2 * This file is part of cparser.
3 * Copyright (C) 2007-2009 Matthias Braun <matze@braunis.de>
5 * This program is free software; you can redistribute it and/or
6 * modify it under the terms of the GNU General Public License
7 * as published by the Free Software Foundation; either version 2
8 * of the License, or (at your option) any later version.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program; if not, write to the Free Software
17 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
26 #include "lang_features.h"
36 #if defined(__INTEL_COMPILER)
38 #elif defined(__CYGWIN__)
39 #include "win32/cygwin_math_ext.h"
44 #include "adt/error.h"
47 struct obstack ast_obstack;
50 static int case_indent;
52 bool print_implicit_casts = false;
53 bool print_parenthesis = false;
55 static void print_statement(const statement_t *statement);
56 static void print_expression_prec(const expression_t *expression, unsigned prec);
58 void change_indent(int delta)
64 void print_indent(void)
66 for (int i = 0; i < indent; ++i)
70 static void print_stringrep(const string_t *string)
72 for (size_t i = 0; i < string->size; ++i) {
73 print_char(string->begin[i]);
78 * Returns 1 if a given precedence level has right-to-left
79 * associativity, else 0.
81 * @param precedence the operator precedence
83 static int right_to_left(unsigned precedence)
87 case PREC_CONDITIONAL:
97 * Return the precedence of an expression given by its kind.
99 * @param kind the expression kind
101 static unsigned get_expression_precedence(expression_kind_t kind)
103 static const unsigned prec[] = {
104 [EXPR_ERROR] = PREC_PRIMARY,
105 [EXPR_REFERENCE] = PREC_PRIMARY,
106 [EXPR_REFERENCE_ENUM_VALUE] = PREC_PRIMARY,
107 [EXPR_LITERAL_INTEGER] = PREC_PRIMARY,
108 [EXPR_LITERAL_INTEGER_OCTAL] = PREC_PRIMARY,
109 [EXPR_LITERAL_INTEGER_HEXADECIMAL] = PREC_PRIMARY,
110 [EXPR_LITERAL_FLOATINGPOINT] = PREC_PRIMARY,
111 [EXPR_LITERAL_FLOATINGPOINT_HEXADECIMAL] = PREC_PRIMARY,
112 [EXPR_LITERAL_CHARACTER] = PREC_PRIMARY,
113 [EXPR_LITERAL_WIDE_CHARACTER] = PREC_PRIMARY,
114 [EXPR_LITERAL_MS_NOOP] = PREC_PRIMARY,
115 [EXPR_STRING_LITERAL] = PREC_PRIMARY,
116 [EXPR_WIDE_STRING_LITERAL] = PREC_PRIMARY,
117 [EXPR_COMPOUND_LITERAL] = PREC_UNARY,
118 [EXPR_CALL] = PREC_POSTFIX,
119 [EXPR_CONDITIONAL] = PREC_CONDITIONAL,
120 [EXPR_SELECT] = PREC_POSTFIX,
121 [EXPR_ARRAY_ACCESS] = PREC_POSTFIX,
122 [EXPR_SIZEOF] = PREC_UNARY,
123 [EXPR_CLASSIFY_TYPE] = PREC_UNARY,
124 [EXPR_ALIGNOF] = PREC_UNARY,
126 [EXPR_FUNCNAME] = PREC_PRIMARY,
127 [EXPR_BUILTIN_CONSTANT_P] = PREC_PRIMARY,
128 [EXPR_BUILTIN_TYPES_COMPATIBLE_P] = PREC_PRIMARY,
129 [EXPR_OFFSETOF] = PREC_PRIMARY,
130 [EXPR_VA_START] = PREC_PRIMARY,
131 [EXPR_VA_ARG] = PREC_PRIMARY,
132 [EXPR_VA_COPY] = PREC_PRIMARY,
133 [EXPR_STATEMENT] = PREC_PRIMARY,
134 [EXPR_LABEL_ADDRESS] = PREC_PRIMARY,
136 [EXPR_UNARY_NEGATE] = PREC_UNARY,
137 [EXPR_UNARY_PLUS] = PREC_UNARY,
138 [EXPR_UNARY_BITWISE_NEGATE] = PREC_UNARY,
139 [EXPR_UNARY_NOT] = PREC_UNARY,
140 [EXPR_UNARY_DEREFERENCE] = PREC_UNARY,
141 [EXPR_UNARY_TAKE_ADDRESS] = PREC_UNARY,
142 [EXPR_UNARY_POSTFIX_INCREMENT] = PREC_POSTFIX,
143 [EXPR_UNARY_POSTFIX_DECREMENT] = PREC_POSTFIX,
144 [EXPR_UNARY_PREFIX_INCREMENT] = PREC_UNARY,
145 [EXPR_UNARY_PREFIX_DECREMENT] = PREC_UNARY,
146 [EXPR_UNARY_CAST] = PREC_UNARY,
147 [EXPR_UNARY_ASSUME] = PREC_PRIMARY,
148 [EXPR_UNARY_DELETE] = PREC_UNARY,
149 [EXPR_UNARY_DELETE_ARRAY] = PREC_UNARY,
150 [EXPR_UNARY_THROW] = PREC_ASSIGNMENT,
152 [EXPR_BINARY_ADD] = PREC_ADDITIVE,
153 [EXPR_BINARY_SUB] = PREC_ADDITIVE,
154 [EXPR_BINARY_MUL] = PREC_MULTIPLICATIVE,
155 [EXPR_BINARY_DIV] = PREC_MULTIPLICATIVE,
156 [EXPR_BINARY_MOD] = PREC_MULTIPLICATIVE,
157 [EXPR_BINARY_EQUAL] = PREC_EQUALITY,
158 [EXPR_BINARY_NOTEQUAL] = PREC_EQUALITY,
159 [EXPR_BINARY_LESS] = PREC_RELATIONAL,
160 [EXPR_BINARY_LESSEQUAL] = PREC_RELATIONAL,
161 [EXPR_BINARY_GREATER] = PREC_RELATIONAL,
162 [EXPR_BINARY_GREATEREQUAL] = PREC_RELATIONAL,
163 [EXPR_BINARY_BITWISE_AND] = PREC_AND,
164 [EXPR_BINARY_BITWISE_OR] = PREC_OR,
165 [EXPR_BINARY_BITWISE_XOR] = PREC_XOR,
166 [EXPR_BINARY_LOGICAL_AND] = PREC_LOGICAL_AND,
167 [EXPR_BINARY_LOGICAL_OR] = PREC_LOGICAL_OR,
168 [EXPR_BINARY_SHIFTLEFT] = PREC_SHIFT,
169 [EXPR_BINARY_SHIFTRIGHT] = PREC_SHIFT,
170 [EXPR_BINARY_ASSIGN] = PREC_ASSIGNMENT,
171 [EXPR_BINARY_MUL_ASSIGN] = PREC_ASSIGNMENT,
172 [EXPR_BINARY_DIV_ASSIGN] = PREC_ASSIGNMENT,
173 [EXPR_BINARY_MOD_ASSIGN] = PREC_ASSIGNMENT,
174 [EXPR_BINARY_ADD_ASSIGN] = PREC_ASSIGNMENT,
175 [EXPR_BINARY_SUB_ASSIGN] = PREC_ASSIGNMENT,
176 [EXPR_BINARY_SHIFTLEFT_ASSIGN] = PREC_ASSIGNMENT,
177 [EXPR_BINARY_SHIFTRIGHT_ASSIGN] = PREC_ASSIGNMENT,
178 [EXPR_BINARY_BITWISE_AND_ASSIGN] = PREC_ASSIGNMENT,
179 [EXPR_BINARY_BITWISE_XOR_ASSIGN] = PREC_ASSIGNMENT,
180 [EXPR_BINARY_BITWISE_OR_ASSIGN] = PREC_ASSIGNMENT,
181 [EXPR_BINARY_COMMA] = PREC_EXPRESSION,
183 [EXPR_BINARY_ISGREATER] = PREC_PRIMARY,
184 [EXPR_BINARY_ISGREATEREQUAL] = PREC_PRIMARY,
185 [EXPR_BINARY_ISLESS] = PREC_PRIMARY,
186 [EXPR_BINARY_ISLESSEQUAL] = PREC_PRIMARY,
187 [EXPR_BINARY_ISLESSGREATER] = PREC_PRIMARY,
188 [EXPR_BINARY_ISUNORDERED] = PREC_PRIMARY
190 assert((size_t)kind < lengthof(prec));
191 unsigned res = prec[kind];
193 assert(res != PREC_BOTTOM);
198 * Print a quoted string constant.
200 * @param string the string constant
201 * @param border the border char
202 * @param skip number of chars to skip at the end
204 static void print_quoted_string(const string_t *const string, char border,
208 const char *end = string->begin + string->size - skip;
209 for (const char *c = string->begin; c != end; ++c) {
215 case '\\': print_string("\\\\"); break;
216 case '\a': print_string("\\a"); break;
217 case '\b': print_string("\\b"); break;
218 case '\f': print_string("\\f"); break;
219 case '\n': print_string("\\n"); break;
220 case '\r': print_string("\\r"); break;
221 case '\t': print_string("\\t"); break;
222 case '\v': print_string("\\v"); break;
223 case '\?': print_string("\\?"); break;
225 if (c_mode & _GNUC) {
226 print_string("\\e"); break;
230 if ((unsigned)tc < 0x80 && !isprint(tc)) {
231 print_format("\\%03o", (unsigned)tc);
241 static void print_string_literal(const string_literal_expression_t *literal)
243 if (literal->base.kind == EXPR_WIDE_STRING_LITERAL) {
246 print_quoted_string(&literal->value, '"', 1);
249 static void print_literal(const literal_expression_t *literal)
251 switch (literal->base.kind) {
252 case EXPR_LITERAL_MS_NOOP:
253 print_string("__noop");
255 case EXPR_LITERAL_INTEGER_HEXADECIMAL:
256 case EXPR_LITERAL_FLOATINGPOINT_HEXADECIMAL:
259 case EXPR_LITERAL_BOOLEAN:
260 case EXPR_LITERAL_INTEGER:
261 case EXPR_LITERAL_INTEGER_OCTAL:
262 case EXPR_LITERAL_FLOATINGPOINT:
263 print_stringrep(&literal->value);
264 if (literal->suffix.size > 0)
265 print_stringrep(&literal->suffix);
267 case EXPR_LITERAL_WIDE_CHARACTER:
270 case EXPR_LITERAL_CHARACTER:
271 print_quoted_string(&literal->value, '\'', 0);
276 print_string("INVALID LITERAL KIND");
280 * Prints a predefined symbol.
282 static void print_funcname(const funcname_expression_t *funcname)
285 switch (funcname->kind) {
286 case FUNCNAME_FUNCTION: s = (c_mode & _C99) ? "__func__" : "__FUNCTION__"; break;
287 case FUNCNAME_PRETTY_FUNCTION: s = "__PRETTY_FUNCTION__"; break;
288 case FUNCNAME_FUNCSIG: s = "__FUNCSIG__"; break;
289 case FUNCNAME_FUNCDNAME: s = "__FUNCDNAME__"; break;
294 static void print_compound_literal(
295 const compound_literal_expression_t *expression)
298 print_type(expression->type);
300 print_initializer(expression->initializer);
303 static void print_assignment_expression(const expression_t *const expr)
305 print_expression_prec(expr, PREC_ASSIGNMENT);
309 * Prints a call expression.
311 * @param call the call expression
313 static void print_call_expression(const call_expression_t *call)
315 print_expression_prec(call->function, PREC_POSTFIX);
317 char const *sep = "";
318 for (call_argument_t const *arg = call->arguments; arg; arg = arg->next) {
321 print_assignment_expression(arg->expression);
327 * Prints a binary expression.
329 * @param binexpr the binary expression
331 static void print_binary_expression(const binary_expression_t *binexpr)
333 unsigned prec = get_expression_precedence(binexpr->base.kind);
334 int r2l = right_to_left(prec);
336 print_expression_prec(binexpr->left, prec + r2l);
338 switch (binexpr->base.kind) {
339 case EXPR_BINARY_COMMA: op = ", "; break;
340 case EXPR_BINARY_ASSIGN: op = " = "; break;
341 case EXPR_BINARY_ADD: op = " + "; break;
342 case EXPR_BINARY_SUB: op = " - "; break;
343 case EXPR_BINARY_MUL: op = " * "; break;
344 case EXPR_BINARY_MOD: op = " % "; break;
345 case EXPR_BINARY_DIV: op = " / "; break;
346 case EXPR_BINARY_BITWISE_OR: op = " | "; break;
347 case EXPR_BINARY_BITWISE_AND: op = " & "; break;
348 case EXPR_BINARY_BITWISE_XOR: op = " ^ "; break;
349 case EXPR_BINARY_LOGICAL_OR: op = " || "; break;
350 case EXPR_BINARY_LOGICAL_AND: op = " && "; break;
351 case EXPR_BINARY_NOTEQUAL: op = " != "; break;
352 case EXPR_BINARY_EQUAL: op = " == "; break;
353 case EXPR_BINARY_LESS: op = " < "; break;
354 case EXPR_BINARY_LESSEQUAL: op = " <= "; break;
355 case EXPR_BINARY_GREATER: op = " > "; break;
356 case EXPR_BINARY_GREATEREQUAL: op = " >= "; break;
357 case EXPR_BINARY_SHIFTLEFT: op = " << "; break;
358 case EXPR_BINARY_SHIFTRIGHT: op = " >> "; break;
360 case EXPR_BINARY_ADD_ASSIGN: op = " += "; break;
361 case EXPR_BINARY_SUB_ASSIGN: op = " -= "; break;
362 case EXPR_BINARY_MUL_ASSIGN: op = " *= "; break;
363 case EXPR_BINARY_MOD_ASSIGN: op = " %= "; break;
364 case EXPR_BINARY_DIV_ASSIGN: op = " /= "; break;
365 case EXPR_BINARY_BITWISE_OR_ASSIGN: op = " |= "; break;
366 case EXPR_BINARY_BITWISE_AND_ASSIGN: op = " &= "; break;
367 case EXPR_BINARY_BITWISE_XOR_ASSIGN: op = " ^= "; break;
368 case EXPR_BINARY_SHIFTLEFT_ASSIGN: op = " <<= "; break;
369 case EXPR_BINARY_SHIFTRIGHT_ASSIGN: op = " >>= "; break;
370 default: panic("invalid binexpression found");
373 print_expression_prec(binexpr->right, prec + 1 - r2l);
377 * Prints an unary expression.
379 * @param unexpr the unary expression
381 static void print_unary_expression(const unary_expression_t *unexpr)
383 unsigned prec = get_expression_precedence(unexpr->base.kind);
384 switch (unexpr->base.kind) {
385 case EXPR_UNARY_NEGATE: print_char ('-' ); break;
386 case EXPR_UNARY_PLUS: print_char ('+' ); break;
387 case EXPR_UNARY_NOT: print_char ('!' ); break;
388 case EXPR_UNARY_BITWISE_NEGATE: print_char ('~' ); break;
389 case EXPR_UNARY_PREFIX_INCREMENT: print_string("++"); break;
390 case EXPR_UNARY_PREFIX_DECREMENT: print_string("--"); break;
391 case EXPR_UNARY_DEREFERENCE: print_char ('*' ); break;
392 case EXPR_UNARY_TAKE_ADDRESS: print_char ('&' ); break;
393 case EXPR_UNARY_DELETE: print_string("delete "); break;
394 case EXPR_UNARY_DELETE_ARRAY: print_string("delete [] "); break;
396 case EXPR_UNARY_POSTFIX_INCREMENT:
397 print_expression_prec(unexpr->value, prec);
400 case EXPR_UNARY_POSTFIX_DECREMENT:
401 print_expression_prec(unexpr->value, prec);
404 case EXPR_UNARY_CAST:
406 print_type(unexpr->base.type);
409 case EXPR_UNARY_ASSUME:
410 print_string("__assume(");
411 print_assignment_expression(unexpr->value);
415 case EXPR_UNARY_THROW:
416 if (unexpr->value == NULL) {
417 print_string("throw");
420 print_string("throw ");
424 panic("invalid unary expression found");
426 print_expression_prec(unexpr->value, prec);
430 * Prints a reference expression.
432 * @param ref the reference expression
434 static void print_reference_expression(const reference_expression_t *ref)
436 print_string(ref->entity->base.symbol->string);
440 * Prints a label address expression.
442 * @param ref the reference expression
444 static void print_label_address_expression(const label_address_expression_t *le)
446 print_format("&&%s", le->label->base.symbol->string);
450 * Prints an array expression.
452 * @param expression the array expression
454 static void print_array_expression(const array_access_expression_t *expression)
456 if (!expression->flipped) {
457 print_expression_prec(expression->array_ref, PREC_POSTFIX);
459 print_expression(expression->index);
462 print_expression_prec(expression->index, PREC_POSTFIX);
464 print_expression(expression->array_ref);
470 * Prints a typeproperty expression (sizeof or __alignof__).
472 * @param expression the type property expression
474 static void print_typeprop_expression(const typeprop_expression_t *expression)
476 if (expression->base.kind == EXPR_SIZEOF) {
477 print_string("sizeof");
479 assert(expression->base.kind == EXPR_ALIGNOF);
480 print_string("__alignof__");
482 if (expression->tp_expression != NULL) {
483 /* PREC_TOP: always print the '()' here, sizeof x is right but unusual */
484 print_expression_prec(expression->tp_expression, PREC_TOP);
487 print_type(expression->type);
493 * Prints a builtin constant expression.
495 * @param expression the builtin constant expression
497 static void print_builtin_constant(const builtin_constant_expression_t *expression)
499 print_string("__builtin_constant_p(");
500 print_assignment_expression(expression->value);
505 * Prints a builtin types compatible expression.
507 * @param expression the builtin types compatible expression
509 static void print_builtin_types_compatible(
510 const builtin_types_compatible_expression_t *expression)
512 print_string("__builtin_types_compatible_p(");
513 print_type(expression->left);
515 print_type(expression->right);
520 * Prints a conditional expression.
522 * @param expression the conditional expression
524 static void print_conditional(const conditional_expression_t *expression)
526 print_expression_prec(expression->condition, PREC_LOGICAL_OR);
527 if (expression->true_expression != NULL) {
529 print_expression_prec(expression->true_expression, PREC_EXPRESSION);
532 print_string(" ?: ");
534 precedence_t prec = c_mode & _CXX ? PREC_ASSIGNMENT : PREC_CONDITIONAL;
535 print_expression_prec(expression->false_expression, prec);
539 * Prints a va_start expression.
541 * @param expression the va_start expression
543 static void print_va_start(const va_start_expression_t *const expression)
545 print_string("__builtin_va_start(");
546 print_assignment_expression(expression->ap);
548 print_string(expression->parameter->base.base.symbol->string);
553 * Prints a va_arg expression.
555 * @param expression the va_arg expression
557 static void print_va_arg(const va_arg_expression_t *expression)
559 print_string("__builtin_va_arg(");
560 print_assignment_expression(expression->ap);
562 print_type(expression->base.type);
567 * Prints a va_copy expression.
569 * @param expression the va_copy expression
571 static void print_va_copy(const va_copy_expression_t *expression)
573 print_string("__builtin_va_copy(");
574 print_assignment_expression(expression->dst);
576 print_assignment_expression(expression->src);
581 * Prints a select expression (. or ->).
583 * @param expression the select expression
585 static void print_select(const select_expression_t *expression)
587 print_expression_prec(expression->compound, PREC_POSTFIX);
588 /* do not print anything for anonymous struct/union selects
589 * FIXME: if the anonymous select was a '->' this will print '.'
591 if (expression->compound_entry->base.symbol == NULL)
594 if (is_type_pointer(skip_typeref(expression->compound->base.type))) {
599 print_string(expression->compound_entry->base.symbol->string);
603 * Prints a type classify expression.
605 * @param expr the type classify expression
607 static void print_classify_type_expression(
608 const classify_type_expression_t *const expr)
610 print_string("__builtin_classify_type(");
611 print_assignment_expression(expr->type_expression);
616 * Prints a designator.
618 * @param designator the designator
620 static void print_designator(const designator_t *designator)
622 for ( ; designator != NULL; designator = designator->next) {
623 if (designator->symbol == NULL) {
625 print_expression(designator->array_index);
629 print_string(designator->symbol->string);
635 * Prints an offsetof expression.
637 * @param expression the offset expression
639 static void print_offsetof_expression(const offsetof_expression_t *expression)
641 print_string("__builtin_offsetof(");
642 print_type(expression->type);
644 print_designator(expression->designator);
649 * Prints a statement expression.
651 * @param expression the statement expression
653 static void print_statement_expression(const statement_expression_t *expression)
656 print_statement(expression->statement);
661 * Prints an expression with parenthesis if needed.
663 * @param expression the expression to print
664 * @param top_prec the precedence of the user of this expression.
666 static void print_expression_prec(const expression_t *expression, unsigned top_prec)
668 if (expression->kind == EXPR_UNARY_CAST
669 && expression->base.implicit && !print_implicit_casts) {
670 expression = expression->unary.value;
674 expression->base.parenthesized ||
675 (print_parenthesis && top_prec != PREC_BOTTOM) ||
676 top_prec > get_expression_precedence(expression->base.kind);
680 switch (expression->kind) {
682 print_string("$error$");
684 case EXPR_WIDE_STRING_LITERAL:
685 case EXPR_STRING_LITERAL:
686 print_string_literal(&expression->string_literal);
689 print_literal(&expression->literal);
692 print_funcname(&expression->funcname);
694 case EXPR_COMPOUND_LITERAL:
695 print_compound_literal(&expression->compound_literal);
698 print_call_expression(&expression->call);
701 print_binary_expression(&expression->binary);
704 case EXPR_REFERENCE_ENUM_VALUE:
705 print_reference_expression(&expression->reference);
707 case EXPR_ARRAY_ACCESS:
708 print_array_expression(&expression->array_access);
710 case EXPR_LABEL_ADDRESS:
711 print_label_address_expression(&expression->label_address);
714 print_unary_expression(&expression->unary);
718 print_typeprop_expression(&expression->typeprop);
720 case EXPR_BUILTIN_CONSTANT_P:
721 print_builtin_constant(&expression->builtin_constant);
723 case EXPR_BUILTIN_TYPES_COMPATIBLE_P:
724 print_builtin_types_compatible(&expression->builtin_types_compatible);
726 case EXPR_CONDITIONAL:
727 print_conditional(&expression->conditional);
730 print_va_start(&expression->va_starte);
733 print_va_arg(&expression->va_arge);
736 print_va_copy(&expression->va_copye);
739 print_select(&expression->select);
741 case EXPR_CLASSIFY_TYPE:
742 print_classify_type_expression(&expression->classify_type);
745 print_offsetof_expression(&expression->offsetofe);
748 print_statement_expression(&expression->statement);
755 static void print_indented_statement(statement_t const *const stmt)
757 switch (stmt->kind) {
758 case STATEMENT_LABEL:
761 case STATEMENT_CASE_LABEL:
762 for (int i = 0; i != case_indent; ++i)
770 print_statement(stmt);
774 * Print an compound statement.
776 * @param block the compound statement
778 static void print_compound_statement(const compound_statement_t *block)
783 for (statement_t const *stmt = block->statements; stmt; stmt = stmt->base.next) {
784 print_indented_statement(stmt);
794 * Print a return statement.
796 * @param statement the return statement
798 static void print_return_statement(const return_statement_t *statement)
800 expression_t const *const val = statement->value;
802 print_string("return ");
803 print_expression(val);
806 print_string("return;");
811 * Print an expression statement.
813 * @param statement the expression statement
815 static void print_expression_statement(const expression_statement_t *statement)
817 print_expression(statement->expression);
822 * Print a goto statement.
824 * @param statement the goto statement
826 static void print_goto_statement(const goto_statement_t *statement)
828 print_string("goto ");
829 if (statement->expression != NULL) {
831 print_expression(statement->expression);
833 print_string(statement->label->base.symbol->string);
839 * Print a label statement.
841 * @param statement the label statement
843 static void print_label_statement(const label_statement_t *statement)
845 print_format("%s:\n", statement->label->base.symbol->string);
846 print_indented_statement(statement->statement);
849 static void print_inner_statement(statement_t const *const stmt)
851 if (stmt->kind == STATEMENT_COMPOUND) {
853 print_compound_statement(&stmt->compound);
857 print_indented_statement(stmt);
862 static void print_after_inner_statement(statement_t const *const stmt)
864 if (stmt->kind == STATEMENT_COMPOUND) {
873 * Print an if statement.
875 * @param statement the if statement
877 static void print_if_statement(const if_statement_t *statement)
879 print_string("if (");
880 print_expression(statement->condition);
882 print_inner_statement(statement->true_statement);
884 statement_t const *const f = statement->false_statement;
886 print_after_inner_statement(statement->true_statement);
887 print_string("else");
888 if (f->kind == STATEMENT_IF) {
890 print_if_statement(&f->ifs);
892 print_inner_statement(f);
898 * Print a switch statement.
900 * @param statement the switch statement
902 static void print_switch_statement(const switch_statement_t *statement)
904 int const old_case_indent = case_indent;
905 case_indent = indent;
907 print_string("switch (");
908 print_expression(statement->expression);
910 print_inner_statement(statement->body);
912 case_indent = old_case_indent;
916 * Print a case label (including the default label).
918 * @param statement the case label statement
920 static void print_case_label(const case_label_statement_t *statement)
922 if (statement->expression == NULL) {
923 print_string("default:\n");
925 print_string("case ");
926 print_expression(statement->expression);
927 if (statement->end_range != NULL) {
928 print_string(" ... ");
929 print_expression(statement->end_range);
933 print_indented_statement(statement->statement);
936 static void print_typedef(const entity_t *entity)
938 print_string("typedef ");
939 print_type_ext(entity->typedefe.type, entity->base.symbol, NULL);
944 * returns true if the entity is a compiler generated one and has no real
945 * correspondenc in the source file
947 static bool is_generated_entity(const entity_t *entity)
949 if (entity->kind == ENTITY_TYPEDEF)
950 return entity->typedefe.builtin;
952 if (is_declaration(entity))
953 return entity->declaration.implicit;
959 * Print a declaration statement.
961 * @param statement the statement
963 static void print_declaration_statement(
964 const declaration_statement_t *statement)
967 entity_t *entity = statement->declarations_begin;
968 if (entity == NULL) {
969 print_string("/* empty declaration statement */");
973 entity_t *const end = statement->declarations_end->base.next;
974 for (; entity != end; entity = entity->base.next) {
975 if (entity->kind == ENTITY_ENUM_VALUE)
977 if (is_generated_entity(entity))
987 print_entity(entity);
992 * Print a while statement.
994 * @param statement the statement
996 static void print_while_statement(const while_statement_t *statement)
998 print_string("while (");
999 print_expression(statement->condition);
1001 print_inner_statement(statement->body);
1005 * Print a do-while statement.
1007 * @param statement the statement
1009 static void print_do_while_statement(const do_while_statement_t *statement)
1012 print_inner_statement(statement->body);
1013 print_after_inner_statement(statement->body);
1014 print_string("while (");
1015 print_expression(statement->condition);
1020 * Print a for statement.
1022 * @param statement the statement
1024 static void print_for_statement(const for_statement_t *statement)
1026 print_string("for (");
1027 if (statement->initialisation != NULL) {
1028 print_expression(statement->initialisation);
1031 entity_t const *entity = statement->scope.entities;
1032 for (; entity != NULL; entity = entity->base.next) {
1033 if (is_generated_entity(entity))
1035 /* FIXME display of multiple declarations is wrong */
1036 print_declaration(entity);
1039 if (statement->condition != NULL) {
1041 print_expression(statement->condition);
1044 if (statement->step != NULL) {
1046 print_expression(statement->step);
1049 print_inner_statement(statement->body);
1053 * Print assembler arguments.
1055 * @param arguments the arguments
1057 static void print_asm_arguments(asm_argument_t *arguments)
1059 asm_argument_t *argument = arguments;
1060 for (; argument != NULL; argument = argument->next) {
1061 if (argument != arguments)
1064 if (argument->symbol) {
1065 print_format("[%s] ", argument->symbol->string);
1067 print_quoted_string(&argument->constraints, '"', 1);
1069 print_expression(argument->expression);
1075 * Print assembler clobbers.
1077 * @param clobbers the clobbers
1079 static void print_asm_clobbers(asm_clobber_t *clobbers)
1081 asm_clobber_t *clobber = clobbers;
1082 for (; clobber != NULL; clobber = clobber->next) {
1083 if (clobber != clobbers)
1086 print_quoted_string(&clobber->clobber, '"', 1);
1091 * Print an assembler statement.
1093 * @param statement the statement
1095 static void print_asm_statement(const asm_statement_t *statement)
1097 print_string("asm ");
1098 if (statement->is_volatile) {
1099 print_string("volatile ");
1102 print_quoted_string(&statement->asm_text, '"', 1);
1103 if (statement->outputs == NULL &&
1104 statement->inputs == NULL &&
1105 statement->clobbers == NULL)
1106 goto end_of_print_asm_statement;
1108 print_string(" : ");
1109 print_asm_arguments(statement->outputs);
1110 if (statement->inputs == NULL && statement->clobbers == NULL)
1111 goto end_of_print_asm_statement;
1113 print_string(" : ");
1114 print_asm_arguments(statement->inputs);
1115 if (statement->clobbers == NULL)
1116 goto end_of_print_asm_statement;
1118 print_string(" : ");
1119 print_asm_clobbers(statement->clobbers);
1121 end_of_print_asm_statement:
1126 * Print a microsoft __try statement.
1128 * @param statement the statement
1130 static void print_ms_try_statement(const ms_try_statement_t *statement)
1132 print_string("__try");
1133 print_inner_statement(statement->try_statement);
1134 print_after_inner_statement(statement->try_statement);
1135 if (statement->except_expression != NULL) {
1136 print_string("__except(");
1137 print_expression(statement->except_expression);
1140 print_string("__finally");
1142 print_inner_statement(statement->final_statement);
1146 * Print a microsoft __leave statement.
1148 * @param statement the statement
1150 static void print_leave_statement(const leave_statement_t *statement)
1153 print_string("__leave;");
1157 * Print a statement.
1159 * @param statement the statement
1161 void print_statement(const statement_t *statement)
1163 switch (statement->kind) {
1164 case STATEMENT_EMPTY:
1167 case STATEMENT_COMPOUND:
1168 print_compound_statement(&statement->compound);
1170 case STATEMENT_RETURN:
1171 print_return_statement(&statement->returns);
1173 case STATEMENT_EXPRESSION:
1174 print_expression_statement(&statement->expression);
1176 case STATEMENT_LABEL:
1177 print_label_statement(&statement->label);
1179 case STATEMENT_GOTO:
1180 print_goto_statement(&statement->gotos);
1182 case STATEMENT_CONTINUE:
1183 print_string("continue;");
1185 case STATEMENT_BREAK:
1186 print_string("break;");
1189 print_if_statement(&statement->ifs);
1191 case STATEMENT_SWITCH:
1192 print_switch_statement(&statement->switchs);
1194 case STATEMENT_CASE_LABEL:
1195 print_case_label(&statement->case_label);
1197 case STATEMENT_DECLARATION:
1198 print_declaration_statement(&statement->declaration);
1200 case STATEMENT_WHILE:
1201 print_while_statement(&statement->whiles);
1203 case STATEMENT_DO_WHILE:
1204 print_do_while_statement(&statement->do_while);
1207 print_for_statement(&statement->fors);
1210 print_asm_statement(&statement->asms);
1212 case STATEMENT_MS_TRY:
1213 print_ms_try_statement(&statement->ms_try);
1215 case STATEMENT_LEAVE:
1216 print_leave_statement(&statement->leave);
1218 case STATEMENT_ERROR:
1219 print_string("$error statement$");
1225 * Print a storage class.
1227 * @param storage_class the storage class
1229 static void print_storage_class(storage_class_tag_t storage_class)
1231 switch (storage_class) {
1232 case STORAGE_CLASS_NONE: return;
1233 case STORAGE_CLASS_TYPEDEF: print_string("typedef "); return;
1234 case STORAGE_CLASS_EXTERN: print_string("extern "); return;
1235 case STORAGE_CLASS_STATIC: print_string("static "); return;
1236 case STORAGE_CLASS_AUTO: print_string("auto "); return;
1237 case STORAGE_CLASS_REGISTER: print_string("register "); return;
1239 panic("invalid storage class");
1243 * Print an initializer.
1245 * @param initializer the initializer
1247 void print_initializer(const initializer_t *initializer)
1249 if (initializer == NULL) {
1254 switch (initializer->kind) {
1255 case INITIALIZER_VALUE: {
1256 const initializer_value_t *value = &initializer->value;
1257 print_assignment_expression(value->value);
1260 case INITIALIZER_LIST: {
1261 assert(initializer->kind == INITIALIZER_LIST);
1263 const initializer_list_t *list = &initializer->list;
1265 for (size_t i = 0 ; i < list->len; ++i) {
1266 const initializer_t *sub_init = list->initializers[i];
1267 print_initializer(list->initializers[i]);
1268 if (i < list->len-1) {
1269 if (sub_init == NULL || sub_init->kind != INITIALIZER_DESIGNATOR)
1276 case INITIALIZER_STRING:
1277 print_quoted_string(&initializer->string.string, '"', 1);
1279 case INITIALIZER_WIDE_STRING:
1280 print_quoted_string(&initializer->string.string, '"', 1);
1282 case INITIALIZER_DESIGNATOR:
1283 print_designator(initializer->designator.designator);
1284 print_string(" = ");
1288 panic("invalid initializer kind found");
1293 * Print microsoft extended declaration modifiers.
1295 static void print_ms_modifiers(const declaration_t *declaration)
1297 if ((c_mode & _MS) == 0)
1300 decl_modifiers_t modifiers = declaration->modifiers;
1302 bool ds_shown = false;
1303 const char *next = "(";
1305 if (declaration->base.kind == ENTITY_VARIABLE) {
1306 variable_t *variable = (variable_t*)declaration;
1307 if (variable->alignment != 0
1308 || variable->get_property_sym != NULL
1309 || variable->put_property_sym != NULL) {
1311 print_string("__declspec");
1315 if (variable->alignment != 0) {
1316 print_string(next); next = ", "; print_format("align(%u)", variable->alignment);
1318 if (variable->get_property_sym != NULL
1319 || variable->put_property_sym != NULL) {
1321 print_string(next); next = ", "; print_string("property(");
1322 if (variable->get_property_sym != NULL) {
1323 print_format("get=%s", variable->get_property_sym->string);
1326 if (variable->put_property_sym != NULL)
1327 print_format("%sput=%s", comma, variable->put_property_sym->string);
1333 /* DM_FORCEINLINE handled outside. */
1334 if ((modifiers & ~DM_FORCEINLINE) != 0) {
1336 print_string("__declspec");
1339 if (modifiers & DM_DLLIMPORT) {
1340 print_string(next); next = ", "; print_string("dllimport");
1342 if (modifiers & DM_DLLEXPORT) {
1343 print_string(next); next = ", "; print_string("dllexport");
1345 if (modifiers & DM_THREAD) {
1346 print_string(next); next = ", "; print_string("thread");
1348 if (modifiers & DM_NAKED) {
1349 print_string(next); next = ", "; print_string("naked");
1351 if (modifiers & DM_THREAD) {
1352 print_string(next); next = ", "; print_string("thread");
1354 if (modifiers & DM_SELECTANY) {
1355 print_string(next); next = ", "; print_string("selectany");
1357 if (modifiers & DM_NOTHROW) {
1358 print_string(next); next = ", "; print_string("nothrow");
1360 if (modifiers & DM_NORETURN) {
1361 print_string(next); next = ", "; print_string("noreturn");
1363 if (modifiers & DM_NOINLINE) {
1364 print_string(next); next = ", "; print_string("noinline");
1366 if (modifiers & DM_DEPRECATED) {
1367 print_string(next); next = ", "; print_string("deprecated");
1368 if (declaration->deprecated_string != NULL)
1369 print_format("(\"%s\")",
1370 declaration->deprecated_string);
1372 if (modifiers & DM_RESTRICT) {
1373 print_string(next); next = ", "; print_string("restrict");
1375 if (modifiers & DM_NOALIAS) {
1376 print_string(next); next = ", "; print_string("noalias");
1385 static void print_scope(const scope_t *scope)
1387 const entity_t *entity = scope->entities;
1388 for ( ; entity != NULL; entity = entity->base.next) {
1390 print_entity(entity);
1395 static void print_namespace(const namespace_t *namespace)
1397 print_string("namespace ");
1398 if (namespace->base.symbol != NULL) {
1399 print_string(namespace->base.symbol->string);
1403 print_string("{\n");
1406 print_scope(&namespace->members);
1410 print_string("}\n");
1414 * Print a variable or function declaration
1416 void print_declaration(const entity_t *entity)
1418 assert(is_declaration(entity));
1419 const declaration_t *declaration = &entity->declaration;
1421 print_storage_class((storage_class_tag_t)declaration->declared_storage_class);
1422 if (entity->kind == ENTITY_FUNCTION) {
1423 function_t *function = (function_t*)declaration;
1424 if (function->is_inline) {
1425 if (declaration->modifiers & DM_FORCEINLINE) {
1426 print_string("__forceinline ");
1427 } else if (declaration->modifiers & DM_MICROSOFT_INLINE) {
1428 print_string("__inline ");
1430 print_string("inline ");
1434 //print_ms_modifiers(declaration);
1435 switch (entity->kind) {
1436 case ENTITY_FUNCTION:
1437 print_type_ext(entity->declaration.type, entity->base.symbol,
1438 &entity->function.parameters);
1440 if (entity->function.statement != NULL) {
1442 print_indented_statement(entity->function.statement);
1448 case ENTITY_VARIABLE:
1449 if (entity->variable.thread_local)
1450 print_string("__thread ");
1451 print_type_ext(declaration->type, declaration->base.symbol, NULL);
1452 if (entity->variable.initializer != NULL) {
1453 print_string(" = ");
1454 print_initializer(entity->variable.initializer);
1458 case ENTITY_COMPOUND_MEMBER:
1459 print_type_ext(declaration->type, declaration->base.symbol, NULL);
1460 if (entity->compound_member.bitfield) {
1461 print_format(" : %u", entity->compound_member.bit_size);
1466 print_type_ext(declaration->type, declaration->base.symbol, NULL);
1473 * Prints an expression.
1475 * @param expression the expression
1477 void print_expression(const expression_t *expression)
1479 print_expression_prec(expression, PREC_BOTTOM);
1483 * Print a declaration.
1485 * @param declaration the declaration
1487 void print_entity(const entity_t *entity)
1489 if (entity->base.namespc != NAMESPACE_NORMAL && entity->base.symbol == NULL)
1492 switch ((entity_kind_tag_t)entity->kind) {
1493 case ENTITY_VARIABLE:
1494 case ENTITY_PARAMETER:
1495 case ENTITY_COMPOUND_MEMBER:
1496 case ENTITY_FUNCTION:
1497 print_declaration(entity);
1499 case ENTITY_TYPEDEF:
1500 print_typedef(entity);
1504 print_string("class ");
1505 print_string(entity->base.symbol->string);
1506 print_string("; /* TODO */\n");
1509 print_string("struct ");
1510 goto print_compound;
1512 print_string("union ");
1514 print_string(entity->base.symbol->string);
1515 if (entity->compound.complete) {
1517 print_compound_definition(&entity->compound);
1522 print_string("enum ");
1523 print_string(entity->base.symbol->string);
1525 print_enum_definition(&entity->enume);
1528 case ENTITY_NAMESPACE:
1529 print_namespace(&entity->namespacee);
1531 case ENTITY_LOCAL_LABEL:
1532 print_string("__label__ ");
1533 print_string(entity->base.symbol->string);
1537 case ENTITY_ENUM_VALUE:
1538 panic("print_entity used on unexpected entity type");
1540 panic("Invalid entity type encountered");
1544 * Print the AST of a translation unit.
1546 * @param unit the translation unit
1548 void print_ast(const translation_unit_t *unit)
1550 entity_t *entity = unit->scope.entities;
1551 for ( ; entity != NULL; entity = entity->base.next) {
1552 if (entity->kind == ENTITY_ENUM_VALUE)
1554 if (entity->base.namespc != NAMESPACE_NORMAL
1555 && entity->base.symbol == NULL)
1557 if (is_generated_entity(entity))
1561 print_entity(entity);
1566 expression_classification_t is_constant_initializer(const initializer_t *initializer)
1568 switch (initializer->kind) {
1569 case INITIALIZER_STRING:
1570 case INITIALIZER_WIDE_STRING:
1571 case INITIALIZER_DESIGNATOR:
1572 return EXPR_CLASS_CONSTANT;
1574 case INITIALIZER_VALUE:
1575 return is_linker_constant(initializer->value.value);
1577 case INITIALIZER_LIST: {
1578 expression_classification_t all = EXPR_CLASS_CONSTANT;
1579 for (size_t i = 0; i < initializer->list.len; ++i) {
1580 initializer_t *sub_initializer = initializer->list.initializers[i];
1581 expression_classification_t const cur = is_constant_initializer(sub_initializer);
1589 panic("invalid initializer kind found");
1593 * Checks if an expression references an object with a constant/known location
1594 * to the linker. Example:
1595 * - "x", "*&x" with x being a global variable. The value of x need not be
1596 * constant but the address of x is.
1597 * - "a.b.c" when a has a constant/known location to the linker
1599 static expression_classification_t is_object_with_linker_constant_address(
1600 const expression_t *expression)
1602 switch (expression->kind) {
1603 case EXPR_UNARY_DEREFERENCE:
1604 return is_linker_constant(expression->unary.value);
1607 type_t *base_type = skip_typeref(expression->select.compound->base.type);
1608 if (is_type_pointer(base_type)) {
1610 return is_linker_constant(expression->select.compound);
1612 return is_object_with_linker_constant_address(expression->select.compound);
1616 case EXPR_ARRAY_ACCESS: {
1617 expression_classification_t const ref = is_linker_constant(expression->array_access.array_ref);
1618 expression_classification_t const idx = is_constant_expression(expression->array_access.index);
1619 return ref < idx ? ref : idx;
1622 case EXPR_REFERENCE: {
1623 entity_t *entity = expression->reference.entity;
1624 if (!is_declaration(entity))
1625 return EXPR_CLASS_VARIABLE;
1627 switch ((storage_class_tag_t)entity->declaration.storage_class) {
1628 case STORAGE_CLASS_NONE:
1629 case STORAGE_CLASS_EXTERN:
1630 case STORAGE_CLASS_STATIC:
1632 entity->kind != ENTITY_VARIABLE ||
1633 !entity->variable.thread_local ? EXPR_CLASS_CONSTANT :
1634 EXPR_CLASS_VARIABLE;
1636 case STORAGE_CLASS_REGISTER:
1637 case STORAGE_CLASS_TYPEDEF:
1638 case STORAGE_CLASS_AUTO:
1641 return EXPR_CLASS_VARIABLE;
1645 return EXPR_CLASS_ERROR;
1648 return EXPR_CLASS_VARIABLE;
1652 expression_classification_t is_linker_constant(const expression_t *expression)
1654 switch (expression->kind) {
1655 case EXPR_STRING_LITERAL:
1656 case EXPR_WIDE_STRING_LITERAL:
1658 case EXPR_LABEL_ADDRESS:
1659 return EXPR_CLASS_CONSTANT;
1661 case EXPR_COMPOUND_LITERAL:
1662 return is_constant_initializer(expression->compound_literal.initializer);
1664 case EXPR_UNARY_TAKE_ADDRESS:
1665 return is_object_with_linker_constant_address(expression->unary.value);
1667 case EXPR_UNARY_DEREFERENCE: {
1669 = revert_automatic_type_conversion(expression->unary.value);
1670 /* dereferencing a function is a NOP */
1671 if (is_type_function(real_type)) {
1672 return is_linker_constant(expression->unary.value);
1677 case EXPR_UNARY_CAST: {
1678 type_t *dest = skip_typeref(expression->base.type);
1679 if (!is_type_pointer(dest) && (
1680 dest->kind != TYPE_ATOMIC ||
1681 !(get_atomic_type_flags(dest->atomic.akind) & ATOMIC_TYPE_FLAG_INTEGER) ||
1682 get_atomic_type_size(dest->atomic.akind) < get_type_size(type_void_ptr)
1684 return is_constant_expression(expression);
1686 return is_linker_constant(expression->unary.value);
1689 case EXPR_BINARY_ADD:
1690 case EXPR_BINARY_SUB: {
1691 expression_t *const left = expression->binary.left;
1692 expression_t *const right = expression->binary.right;
1693 type_t *const ltype = skip_typeref(left->base.type);
1694 type_t *const rtype = skip_typeref(right->base.type);
1696 if (is_type_pointer(ltype)) {
1697 expression_classification_t const l = is_linker_constant(left);
1698 expression_classification_t const r = is_constant_expression(right);
1699 return l < r ? l : r;
1700 } else if (is_type_pointer(rtype)) {
1701 expression_classification_t const l = is_constant_expression(left);
1702 expression_classification_t const r = is_linker_constant(right);
1703 return l < r ? l : r;
1704 } else if (!is_type_valid(ltype) || !is_type_valid(rtype)) {
1705 return EXPR_CLASS_ERROR;
1707 return is_constant_expression(expression);
1711 case EXPR_REFERENCE: {
1712 entity_t *entity = expression->reference.entity;
1713 if (!is_declaration(entity))
1714 return EXPR_CLASS_VARIABLE;
1716 type_t *type = skip_typeref(entity->declaration.type);
1717 if (is_type_function(type))
1718 return EXPR_CLASS_CONSTANT;
1719 if (is_type_array(type)) {
1720 return is_object_with_linker_constant_address(expression);
1722 /* Prevent stray errors */
1723 if (!is_type_valid(type))
1724 return EXPR_CLASS_ERROR;
1725 return EXPR_CLASS_VARIABLE;
1728 case EXPR_ARRAY_ACCESS: {
1729 type_t *const type =
1730 skip_typeref(revert_automatic_type_conversion(expression));
1731 if (!is_type_array(type))
1732 return EXPR_CLASS_VARIABLE;
1733 return is_linker_constant(expression->array_access.array_ref);
1736 case EXPR_CONDITIONAL: {
1737 expression_t *const c = expression->conditional.condition;
1738 expression_classification_t const cclass = is_constant_expression(c);
1739 if (cclass != EXPR_CLASS_CONSTANT)
1742 if (fold_constant_to_bool(c)) {
1743 expression_t const *const t = expression->conditional.true_expression;
1744 return is_linker_constant(t != NULL ? t : c);
1746 return is_linker_constant(expression->conditional.false_expression);
1751 entity_t *entity = expression->select.compound_entry;
1752 if (!is_declaration(entity))
1753 return EXPR_CLASS_VARIABLE;
1754 type_t *type = skip_typeref(entity->declaration.type);
1755 if (is_type_array(type)) {
1756 /* arrays automatically convert to their address */
1757 expression_t *compound = expression->select.compound;
1758 type_t *base_type = skip_typeref(compound->base.type);
1759 if (is_type_pointer(base_type)) {
1761 return is_linker_constant(compound);
1763 return is_object_with_linker_constant_address(compound);
1766 return EXPR_CLASS_VARIABLE;
1770 return is_constant_expression(expression);
1775 * Check if the given expression is a call to a builtin function
1776 * returning a constant result.
1778 static expression_classification_t is_builtin_const_call(const expression_t *expression)
1780 expression_t *function = expression->call.function;
1781 if (function->kind != EXPR_REFERENCE)
1782 return EXPR_CLASS_VARIABLE;
1783 reference_expression_t *ref = &function->reference;
1784 if (ref->entity->kind != ENTITY_FUNCTION)
1785 return EXPR_CLASS_VARIABLE;
1787 switch (ref->entity->function.btk) {
1790 return EXPR_CLASS_CONSTANT;
1792 return EXPR_CLASS_VARIABLE;
1797 static expression_classification_t is_constant_pointer(const expression_t *expression)
1799 expression_classification_t const expr_class = is_constant_expression(expression);
1800 if (expr_class != EXPR_CLASS_VARIABLE)
1803 switch (expression->kind) {
1804 case EXPR_UNARY_CAST:
1805 return is_constant_pointer(expression->unary.value);
1807 return EXPR_CLASS_VARIABLE;
1811 static expression_classification_t is_object_with_constant_address(const expression_t *expression)
1813 switch (expression->kind) {
1815 expression_t *compound = expression->select.compound;
1816 type_t *compound_type = compound->base.type;
1817 compound_type = skip_typeref(compound_type);
1818 if (is_type_pointer(compound_type)) {
1819 return is_constant_pointer(compound);
1821 return is_object_with_constant_address(compound);
1825 case EXPR_ARRAY_ACCESS: {
1826 array_access_expression_t const* const array_access =
1827 &expression->array_access;
1828 expression_classification_t const idx_class = is_constant_expression(array_access->index);
1829 if (idx_class != EXPR_CLASS_CONSTANT)
1831 expression_classification_t const ref_addr = is_object_with_constant_address(array_access->array_ref);
1832 expression_classification_t const ref_ptr = is_constant_pointer(array_access->array_ref);
1833 return ref_addr > ref_ptr ? ref_addr : ref_ptr;
1836 case EXPR_UNARY_DEREFERENCE:
1837 return is_constant_pointer(expression->unary.value);
1840 return EXPR_CLASS_ERROR;
1843 return EXPR_CLASS_VARIABLE;
1847 expression_classification_t is_constant_expression(const expression_t *expression)
1849 switch (expression->kind) {
1851 case EXPR_CLASSIFY_TYPE:
1854 case EXPR_BUILTIN_CONSTANT_P:
1855 case EXPR_BUILTIN_TYPES_COMPATIBLE_P:
1856 case EXPR_REFERENCE_ENUM_VALUE:
1857 return EXPR_CLASS_CONSTANT;
1860 type_t *const type = skip_typeref(expression->typeprop.type);
1862 !is_type_array(type) || !type->array.is_vla ? EXPR_CLASS_CONSTANT :
1863 EXPR_CLASS_VARIABLE;
1866 case EXPR_STRING_LITERAL:
1867 case EXPR_WIDE_STRING_LITERAL:
1869 case EXPR_LABEL_ADDRESS:
1874 case EXPR_STATEMENT:
1875 case EXPR_UNARY_POSTFIX_INCREMENT:
1876 case EXPR_UNARY_POSTFIX_DECREMENT:
1877 case EXPR_UNARY_PREFIX_INCREMENT:
1878 case EXPR_UNARY_PREFIX_DECREMENT:
1879 case EXPR_UNARY_ASSUME: /* has VOID type */
1880 case EXPR_UNARY_DEREFERENCE:
1881 case EXPR_UNARY_DELETE:
1882 case EXPR_UNARY_DELETE_ARRAY:
1883 case EXPR_UNARY_THROW:
1884 case EXPR_BINARY_ASSIGN:
1885 case EXPR_BINARY_MUL_ASSIGN:
1886 case EXPR_BINARY_DIV_ASSIGN:
1887 case EXPR_BINARY_MOD_ASSIGN:
1888 case EXPR_BINARY_ADD_ASSIGN:
1889 case EXPR_BINARY_SUB_ASSIGN:
1890 case EXPR_BINARY_SHIFTLEFT_ASSIGN:
1891 case EXPR_BINARY_SHIFTRIGHT_ASSIGN:
1892 case EXPR_BINARY_BITWISE_AND_ASSIGN:
1893 case EXPR_BINARY_BITWISE_XOR_ASSIGN:
1894 case EXPR_BINARY_BITWISE_OR_ASSIGN:
1895 case EXPR_BINARY_COMMA:
1896 case EXPR_ARRAY_ACCESS:
1897 return EXPR_CLASS_VARIABLE;
1899 case EXPR_REFERENCE: {
1900 type_t *const type = skip_typeref(expression->base.type);
1901 return is_type_valid(type) ? EXPR_CLASS_VARIABLE : EXPR_CLASS_ERROR;
1904 case EXPR_UNARY_TAKE_ADDRESS:
1905 return is_object_with_constant_address(expression->unary.value);
1908 return is_builtin_const_call(expression);
1910 case EXPR_UNARY_NEGATE:
1911 case EXPR_UNARY_PLUS:
1912 case EXPR_UNARY_BITWISE_NEGATE:
1913 case EXPR_UNARY_NOT:
1914 return is_constant_expression(expression->unary.value);
1916 case EXPR_UNARY_CAST: {
1917 type_t *const type = skip_typeref(expression->base.type);
1918 if (is_type_scalar(type))
1919 return is_constant_expression(expression->unary.value);
1920 if (!is_type_valid(type))
1921 return EXPR_CLASS_ERROR;
1922 return EXPR_CLASS_VARIABLE;
1925 case EXPR_BINARY_ADD:
1926 case EXPR_BINARY_SUB:
1927 case EXPR_BINARY_MUL:
1928 case EXPR_BINARY_DIV:
1929 case EXPR_BINARY_MOD:
1930 case EXPR_BINARY_EQUAL:
1931 case EXPR_BINARY_NOTEQUAL:
1932 case EXPR_BINARY_LESS:
1933 case EXPR_BINARY_LESSEQUAL:
1934 case EXPR_BINARY_GREATER:
1935 case EXPR_BINARY_GREATEREQUAL:
1936 case EXPR_BINARY_BITWISE_AND:
1937 case EXPR_BINARY_BITWISE_OR:
1938 case EXPR_BINARY_BITWISE_XOR:
1939 case EXPR_BINARY_SHIFTLEFT:
1940 case EXPR_BINARY_SHIFTRIGHT:
1941 case EXPR_BINARY_ISGREATER:
1942 case EXPR_BINARY_ISGREATEREQUAL:
1943 case EXPR_BINARY_ISLESS:
1944 case EXPR_BINARY_ISLESSEQUAL:
1945 case EXPR_BINARY_ISLESSGREATER:
1946 case EXPR_BINARY_ISUNORDERED: {
1947 expression_classification_t const l = is_constant_expression(expression->binary.left);
1948 expression_classification_t const r = is_constant_expression(expression->binary.right);
1949 return l < r ? l : r;
1952 case EXPR_BINARY_LOGICAL_AND: {
1953 expression_t const *const left = expression->binary.left;
1954 expression_classification_t const lclass = is_constant_expression(left);
1955 if (lclass != EXPR_CLASS_CONSTANT)
1957 if (!fold_constant_to_bool(left))
1958 return EXPR_CLASS_CONSTANT;
1959 return is_constant_expression(expression->binary.right);
1962 case EXPR_BINARY_LOGICAL_OR: {
1963 expression_t const *const left = expression->binary.left;
1964 expression_classification_t const lclass = is_constant_expression(left);
1965 if (lclass != EXPR_CLASS_CONSTANT)
1967 if (fold_constant_to_bool(left))
1968 return EXPR_CLASS_CONSTANT;
1969 return is_constant_expression(expression->binary.right);
1972 case EXPR_COMPOUND_LITERAL:
1973 return is_constant_initializer(expression->compound_literal.initializer);
1975 case EXPR_CONDITIONAL: {
1976 expression_t *const condition = expression->conditional.condition;
1977 expression_classification_t const cclass = is_constant_expression(condition);
1978 if (cclass != EXPR_CLASS_CONSTANT)
1981 if (fold_constant_to_bool(condition)) {
1982 expression_t const *const t = expression->conditional.true_expression;
1983 return t == NULL ? EXPR_CLASS_CONSTANT : is_constant_expression(t);
1985 return is_constant_expression(expression->conditional.false_expression);
1990 return EXPR_CLASS_ERROR;
1992 panic("invalid expression found (is constant expression)");
1997 obstack_init(&ast_obstack);
2002 obstack_free(&ast_obstack, NULL);