->allocated_strings); gstr->alloclen = alloclen; return gstr; } /* * note: never use gc_string_append on a string that has external references. * gsrc will be garbage collected immediately, and gstr might be. * Should only be used to append characters to a string literal or constant. */ struct gc_string *gc_string_append(struct ctf_scanner *scanner, struct gc_string *gstr, struct gc_string *gsrc) { size_t newlen = strlen(gsrc->s) + strlen(gstr->s) + 1; size_t alloclen; /* TODO: could be faster with find first bit or glib Gstring */ /* sizeof long to account for malloc header (int or long ?) */ for (alloclen = 8; alloclen < sizeof(long) + sizeof(*gstr) + newlen; alloclen *= 2); if (alloclen > gstr->alloclen) { struct gc_string *newgstr; newgstr = gc_string_alloc(scanner, newlen); strcpy(newgstr->s, gstr->s); strcat(newgstr->s, gsrc->s); cds_list_del(&gstr->gc); free(gstr); gstr = newgstr; } else { strcat(gstr->s, gsrc->s); } cds_list_del(&gsrc->gc); free(gsrc); return gstr; } void setstring(struct ctf_scanner *scanner, YYSTYPE *lvalp, const char *src) { lvalp->gs = gc_string_alloc(scanner, strlen(src) + 1); strcpy(lvalp->gs->s, src); } static void init_scope(struct ctf_scanner_scope *scope, struct ctf_scanner_scope *parent) { scope->parent = parent; scope->types = g_hash_table_new_full(g_str_hash, g_str_equal, NULL, NULL); } static void finalize_scope(struct ctf_scanner_scope *scope) { g_hash_table_destroy(scope->types); } static void push_scope(struct ctf_scanner *scanner) { struct ctf_scanner_scope *ns; printf_debug("push scope\n"); ns = malloc(sizeof(struct ctf_scanner_scope)); init_scope(ns, scanner->cs); scanner->cs = ns; } static void pop_scope(struct ctf_scanner *scanner) { struct ctf_scanner_scope *os; printf_debug("pop scope\n"); os = scanner->cs; scanner->cs = os->parent; finalize_scope(os); free(os); } static int lookup_type(struct ctf_scanner_scope *s, const char *id) { int ret; ret = (int) (long) g_hash_table_lookup(s->types, id); printf_debug("lookup %p %s %d\n", s, id, ret); return ret; } int is_type(struct ctf_scanner *scanner, const char *id) { struct ctf_scanner_scope *it; int ret = 0; for (it = scanner->cs; it != NULL; it = it->parent) { if (lookup_type(it, id)) { ret = 1; break; } } printf_debug("is type %s %d\n", id, ret); return ret; } static void add_type(struct ctf_scanner *scanner, struct gc_string *id) { printf_debug("add type %s\n", id->s); if (lookup_type(scanner->cs, id->s)) return; g_hash_table_insert(scanner->cs->types, id->s, id->s); } static struct ctf_node *make_node(struct ctf_scanner *scanner, enum node_type type) { struct ctf_ast *ast = ctf_scanner_get_ast(scanner); struct ctf_node *node; node = malloc(sizeof(*node)); if (!node) return NULL; memset(node, 0, sizeof(*node)); node->type = type; CDS_INIT_LIST_HEAD(&node->tmp_head); cds_list_add(&node->gc, &ast->allocated_nodes); cds_list_add(&node->siblings, &node->tmp_head); switch (type) { case NODE_ROOT: fprintf(stderr, "[error] %s: trying to create root node\n", __func__); break; case NODE_EVENT: CDS_INIT_LIST_HEAD(&node->u.event.declaration_list); break; case NODE_STREAM: CDS_INIT_LIST_HEAD(&node->u.stream.declaration_list); break; case NODE_TRACE: CDS_INIT_LIST_HEAD(&node->u.trace.declaration_list); break; case NODE_CTF_EXPRESSION: CDS_INIT_LIST_HEAD(&node->u.ctf_expression.left); CDS_INIT_LIST_HEAD(&node->u.ctf_expression.right); break; case NODE_UNARY_EXPRESSION: break; case NODE_TYPEDEF: CDS_INIT_LIST_HEAD(&node->u._typedef.type_declarators); break; case NODE_TYPEALIAS_TARGET: CDS_INIT_LIST_HEAD(&node->u.typealias_target.type_declarators); break; case NODE_TYPEALIAS_ALIAS: CDS_INIT_LIST_HEAD(&node->u.typealias_alias.type_declarators); break; case NODE_TYPEALIAS: break; case NODE_TYPE_SPECIFIER: break; case NODE_TYPE_SPECIFIER_LIST: CDS_INIT_LIST_HEAD(&node->u.type_specifier_list.head); break; case NODE_POINTER: break; case NODE_TYPE_DECLARATOR: CDS_INIT_LIST_HEAD(&node->u.type_declarator.pointers); break; case NODE_FLOATING_POINT: CDS_INIT_LIST_HEAD(&node->u.floating_point.expressions); break; case NODE_INTEGER: CDS_INIT_LIST_HEAD(&node->u.integer.expressions); break; case NODE_STRING: CDS_INIT_LIST_HEAD(&node->u.string.expressions); break; case NODE_ENUMERATOR: CDS_INIT_LIST_HEAD(&node->u.enumerator.values); break; case NODE_ENUM: CDS_INIT_LIST_HEAD(&node->u._enum.enumerator_list); break; case NODE_STRUCT_OR_VARIANT_DECLARATION: CDS_INIT_LIST_HEAD(&node->u.struct_or_variant_declaration.type_declarators); break; case NODE_VARIANT: CDS_INIT_LIST_HEAD(&node->u.variant.declaration_list); break; case NODE_STRUCT: CDS_INIT_LIST_HEAD(&node->u._struct.declaration_list); CDS_INIT_LIST_HEAD(&node->u._struct.min_align); break; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) type); break; } return node; } static int reparent_ctf_expression(struct ctf_node *node, struct ctf_node *parent) { switch (parent->type) { case NODE_EVENT: _cds_list_splice_tail(&node->tmp_head, &parent->u.event.declaration_list); break; case NODE_STREAM: _cds_list_splice_tail(&node->tmp_head, &parent->u.stream.declaration_list); break; case NODE_TRACE: _cds_list_splice_tail(&node->tmp_head, &parent->u.trace.declaration_list); break; case NODE_FLOATING_POINT: _cds_list_splice_tail(&node->tmp_head, &parent->u.floating_point.expressions); break; case NODE_INTEGER: _cds_list_splice_tail(&node->tmp_head, &parent->u.integer.expressions); break; case NODE_STRING: _cds_list_splice_tail(&node->tmp_head, &parent->u.string.expressions); break; case NODE_ROOT: case NODE_CTF_EXPRESSION: case NODE_TYPEDEF: case NODE_TYPEALIAS_TARGET: case NODE_TYPEALIAS_ALIAS: case NODE_TYPEALIAS: case NODE_TYPE_SPECIFIER: case NODE_TYPE_SPECIFIER_LIST: case NODE_POINTER: case NODE_TYPE_DECLARATOR: case NODE_ENUMERATOR: case NODE_ENUM: case NODE_STRUCT_OR_VARIANT_DECLARATION: case NODE_VARIANT: case NODE_STRUCT: case NODE_UNARY_EXPRESSION: return -EPERM; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } static int reparent_typedef(struct ctf_node *node, struct ctf_node *parent) { switch (parent->type) { case NODE_ROOT: _cds_list_splice_tail(&node->tmp_head, &parent->u.root.declaration_list); break; case NODE_EVENT: _cds_list_splice_tail(&node->tmp_head, &parent->u.event.declaration_list); break; case NODE_STREAM: _cds_list_splice_tail(&node->tmp_head, &parent->u.stream.declaration_list); break; case NODE_TRACE: _cds_list_splice_tail(&node->tmp_head, &parent->u.trace.declaration_list); break; case NODE_VARIANT: _cds_list_splice_tail(&node->tmp_head, &parent->u.variant.declaration_list); break; case NODE_STRUCT: _cds_list_splice_tail(&node->tmp_head, &parent->u._struct.declaration_list); break; case NODE_FLOATING_POINT: case NODE_INTEGER: case NODE_STRING: case NODE_CTF_EXPRESSION: case NODE_TYPEDEF: case NODE_TYPEALIAS_TARGET: case NODE_TYPEALIAS_ALIAS: case NODE_TYPEALIAS: case NODE_TYPE_SPECIFIER: case NODE_TYPE_SPECIFIER_LIST: case NODE_POINTER: case NODE_TYPE_DECLARATOR: case NODE_ENUMERATOR: case NODE_ENUM: case NODE_STRUCT_OR_VARIANT_DECLARATION: case NODE_UNARY_EXPRESSION: return -EPERM; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } static int reparent_typealias(struct ctf_node *node, struct ctf_node *parent) { switch (parent->type) { case NODE_ROOT: _cds_list_splice_tail(&node->tmp_head, &parent->u.root.declaration_list); break; case NODE_EVENT: _cds_list_splice_tail(&node->tmp_head, &parent->u.event.declaration_list); break; case NODE_STREAM: _cds_list_splice_tail(&node->tmp_head, &parent->u.stream.declaration_list); break; case NODE_TRACE: _cds_list_splice_tail(&node->tmp_head, &parent->u.trace.declaration_list); break; case NODE_VARIANT: _cds_list_splice_tail(&node->tmp_head, &parent->u.variant.declaration_list); break; case NODE_STRUCT: _cds_list_splice_tail(&node->tmp_head, &parent->u._struct.declaration_list); break; case NODE_FLOATING_POINT: case NODE_INTEGER: case NODE_STRING: case NODE_CTF_EXPRESSION: case NODE_TYPEDEF: case NODE_TYPEALIAS_TARGET: case NODE_TYPEALIAS_ALIAS: case NODE_TYPEALIAS: case NODE_TYPE_SPECIFIER: case NODE_TYPE_SPECIFIER_LIST: case NODE_POINTER: case NODE_TYPE_DECLARATOR: case NODE_ENUMERATOR: case NODE_ENUM: case NODE_STRUCT_OR_VARIANT_DECLARATION: case NODE_UNARY_EXPRESSION: return -EPERM; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } static int reparent_type_specifier(struct ctf_node *node, struct ctf_node *parent) { switch (parent->type) { case NODE_TYPE_SPECIFIER_LIST: _cds_list_splice_tail(&node->tmp_head, &parent->u.type_specifier_list.head); break; case NODE_TYPE_SPECIFIER: case NODE_EVENT: case NODE_STREAM: case NODE_TRACE: case NODE_VARIANT: case NODE_STRUCT: case NODE_TYPEDEF: case NODE_TYPEALIAS_TARGET: case NODE_TYPEALIAS_ALIAS: case NODE_TYPE_DECLARATOR: case NODE_ENUM: case NODE_STRUCT_OR_VARIANT_DECLARATION: case NODE_TYPEALIAS: case NODE_FLOATING_POINT: case NODE_INTEGER: case NODE_STRING: case NODE_CTF_EXPRESSION: case NODE_POINTER: case NODE_ENUMERATOR: case NODE_UNARY_EXPRESSION: return -EPERM; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } static int reparent_type_specifier_list(struct ctf_node *node, struct ctf_node *parent) { switch (parent->type) { case NODE_ROOT: cds_list_add_tail(&node->siblings, &parent->u.root.declaration_list); break; case NODE_EVENT: cds_list_add_tail(&node->siblings, &parent->u.event.declaration_list); break; case NODE_STREAM: cds_list_add_tail(&node->siblings, &parent->u.stream.declaration_list); break; case NODE_TRACE: cds_list_add_tail(&node->siblings, &parent->u.trace.declaration_list); break; case NODE_VARIANT: cds_list_add_tail(&node->siblings, &parent->u.variant.declaration_list); break; case NODE_STRUCT: cds_list_add_tail(&node->siblings, &parent->u._struct.declaration_list); break; case NODE_TYPEDEF: parent->u._typedef.type_specifier_list = node; break; case NODE_TYPEALIAS_TARGET: parent->u.typealias_target.type_specifier_list = node; break; case NODE_TYPEALIAS_ALIAS: parent->u.typealias_alias.type_specifier_list = node; break; case NODE_ENUM: parent->u._enum.container_type = node; break; case NODE_STRUCT_OR_VARIANT_DECLARATION: parent->u.struct_or_variant_declaration.type_specifier_list = node; break; case NODE_TYPE_DECLARATOR: case NODE_TYPE_SPECIFIER: case NODE_TYPEALIAS: case NODE_FLOATING_POINT: case NODE_INTEGER: case NODE_STRING: case NODE_CTF_EXPRESSION: case NODE_POINTER: case NODE_ENUMERATOR: case NODE_UNARY_EXPRESSION: return -EPERM; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } static int reparent_type_declarator(struct ctf_node *node, struct ctf_node *parent) { switch (parent->type) { case NODE_TYPE_DECLARATOR: parent->u.type_declarator.type = TYPEDEC_NESTED; parent->u.type_declarator.u.nested.type_declarator = node; break; case NODE_STRUCT_OR_VARIANT_DECLARATION: _cds_list_splice_tail(&node->tmp_head, &parent->u.struct_or_variant_declaration.type_declarators); break; case NODE_TYPEDEF: _cds_list_splice_tail(&node->tmp_head, &parent->u._typedef.type_declarators); break; case NODE_TYPEALIAS_TARGET: _cds_list_splice_tail(&node->tmp_head, &parent->u.typealias_target.type_declarators); break; case NODE_TYPEALIAS_ALIAS: _cds_list_splice_tail(&node->tmp_head, &parent->u.typealias_alias.type_declarators); break; case NODE_ROOT: case NODE_EVENT: case NODE_STREAM: case NODE_TRACE: case NODE_VARIANT: case NODE_STRUCT: case NODE_TYPEALIAS: case NODE_ENUM: case NODE_FLOATING_POINT: case NODE_INTEGER: case NODE_STRING: case NODE_CTF_EXPRESSION: case NODE_TYPE_SPECIFIER: case NODE_TYPE_SPECIFIER_LIST: case NODE_POINTER: case NODE_ENUMERATOR: case NODE_UNARY_EXPRESSION: return -EPERM; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } /* * set_parent_node * * Link node to parent. Returns 0 on success, -EPERM if it is not permitted to * create the link declared by the input, -ENOENT if node or parent is NULL, * -EINVAL if there is an internal structure problem. */ static int set_parent_node(struct ctf_node *node, struct ctf_node *parent) { if (!node || !parent) return -ENOENT; /* Note: Linking to parent will be done only by an external visitor */ switch (node->type) { case NODE_ROOT: fprintf(stderr, "[error] %s: trying to reparent root node\n", __func__); return -EINVAL; case NODE_EVENT: if (parent->type == NODE_ROOT) { _cds_list_splice_tail(&node->tmp_head, &parent->u.root.event); } else { return -EPERM; } break; case NODE_STREAM: if (parent->type == NODE_ROOT) { _cds_list_splice_tail(&node->tmp_head, &parent->u.root.stream); } else { return -EPERM; } break; case NODE_TRACE: if (parent->type == NODE_ROOT) { _cds_list_splice_tail(&node->tmp_head, &parent->u.root.trace); } else { return -EPERM; } break; case NODE_CTF_EXPRESSION: return reparent_ctf_expression(node, parent); case NODE_UNARY_EXPRESSION: if (parent->type == NODE_TYPE_DECLARATOR) parent->u.type_declarator.bitfield_len = node; else return -EPERM; break; case NODE_TYPEDEF: return reparent_typedef(node, parent); case NODE_TYPEALIAS_TARGET: if (parent->type == NODE_TYPEALIAS) parent->u.typealias.target = node; else return -EINVAL; case NODE_TYPEALIAS_ALIAS: if (parent->type == NODE_TYPEALIAS) parent->u.typealias.alias = node; else return -EINVAL; case NODE_TYPEALIAS: return reparent_typealias(node, parent); case NODE_POINTER: if (parent->type == NODE_TYPE_DECLARATOR) { _cds_list_splice_tail(&node->tmp_head, &parent->u.type_declarator.pointers); } else return -EPERM; break; case NODE_TYPE_DECLARATOR: return reparent_type_declarator(node, parent); case NODE_TYPE_SPECIFIER_LIST: return reparent_type_specifier_list(node, parent); case NODE_TYPE_SPECIFIER: return reparent_type_specifier(node, parent); case NODE_FLOATING_POINT: case NODE_INTEGER: case NODE_STRING: case NODE_ENUM: case NODE_VARIANT: case NODE_STRUCT: return -EINVAL; /* Dealt with internally within grammar */ case NODE_ENUMERATOR: if (parent->type == NODE_ENUM) { _cds_list_splice_tail(&node->tmp_head, &parent->u._enum.enumerator_list); } else { return -EPERM; } break; case NODE_STRUCT_OR_VARIANT_DECLARATION: switch (parent->type) { case NODE_STRUCT: _cds_list_splice_tail(&node->tmp_head, &parent->u._struct.declaration_list); break; case NODE_VARIANT: _cds_list_splice_tail(&node->tmp_head, &parent->u.variant.declaration_list); break; default: return -EINVAL; } break; case NODE_UNKNOWN: default: fprintf(stderr, "[error] %s: unknown node type %d\n", __func__, (int) parent->type); return -EINVAL; } return 0; } void yyerror(struct ctf_scanner *scanner, const char *str) { fprintf(stderr, "error %s\n", str); } int yywrap(void) { return 1; } #define reparent_error(scanner, str) \ do { \ yyerror(scanner, YY_("reparent_error: " str "\n")); \ YYERROR; \ } while (0) static void free_strings(struct cds_list_head *list) { struct gc_string *gstr, *tmp; cds_list_for_each_entry_safe(gstr, tmp, list, gc) free(gstr); } static struct ctf_ast *ctf_ast_alloc(void) { struct ctf_ast *ast; ast = malloc(sizeof(*ast)); if (!ast) return NULL; memset(ast, 0, sizeof(*ast)); CDS_INIT_LIST_HEAD(&ast->allocated_nodes); ast->root.type = NODE_ROOT; CDS_INIT_LIST_HEAD(&ast->root.tmp_head); CDS_INIT_LIST_HEAD(&ast->root.u.root.declaration_list); CDS_INIT_LIST_HEAD(&ast->root.u.root.trace); CDS_INIT_LIST_HEAD(&ast->root.u.root.stream); CDS_INIT_LIST_HEAD(&ast->root.u.root.event); return ast; } static void ctf_ast_free(struct ctf_ast *ast) { struct ctf_node *node, *tmp; cds_list_for_each_entry_safe(node, tmp, &ast->allocated_nodes, gc) free(node); } int ctf_scanner_append_ast(struct ctf_scanner *scanner) { return yyparse(scanner); } struct ctf_scanner *ctf_scanner_alloc(FILE *input) { struct ctf_scanner *scanner; int ret; yydebug = babeltrace_debug; scanner = malloc(sizeof(*scanner)); if (!scanner) return NULL; memset(scanner, 0, sizeof(*scanner)); ret = yylex_init_extra(scanner, &scanner->scanner); if (ret) { fprintf(stderr, "yylex_init error\n"); goto cleanup_scanner; } /* Start processing new stream */ yyrestart(input, scanner->scanner); scanner->ast = ctf_ast_alloc(); if (!scanner->ast) goto cleanup_lexer; init_scope(&scanner->root_scope, NULL); scanner->cs = &scanner->root_scope; CDS_INIT_LIST_HEAD(&scanner->allocated_strings); if (yydebug) fprintf(stdout, "Scanner input is a%s.\n", isatty(fileno(input)) ? "n interactive tty" : " noninteractive file"); return scanner; cleanup_lexer: ret = yylex_destroy(scanner->scanner); if (!ret) fprintf(stderr, "yylex_destroy error\n"); cleanup_scanner: free(scanner); return NULL; } void ctf_scanner_free(struct ctf_scanner *scanner) { int ret; finalize_scope(&scanner->root_scope); free_strings(&scanner->allocated_strings); ctf_ast_free(scanner->ast); ret = yylex_destroy(scanner->scanner); if (ret) fprintf(stderr, "yylex_destroy error\n"); free(scanner); } %} %define api.pure /* %locations */ %parse-param {struct ctf_scanner *scanner} %lex-param {struct ctf_scanner *scanner} /* * Expect two shift-reduce conflicts. Caused by enum name-opt : type {} * vs struct { int :value; } (unnamed bit-field). The default is to * shift, so whenever we encounter an enumeration, we are doing the * proper thing (shift). It is illegal to declare an enumeration * "bit-field", so it is OK if this situation ends up in a parsing * error. */ %expect 2 %start file %token CHARACTER_CONSTANT_START SQUOTE STRING_LITERAL_START DQUOTE ESCSEQ CHAR_STRING_TOKEN LSBRAC RSBRAC LPAREN RPAREN LBRAC RBRAC RARROW STAR PLUS MINUS LT GT TYPEASSIGN COLON SEMICOLON DOTDOTDOT DOT EQUAL COMMA CONST CHAR DOUBLE ENUM EVENT FLOATING_POINT FLOAT INTEGER INT LONG SHORT SIGNED STREAM STRING STRUCT TRACE TYPEALIAS TYPEDEF UNSIGNED VARIANT VOID _BOOL _COMPLEX _IMAGINARY DECIMAL_CONSTANT OCTAL_CONSTANT HEXADECIMAL_CONSTANT TOK_ALIGN %token IDENTIFIER ID_TYPE %token ERROR %union { long long ll; char c; struct gc_string *gs; struct ctf_node *n; } %type keywords %type s_char s_char_sequence c_char c_char_sequence %type postfix_expression unary_expression unary_expression_or_range %type declaration %type event_declaration %type stream_declaration %type trace_declaration %type integer_declaration_specifiers %type declaration_specifiers %type alias_declaration_specifiers %type type_declarator_list %type integer_type_specifier %type type_specifier %type struct_type_specifier %type variant_type_specifier %type enum_type_specifier %type struct_or_variant_declaration_list %type struct_or_variant_declaration %type struct_or_variant_declarator_list %type struct_or_variant_declarator %type enumerator_list %type enumerator %type abstract_declarator_list %type abstract_declarator %type direct_abstract_declarator %type alias_abstract_declarator_list %type alias_abstract_declarator %type direct_alias_abstract_declarator %type declarator %type direct_declarator %type type_declarator %type direct_type_declarator %type pointer %type ctf_assignment_expression_list %type ctf_assignment_expression %% file: declaration { if (set_parent_node($1, &ctf_scanner_get_ast(scanner)->root)) reparent_error(scanner, "error reparenting to root"); } | file declaration { if (set_parent_node($2, &ctf_scanner_get_ast(scanner)->root)) reparent_error(scanner, "error reparenting to root"); } ; keywords: VOID { $$ = yylval.gs; } | CHAR { $$ = yylval.gs; } | SHORT { $$ = yylval.gs; } | INT { $$ = yylval.gs; } | LONG { $$ = yylval.gs; } | FLOAT { $$ = yylval.gs; } | DOUBLE { $$ = yylval.gs; } | SIGNED { $$ = yylval.gs; } | UNSIGNED { $$ = yylval.gs; } | _BOOL { $$ = yylval.gs; } | _COMPLEX { $$ = yylval.gs; } | _IMAGINARY { $$ = yylval.gs; } | FLOATING_POINT { $$ = yylval.gs; } | INTEGER { $$ = yylval.gs; } | STRING { $$ = yylval.gs; } | ENUM { $$ = yylval.gs; } | VARIANT { $$ = yylval.gs; } | STRUCT { $$ = yylval.gs; } | CONST { $$ = yylval.gs; } | TYPEDEF { $$ = yylval.gs; } | EVENT { $$ = yylval.gs; } | STREAM { $$ = yylval.gs; } | TRACE { $$ = yylval.gs; } | TOK_ALIGN { $$ = yylval.gs; } ; /* 1.5 Constants */ c_char_sequence: c_char { $$ = $1; } | c_char_sequence c_char { $$ = gc_string_append(scanner, $1, $2); } ; c_char: CHAR_STRING_TOKEN { $$ = yylval.gs; } | ESCSEQ { reparent_error(scanner, "escape sequences not supported yet"); } ; /* 1.6 String literals */ s_char_sequence: s_char { $$ = $1; } | s_char_sequence s_char { $$ = gc_string_append(scanner, $1, $2); } ; s_char: CHAR_STRING_TOKEN { $$ = yylval.gs; } | ESCSEQ { reparent_error(scanner, "escape sequences not supported yet"); } ; /* 2: Phrase structure grammar */ postfix_expression: IDENTIFIER { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; } | ID_TYPE { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; } | keywords { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; } | DECIMAL_CONSTANT { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_UNSIGNED_CONSTANT; sscanf(yylval.gs->s, "%" PRIu64, &$$->u.unary_expression.u.unsigned_constant); } | OCTAL_CONSTANT { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_UNSIGNED_CONSTANT; sscanf(yylval.gs->s, "0%" PRIo64, &$$->u.unary_expression.u.unsigned_constant); } | HEXADECIMAL_CONSTANT { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_UNSIGNED_CONSTANT; sscanf(yylval.gs->s, "0x%" PRIx64, &$$->u.unary_expression.u.unsigned_constant); } | STRING_LITERAL_START DQUOTE { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = ""; } | STRING_LITERAL_START s_char_sequence DQUOTE { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = $2->s; } | CHARACTER_CONSTANT_START c_char_sequence SQUOTE { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = $2->s; } | LPAREN unary_expression RPAREN { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_NESTED; $$->u.unary_expression.u.nested_exp = $2; } | postfix_expression LSBRAC unary_expression RSBRAC { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_SBRAC; $$->u.unary_expression.u.sbrac_exp = $3; cds_list_splice(&($1)->tmp_head, &($$)->tmp_head); cds_list_add_tail(&($$)->siblings, &($$)->tmp_head); } | postfix_expression DOT IDENTIFIER { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; $$->u.unary_expression.link = UNARY_DOTLINK; cds_list_splice(&($1)->tmp_head, &($$)->tmp_head); cds_list_add_tail(&($$)->siblings, &($$)->tmp_head); } | postfix_expression DOT ID_TYPE { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; $$->u.unary_expression.link = UNARY_DOTLINK; cds_list_splice(&($1)->tmp_head, &($$)->tmp_head); cds_list_add_tail(&($$)->siblings, &($$)->tmp_head); } | postfix_expression RARROW IDENTIFIER { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; $$->u.unary_expression.link = UNARY_ARROWLINK; cds_list_splice(&($1)->tmp_head, &($$)->tmp_head); cds_list_add_tail(&($$)->siblings, &($$)->tmp_head); } | postfix_expression RARROW ID_TYPE { $$ = make_node(scanner, NODE_UNARY_EXPRESSION); $$->u.unary_expression.type = UNARY_STRING; $$->u.unary_expression.u.string = yylval.gs->s; $$->u.unary_expression.link = UNARY_ARROWLINK; cds_list_splice(&($1)->tmp_head, &($$)->tmp_head); cds_list_add_tail(&($$)->siblings, &($$)->tmp_head); } ; unary_expression: postfix_expression { $$ = $1; } | PLUS postfix_expression { $$ = $2; } | MINUS postfix_expression { $$ = $2; if ($$->u.unary_expression.type != UNARY_SIGNED_CONSTANT && $$->u.unary_expression.type != UNARY_UNSIGNED_CONSTANT) reparent_error(scanner, "expecting numeric constant"); if ($$->u.unary_expression.type == UNARY_UNSIGNED_CONSTANT) { $$->u.unary_expression.type = UNARY_SIGNED_CONSTANT; $$->u.unary_expression.u.signed_constant = -($$->u.unary_expression.u.unsigned_constant); } else { $$->u.unary_expression.u.signed_constant = -($$->u.unary_expression.u.signed_constant); } } ; unary_expression_or_range: unary_expression DOTDOTDOT unary_expression { $$ = $1; _cds_list_splice_tail(&($3)->tmp_head, &($$)->tmp_head); $3->u.unary_expression.link = UNARY_DOTDOTDOT; } | unary_expression { $$ = $1; } ; /* 2.2: Declarations */ declaration: declaration_specifiers SEMICOLON { $$ = $1; } | event_declaration { $$ = $1; } | stream_declaration { $$ = $1; } | trace_declaration { $$ = $1; } | declaration_specifiers TYPEDEF declaration_specifiers type_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEDEF); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u._typedef.type_specifier_list = list; _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($4)->tmp_head, &($$)->u._typedef.type_declarators); } | TYPEDEF declaration_specifiers type_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEDEF); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u._typedef.type_specifier_list = list; _cds_list_splice_tail(&($2)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._typedef.type_declarators); } | declaration_specifiers TYPEDEF type_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEDEF); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u._typedef.type_specifier_list = list; _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._typedef.type_declarators); } | TYPEALIAS declaration_specifiers abstract_declarator_list TYPEASSIGN alias_declaration_specifiers alias_abstract_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEALIAS); $$->u.typealias.target = make_node(scanner, NODE_TYPEALIAS_TARGET); $$->u.typealias.alias = make_node(scanner, NODE_TYPEALIAS_ALIAS); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u.typealias.target->u.typealias_target.type_specifier_list = list; _cds_list_splice_tail(&($2)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.typealias.target->u.typealias_target.type_declarators); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u.typealias.alias->u.typealias_alias.type_specifier_list = list; _cds_list_splice_tail(&($5)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($6)->tmp_head, &($$)->u.typealias.alias->u.typealias_alias.type_declarators); } ; event_declaration: event_declaration_begin event_declaration_end { $$ = make_node(scanner, NODE_EVENT); } | event_declaration_begin ctf_assignment_expression_list event_declaration_end { $$ = make_node(scanner, NODE_EVENT); if (set_parent_node($2, $$)) reparent_error(scanner, "event_declaration"); } ; event_declaration_begin: EVENT LBRAC { push_scope(scanner); } ; event_declaration_end: RBRAC SEMICOLON { pop_scope(scanner); } ; stream_declaration: stream_declaration_begin stream_declaration_end { $$ = make_node(scanner, NODE_STREAM); } | stream_declaration_begin ctf_assignment_expression_list stream_declaration_end { $$ = make_node(scanner, NODE_STREAM); if (set_parent_node($2, $$)) reparent_error(scanner, "stream_declaration"); } ; stream_declaration_begin: STREAM LBRAC { push_scope(scanner); } ; stream_declaration_end: RBRAC SEMICOLON { pop_scope(scanner); } ; trace_declaration: trace_declaration_begin trace_declaration_end { $$ = make_node(scanner, NODE_TRACE); } | trace_declaration_begin ctf_assignment_expression_list trace_declaration_end { $$ = make_node(scanner, NODE_TRACE); if (set_parent_node($2, $$)) reparent_error(scanner, "trace_declaration"); } ; trace_declaration_begin: TRACE LBRAC { push_scope(scanner); } ; trace_declaration_end: RBRAC SEMICOLON { pop_scope(scanner); } ; integer_declaration_specifiers: CONST { struct ctf_node *node; $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_CONST; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | integer_type_specifier { struct ctf_node *node; $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = $1; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | integer_declaration_specifiers CONST { struct ctf_node *node; $$ = $1; node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_CONST; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | integer_declaration_specifiers integer_type_specifier { $$ = $1; cds_list_add_tail(&($2)->siblings, &($$)->u.type_specifier_list.head); } ; declaration_specifiers: CONST { struct ctf_node *node; $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_CONST; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | type_specifier { struct ctf_node *node; $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = $1; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | declaration_specifiers CONST { struct ctf_node *node; $$ = $1; node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_CONST; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | declaration_specifiers type_specifier { $$ = $1; cds_list_add_tail(&($2)->siblings, &($$)->u.type_specifier_list.head); } ; type_declarator_list: type_declarator { $$ = $1; } | type_declarator_list COMMA type_declarator { $$ = $1; cds_list_add_tail(&($3)->siblings, &($$)->tmp_head); } ; integer_type_specifier: CHAR { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_CHAR; } | SHORT { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_SHORT; } | INT { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_INT; } | LONG { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_LONG; } | SIGNED { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_SIGNED; } | UNSIGNED { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_UNSIGNED; } | _BOOL { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_BOOL; } | ID_TYPE { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_ID_TYPE; $$->u.type_specifier.id_type = yylval.gs->s; } | INTEGER LBRAC RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_INTEGER; $$->u.type_specifier.node = make_node(scanner, NODE_INTEGER); } | INTEGER LBRAC ctf_assignment_expression_list RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_INTEGER; $$->u.type_specifier.node = make_node(scanner, NODE_INTEGER); if (set_parent_node($3, $$->u.type_specifier.node)) reparent_error(scanner, "integer reparent error"); } ; type_specifier: VOID { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_VOID; } | CHAR { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_CHAR; } | SHORT { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_SHORT; } | INT { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_INT; } | LONG { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_LONG; } | FLOAT { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_FLOAT; } | DOUBLE { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_DOUBLE; } | SIGNED { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_SIGNED; } | UNSIGNED { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_UNSIGNED; } | _BOOL { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_BOOL; } | _COMPLEX { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_COMPLEX; } | _IMAGINARY { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_IMAGINARY; } | ID_TYPE { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_ID_TYPE; $$->u.type_specifier.id_type = yylval.gs->s; } | FLOATING_POINT LBRAC RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_FLOATING_POINT; $$->u.type_specifier.node = make_node(scanner, NODE_FLOATING_POINT); } | FLOATING_POINT LBRAC ctf_assignment_expression_list RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_FLOATING_POINT; $$->u.type_specifier.node = make_node(scanner, NODE_FLOATING_POINT); if (set_parent_node($3, $$->u.type_specifier.node)) reparent_error(scanner, "floating point reparent error"); } | INTEGER LBRAC RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_INTEGER; $$->u.type_specifier.node = make_node(scanner, NODE_INTEGER); } | INTEGER LBRAC ctf_assignment_expression_list RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_INTEGER; $$->u.type_specifier.node = make_node(scanner, NODE_INTEGER); if (set_parent_node($3, $$->u.type_specifier.node)) reparent_error(scanner, "integer reparent error"); } | STRING { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_STRING; $$->u.type_specifier.node = make_node(scanner, NODE_STRING); } | STRING LBRAC RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_STRING; $$->u.type_specifier.node = make_node(scanner, NODE_STRING); } | STRING LBRAC ctf_assignment_expression_list RBRAC { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_STRING; $$->u.type_specifier.node = make_node(scanner, NODE_STRING); if (set_parent_node($3, $$->u.type_specifier.node)) reparent_error(scanner, "string reparent error"); } | ENUM enum_type_specifier { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_ENUM; $$->u.type_specifier.node = $2; } | VARIANT variant_type_specifier { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_VARIANT; $$->u.type_specifier.node = $2; } | STRUCT struct_type_specifier { $$ = make_node(scanner, NODE_TYPE_SPECIFIER); $$->u.type_specifier.type = TYPESPEC_STRUCT; $$->u.type_specifier.node = $2; } ; struct_type_specifier: struct_declaration_begin struct_or_variant_declaration_list struct_declaration_end { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 1; if ($2 && set_parent_node($2, $$)) reparent_error(scanner, "struct reparent error"); } | IDENTIFIER struct_declaration_begin struct_or_variant_declaration_list struct_declaration_end { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 1; $$->u._struct.name = $1->s; if ($3 && set_parent_node($3, $$)) reparent_error(scanner, "struct reparent error"); } | ID_TYPE struct_declaration_begin struct_or_variant_declaration_list struct_declaration_end { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 1; $$->u._struct.name = $1->s; if ($3 && set_parent_node($3, $$)) reparent_error(scanner, "struct reparent error"); } | IDENTIFIER { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 0; $$->u._struct.name = $1->s; } | ID_TYPE { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 0; $$->u._struct.name = $1->s; } | struct_declaration_begin struct_or_variant_declaration_list struct_declaration_end TOK_ALIGN LPAREN unary_expression RPAREN { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 1; cds_list_add_tail(&($6)->siblings, &$$->u._struct.min_align); if ($2 && set_parent_node($2, $$)) reparent_error(scanner, "struct reparent error"); } | IDENTIFIER struct_declaration_begin struct_or_variant_declaration_list struct_declaration_end TOK_ALIGN LPAREN unary_expression RPAREN { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 1; $$->u._struct.name = $1->s; cds_list_add_tail(&($7)->siblings, &$$->u._struct.min_align); if ($3 && set_parent_node($3, $$)) reparent_error(scanner, "struct reparent error"); } | ID_TYPE struct_declaration_begin struct_or_variant_declaration_list struct_declaration_end TOK_ALIGN LPAREN unary_expression RPAREN { $$ = make_node(scanner, NODE_STRUCT); $$->u._struct.has_body = 1; $$->u._struct.name = $1->s; cds_list_add_tail(&($7)->siblings, &$$->u._struct.min_align); if ($3 && set_parent_node($3, $$)) reparent_error(scanner, "struct reparent error"); } ; struct_declaration_begin: LBRAC { push_scope(scanner); } ; struct_declaration_end: RBRAC { pop_scope(scanner); } ; variant_type_specifier: variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; if ($2 && set_parent_node($2, $$)) reparent_error(scanner, "variant reparent error"); } | LT IDENTIFIER GT variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.choice = $2->s; if ($5 && set_parent_node($5, $$)) reparent_error(scanner, "variant reparent error"); } | LT ID_TYPE GT variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.choice = $2->s; if ($5 && set_parent_node($5, $$)) reparent_error(scanner, "variant reparent error"); } | IDENTIFIER variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.name = $1->s; if ($3 && set_parent_node($3, $$)) reparent_error(scanner, "variant reparent error"); } | IDENTIFIER LT IDENTIFIER GT variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; if ($6 && set_parent_node($6, $$)) reparent_error(scanner, "variant reparent error"); } | IDENTIFIER LT IDENTIFIER GT { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 0; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; } | IDENTIFIER LT ID_TYPE GT variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; if ($6 && set_parent_node($6, $$)) reparent_error(scanner, "variant reparent error"); } | IDENTIFIER LT ID_TYPE GT { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 0; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; } | ID_TYPE variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.name = $1->s; if ($3 && set_parent_node($3, $$)) reparent_error(scanner, "variant reparent error"); } | ID_TYPE LT IDENTIFIER GT variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; if ($6 && set_parent_node($6, $$)) reparent_error(scanner, "variant reparent error"); } | ID_TYPE LT IDENTIFIER GT { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 0; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; } | ID_TYPE LT ID_TYPE GT variant_declaration_begin struct_or_variant_declaration_list variant_declaration_end { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 1; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; if ($6 && set_parent_node($6, $$)) reparent_error(scanner, "variant reparent error"); } | ID_TYPE LT ID_TYPE GT { $$ = make_node(scanner, NODE_VARIANT); $$->u.variant.has_body = 0; $$->u.variant.name = $1->s; $$->u.variant.choice = $3->s; } ; variant_declaration_begin: LBRAC { push_scope(scanner); } ; variant_declaration_end: RBRAC { pop_scope(scanner); } ; enum_type_specifier: LBRAC enumerator_list RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; _cds_list_splice_tail(&($2)->tmp_head, &($$)->u._enum.enumerator_list); } | COLON integer_declaration_specifiers LBRAC enumerator_list RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; ($$)->u._enum.container_type = $2; _cds_list_splice_tail(&($4)->tmp_head, &($$)->u._enum.enumerator_list); } | IDENTIFIER LBRAC enumerator_list RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._enum.enumerator_list); } | IDENTIFIER COLON integer_declaration_specifiers LBRAC enumerator_list RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; ($$)->u._enum.container_type = $3; _cds_list_splice_tail(&($5)->tmp_head, &($$)->u._enum.enumerator_list); } | ID_TYPE LBRAC enumerator_list RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._enum.enumerator_list); } | ID_TYPE COLON integer_declaration_specifiers LBRAC enumerator_list RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; ($$)->u._enum.container_type = $3; _cds_list_splice_tail(&($5)->tmp_head, &($$)->u._enum.enumerator_list); } | LBRAC enumerator_list COMMA RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; _cds_list_splice_tail(&($2)->tmp_head, &($$)->u._enum.enumerator_list); } | COLON integer_declaration_specifiers LBRAC enumerator_list COMMA RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; ($$)->u._enum.container_type = $2; _cds_list_splice_tail(&($4)->tmp_head, &($$)->u._enum.enumerator_list); } | IDENTIFIER LBRAC enumerator_list COMMA RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._enum.enumerator_list); } | IDENTIFIER COLON integer_declaration_specifiers LBRAC enumerator_list COMMA RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; ($$)->u._enum.container_type = $3; _cds_list_splice_tail(&($5)->tmp_head, &($$)->u._enum.enumerator_list); } | IDENTIFIER { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 0; $$->u._enum.enum_id = $1->s; } | ID_TYPE LBRAC enumerator_list COMMA RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._enum.enumerator_list); } | ID_TYPE COLON integer_declaration_specifiers LBRAC enumerator_list COMMA RBRAC { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 1; $$->u._enum.enum_id = $1->s; ($$)->u._enum.container_type = $3; _cds_list_splice_tail(&($5)->tmp_head, &($$)->u._enum.enumerator_list); } | ID_TYPE { $$ = make_node(scanner, NODE_ENUM); $$->u._enum.has_body = 0; $$->u._enum.enum_id = $1->s; } ; struct_or_variant_declaration_list: /* empty */ { $$ = NULL; } | struct_or_variant_declaration_list struct_or_variant_declaration { if ($1) { $$ = $1; cds_list_add_tail(&($2)->siblings, &($$)->tmp_head); } else { $$ = $2; cds_list_add_tail(&($$)->siblings, &($$)->tmp_head); } } ; struct_or_variant_declaration: declaration_specifiers struct_or_variant_declarator_list SEMICOLON { struct ctf_node *list; list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); $$ = make_node(scanner, NODE_STRUCT_OR_VARIANT_DECLARATION); ($$)->u.struct_or_variant_declaration.type_specifier_list = list; _cds_list_splice_tail(&($2)->tmp_head, &($$)->u.struct_or_variant_declaration.type_declarators); } | declaration_specifiers TYPEDEF declaration_specifiers type_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEDEF); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u._typedef.type_specifier_list = list; _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($4)->tmp_head, &($$)->u._typedef.type_declarators); } | TYPEDEF declaration_specifiers type_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEDEF); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u._typedef.type_specifier_list = list; _cds_list_splice_tail(&($2)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._typedef.type_declarators); } | declaration_specifiers TYPEDEF type_declarator_list SEMICOLON { struct ctf_node *list; list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); $$ = make_node(scanner, NODE_TYPEDEF); ($$)->u.struct_or_variant_declaration.type_specifier_list = list; _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._typedef.type_declarators); } | TYPEALIAS declaration_specifiers abstract_declarator_list TYPEASSIGN alias_declaration_specifiers alias_abstract_declarator_list SEMICOLON { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEALIAS); $$->u.typealias.target = make_node(scanner, NODE_TYPEALIAS_TARGET); $$->u.typealias.alias = make_node(scanner, NODE_TYPEALIAS_ALIAS); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u.typealias.target->u.typealias_target.type_specifier_list = list; _cds_list_splice_tail(&($2)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.typealias.target->u.typealias_target.type_declarators); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u.typealias.alias->u.typealias_alias.type_specifier_list = list; _cds_list_splice_tail(&($5)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($6)->tmp_head, &($$)->u.typealias.alias->u.typealias_alias.type_declarators); } ; alias_declaration_specifiers: CONST { struct ctf_node *node; $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_CONST; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | type_specifier { struct ctf_node *node; $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = $1; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | IDENTIFIER { struct ctf_node *node; add_type(scanner, $1); $$ = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_ID_TYPE; node->u.type_specifier.id_type = yylval.gs->s; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | alias_declaration_specifiers CONST { struct ctf_node *node; $$ = $1; node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_CONST; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } | alias_declaration_specifiers type_specifier { $$ = $1; cds_list_add_tail(&($2)->siblings, &($$)->u.type_specifier_list.head); } | alias_declaration_specifiers IDENTIFIER { struct ctf_node *node; add_type(scanner, $2); $$ = $1; node = make_node(scanner, NODE_TYPE_SPECIFIER); node->u.type_specifier.type = TYPESPEC_ID_TYPE; node->u.type_specifier.id_type = yylval.gs->s; cds_list_add_tail(&node->siblings, &($$)->u.type_specifier_list.head); } ; struct_or_variant_declarator_list: struct_or_variant_declarator { $$ = $1; } | struct_or_variant_declarator_list COMMA struct_or_variant_declarator { $$ = $1; cds_list_add_tail(&($3)->siblings, &($$)->tmp_head); } ; struct_or_variant_declarator: declarator { $$ = $1; } | COLON unary_expression { $$ = $2; } | declarator COLON unary_expression { $$ = $1; if (set_parent_node($3, $1)) reparent_error(scanner, "struct_or_variant_declarator"); } ; enumerator_list: enumerator { $$ = $1; } | enumerator_list COMMA enumerator { $$ = $1; cds_list_add_tail(&($3)->siblings, &($$)->tmp_head); } ; enumerator: IDENTIFIER { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $1->s; } | ID_TYPE { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $1->s; } | keywords { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $1->s; } | STRING_LITERAL_START DQUOTE { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = ""; } | STRING_LITERAL_START s_char_sequence DQUOTE { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $2->s; } | IDENTIFIER EQUAL unary_expression_or_range { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $1->s; cds_list_splice(&($3)->tmp_head, &($$)->u.enumerator.values); } | ID_TYPE EQUAL unary_expression_or_range { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $1->s; cds_list_splice(&($3)->tmp_head, &($$)->u.enumerator.values); } | keywords EQUAL unary_expression_or_range { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $1->s; cds_list_splice(&($3)->tmp_head, &($$)->u.enumerator.values); } | STRING_LITERAL_START DQUOTE EQUAL unary_expression_or_range { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = ""; cds_list_splice(&($4)->tmp_head, &($$)->u.enumerator.values); } | STRING_LITERAL_START s_char_sequence DQUOTE EQUAL unary_expression_or_range { $$ = make_node(scanner, NODE_ENUMERATOR); $$->u.enumerator.id = $2->s; cds_list_splice(&($5)->tmp_head, &($$)->u.enumerator.values); } ; abstract_declarator_list: abstract_declarator { $$ = $1; } | abstract_declarator_list COMMA abstract_declarator { $$ = $1; cds_list_add_tail(&($3)->siblings, &($$)->tmp_head); } ; abstract_declarator: direct_abstract_declarator { $$ = $1; } | pointer direct_abstract_declarator { $$ = $2; cds_list_splice(&($1)->tmp_head, &($$)->u.type_declarator.pointers); } ; direct_abstract_declarator: /* empty */ { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_ID; /* id is NULL */ } | IDENTIFIER { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_ID; $$->u.type_declarator.u.id = $1->s; } | LPAREN abstract_declarator RPAREN { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $2; } | direct_abstract_declarator LSBRAC unary_expression RSBRAC { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $1; CDS_INIT_LIST_HEAD(&($$)->u.type_declarator.u.nested.length); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.type_declarator.u.nested.length); } | direct_abstract_declarator LSBRAC RSBRAC { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $1; $$->u.type_declarator.u.nested.abstract_array = 1; } ; alias_abstract_declarator_list: alias_abstract_declarator { $$ = $1; } | alias_abstract_declarator_list COMMA alias_abstract_declarator { $$ = $1; cds_list_add_tail(&($3)->siblings, &($$)->tmp_head); } ; alias_abstract_declarator: direct_alias_abstract_declarator { $$ = $1; } | pointer direct_alias_abstract_declarator { $$ = $2; cds_list_splice(&($1)->tmp_head, &($$)->u.type_declarator.pointers); } ; direct_alias_abstract_declarator: /* empty */ { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_ID; /* id is NULL */ } | LPAREN alias_abstract_declarator RPAREN { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $2; } | direct_alias_abstract_declarator LSBRAC unary_expression RSBRAC { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $1; CDS_INIT_LIST_HEAD(&($$)->u.type_declarator.u.nested.length); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.type_declarator.u.nested.length); } | direct_alias_abstract_declarator LSBRAC RSBRAC { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $1; $$->u.type_declarator.u.nested.abstract_array = 1; } ; declarator: direct_declarator { $$ = $1; } | pointer direct_declarator { $$ = $2; cds_list_splice(&($1)->tmp_head, &($$)->u.type_declarator.pointers); } ; direct_declarator: IDENTIFIER { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_ID; $$->u.type_declarator.u.id = $1->s; } | LPAREN declarator RPAREN { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $2; } | direct_declarator LSBRAC unary_expression RSBRAC { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $1; CDS_INIT_LIST_HEAD(&($$)->u.type_declarator.u.nested.length); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.type_declarator.u.nested.length); } ; type_declarator: direct_type_declarator { $$ = $1; } | pointer direct_type_declarator { $$ = $2; cds_list_splice(&($1)->tmp_head, &($$)->u.type_declarator.pointers); } ; direct_type_declarator: IDENTIFIER { add_type(scanner, $1); $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_ID; $$->u.type_declarator.u.id = $1->s; } | LPAREN type_declarator RPAREN { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $2; } | direct_type_declarator LSBRAC unary_expression RSBRAC { $$ = make_node(scanner, NODE_TYPE_DECLARATOR); $$->u.type_declarator.type = TYPEDEC_NESTED; $$->u.type_declarator.u.nested.type_declarator = $1; CDS_INIT_LIST_HEAD(&($$)->u.type_declarator.u.nested.length); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.type_declarator.u.nested.length); } ; pointer: STAR { $$ = make_node(scanner, NODE_POINTER); } | STAR pointer { $$ = make_node(scanner, NODE_POINTER); cds_list_splice(&($2)->tmp_head, &($$)->tmp_head); } | STAR type_qualifier_list pointer { $$ = make_node(scanner, NODE_POINTER); $$->u.pointer.const_qualifier = 1; cds_list_splice(&($3)->tmp_head, &($$)->tmp_head); } ; type_qualifier_list: /* pointer assumes only const type qualifier */ CONST | type_qualifier_list CONST ; /* 2.3: CTF-specific declarations */ ctf_assignment_expression_list: ctf_assignment_expression SEMICOLON { $$ = $1; } | ctf_assignment_expression_list ctf_assignment_expression SEMICOLON { $$ = $1; cds_list_add_tail(&($2)->siblings, &($$)->tmp_head); } ; ctf_assignment_expression: unary_expression EQUAL unary_expression { /* * Because we have left and right, cannot use * set_parent_node. */ $$ = make_node(scanner, NODE_CTF_EXPRESSION); _cds_list_splice_tail(&($1)->tmp_head, &($$)->u.ctf_expression.left); if ($1->u.unary_expression.type != UNARY_STRING) reparent_error(scanner, "ctf_assignment_expression left expects string"); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.ctf_expression.right); } | unary_expression TYPEASSIGN declaration_specifiers /* Only allow struct */ { /* * Because we have left and right, cannot use * set_parent_node. */ $$ = make_node(scanner, NODE_CTF_EXPRESSION); _cds_list_splice_tail(&($1)->tmp_head, &($$)->u.ctf_expression.left); if ($1->u.unary_expression.type != UNARY_STRING) reparent_error(scanner, "ctf_assignment_expression left expects string"); cds_list_add_tail(&($3)->siblings, &($$)->u.ctf_expression.right); } | declaration_specifiers TYPEDEF declaration_specifiers type_declarator_list { struct ctf_node *list; list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->u.type_specifier_list.head, &list->u.type_specifier_list.head); $$ = make_node(scanner, NODE_TYPEDEF); ($$)->u.struct_or_variant_declaration.type_specifier_list = list; _cds_list_splice_tail(&($4)->tmp_head, &($$)->u._typedef.type_declarators); } | TYPEDEF declaration_specifiers type_declarator_list { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEDEF); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u._typedef.type_specifier_list = list; _cds_list_splice_tail(&($2)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._typedef.type_declarators); } | declaration_specifiers TYPEDEF type_declarator_list { struct ctf_node *list; list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); _cds_list_splice_tail(&($1)->u.type_specifier_list.head, &list->u.type_specifier_list.head); $$ = make_node(scanner, NODE_TYPEDEF); ($$)->u.struct_or_variant_declaration.type_specifier_list = list; _cds_list_splice_tail(&($3)->tmp_head, &($$)->u._typedef.type_declarators); } | TYPEALIAS declaration_specifiers abstract_declarator_list TYPEASSIGN alias_declaration_specifiers alias_abstract_declarator_list { struct ctf_node *list; $$ = make_node(scanner, NODE_TYPEALIAS); $$->u.typealias.target = make_node(scanner, NODE_TYPEALIAS_TARGET); $$->u.typealias.alias = make_node(scanner, NODE_TYPEALIAS_ALIAS); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u.typealias.target->u.typealias_target.type_specifier_list = list; _cds_list_splice_tail(&($2)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($3)->tmp_head, &($$)->u.typealias.target->u.typealias_target.type_declarators); list = make_node(scanner, NODE_TYPE_SPECIFIER_LIST); $$->u.typealias.alias->u.typealias_alias.type_specifier_list = list; _cds_list_splice_tail(&($5)->u.type_specifier_list.head, &list->u.type_specifier_list.head); _cds_list_splice_tail(&($6)->tmp_head, &($$)->u.typealias.alias->u.typealias_alias.type_declarators); } ;