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/* Subroutines common to both C and C++ pretty-printers. Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 Free Software Foundation, Inc. Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net> This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see <http://www.gnu.org/licenses/>. */ #include "config.h" #include "system.h" #include "coretypes.h" #include "tm.h" #include "tree.h" #include "intl.h" #include "c-pretty-print.h" #include "tree-pretty-print.h" #include "tree-iterator.h" #include "diagnostic.h" /* Translate if being used for diagnostics, but not for dump files or __PRETTY_FUNCTION. */ #define M_(msgid) (pp_translate_identifiers (pp) ? _(msgid) : (msgid)) /* The pretty-printer code is primarily designed to closely follow (GNU) C and C++ grammars. That is to be contrasted with spaghetti codes we used to have in the past. Following a structured approach (preferably the official grammars) is believed to make it much easier to add extensions and nifty pretty-printing effects that takes expression or declaration contexts into account. */ #define pp_c_maybe_whitespace(PP) \ do { \ if (pp_base (PP)->padding == pp_before) \ pp_c_whitespace (PP); \ } while (0) /* literal */ static void pp_c_char (c_pretty_printer *, int); /* postfix-expression */ static void pp_c_initializer_list (c_pretty_printer *, tree); static void pp_c_brace_enclosed_initializer_list (c_pretty_printer *, tree); static void pp_c_multiplicative_expression (c_pretty_printer *, tree); static void pp_c_additive_expression (c_pretty_printer *, tree); static void pp_c_shift_expression (c_pretty_printer *, tree); static void pp_c_relational_expression (c_pretty_printer *, tree); static void pp_c_equality_expression (c_pretty_printer *, tree); static void pp_c_and_expression (c_pretty_printer *, tree); static void pp_c_exclusive_or_expression (c_pretty_printer *, tree); static void pp_c_inclusive_or_expression (c_pretty_printer *, tree); static void pp_c_logical_and_expression (c_pretty_printer *, tree); static void pp_c_conditional_expression (c_pretty_printer *, tree); static void pp_c_assignment_expression (c_pretty_printer *, tree); /* declarations. */ /* Helper functions. */ void pp_c_whitespace (c_pretty_printer *pp) { pp_space (pp); pp_base (pp)->padding = pp_none; } void pp_c_left_paren (c_pretty_printer *pp) { pp_left_paren (pp); pp_base (pp)->padding = pp_none; } void pp_c_right_paren (c_pretty_printer *pp) { pp_right_paren (pp); pp_base (pp)->padding = pp_none; } void pp_c_left_brace (c_pretty_printer *pp) { pp_left_brace (pp); pp_base (pp)->padding = pp_none; } void pp_c_right_brace (c_pretty_printer *pp) { pp_right_brace (pp); pp_base (pp)->padding = pp_none; } void pp_c_left_bracket (c_pretty_printer *pp) { pp_left_bracket (pp); pp_base (pp)->padding = pp_none; } void pp_c_right_bracket (c_pretty_printer *pp) { pp_right_bracket (pp); pp_base (pp)->padding = pp_none; } void pp_c_dot (c_pretty_printer *pp) { pp_dot (pp); pp_base (pp)->padding = pp_none; } void pp_c_ampersand (c_pretty_printer *pp) { pp_ampersand (pp); pp_base (pp)->padding = pp_none; } void pp_c_star (c_pretty_printer *pp) { pp_star (pp); pp_base (pp)->padding = pp_none; } void pp_c_arrow (c_pretty_printer *pp) { pp_arrow (pp); pp_base (pp)->padding = pp_none; } void pp_c_semicolon (c_pretty_printer *pp) { pp_semicolon (pp); pp_base (pp)->padding = pp_none; } void pp_c_complement (c_pretty_printer *pp) { pp_complement (pp); pp_base (pp)->padding = pp_none; } void pp_c_exclamation (c_pretty_printer *pp) { pp_exclamation (pp); pp_base (pp)->padding = pp_none; } /* Print out the external representation of QUALIFIERS. */ void pp_c_cv_qualifiers (c_pretty_printer *pp, int qualifiers, bool func_type) { const char *p = pp_last_position_in_text (pp); bool previous = false; if (!qualifiers) return; /* The C programming language does not have references, but it is much simpler to handle those here rather than going through the same logic in the C++ pretty-printer. */ if (p != NULL && (*p == '*' || *p == '&')) pp_c_whitespace (pp); if (qualifiers & TYPE_QUAL_CONST) { pp_c_ws_string (pp, func_type ? "__attribute__((const))" : "const"); previous = true; } if (qualifiers & TYPE_QUAL_VOLATILE) { if (previous) pp_c_whitespace (pp); pp_c_ws_string (pp, func_type ? "__attribute__((noreturn))" : "volatile"); previous = true; } if (qualifiers & TYPE_QUAL_RESTRICT) { if (previous) pp_c_whitespace (pp); pp_c_ws_string (pp, (flag_isoc99 && !c_dialect_cxx () ? "restrict" : "__restrict__")); } } /* Pretty-print T using the type-cast notation '( type-name )'. */ static void pp_c_type_cast (c_pretty_printer *pp, tree t) { pp_c_left_paren (pp); pp_type_id (pp, t); pp_c_right_paren (pp); } /* We're about to pretty-print a pointer type as indicated by T. Output a whitespace, if needed, preparing for subsequent output. */ void pp_c_space_for_pointer_operator (c_pretty_printer *pp, tree t) { if (POINTER_TYPE_P (t)) { tree pointee = strip_pointer_operator (TREE_TYPE (t)); if (TREE_CODE (pointee) != ARRAY_TYPE && TREE_CODE (pointee) != FUNCTION_TYPE) pp_c_whitespace (pp); } } /* Declarations. */ /* C++ cv-qualifiers are called type-qualifiers in C. Print out the cv-qualifiers of T. If T is a declaration then it is the cv-qualifier of its type. Take care of possible extensions. type-qualifier-list: type-qualifier type-qualifier-list type-qualifier type-qualifier: const restrict -- C99 __restrict__ -- GNU C address-space-qualifier -- GNU C volatile address-space-qualifier: identifier -- GNU C */ void pp_c_type_qualifier_list (c_pretty_printer *pp, tree t) { int qualifiers; if (!t || t == error_mark_node) return; if (!TYPE_P (t)) t = TREE_TYPE (t); qualifiers = TYPE_QUALS (t); pp_c_cv_qualifiers (pp, qualifiers, TREE_CODE (t) == FUNCTION_TYPE); if (!ADDR_SPACE_GENERIC_P (TYPE_ADDR_SPACE (t))) { const char *as = c_addr_space_name (TYPE_ADDR_SPACE (t)); pp_c_identifier (pp, as); } } /* pointer: * type-qualifier-list(opt) * type-qualifier-list(opt) pointer */ static void pp_c_pointer (c_pretty_printer *pp, tree t) { if (!TYPE_P (t) && TREE_CODE (t) != TYPE_DECL) t = TREE_TYPE (t); switch (TREE_CODE (t)) { case POINTER_TYPE: /* It is easier to handle C++ reference types here. */ case REFERENCE_TYPE: if (TREE_CODE (TREE_TYPE (t)) == POINTER_TYPE) pp_c_pointer (pp, TREE_TYPE (t)); if (TREE_CODE (t) == POINTER_TYPE) pp_c_star (pp); else pp_c_ampersand (pp); pp_c_type_qualifier_list (pp, t); break; /* ??? This node is now in GENERIC and so shouldn't be here. But we'll fix that later. */ case DECL_EXPR: pp_declaration (pp, DECL_EXPR_DECL (t)); pp_needs_newline (pp) = true; break; default: pp_unsupported_tree (pp, t); } } /* type-specifier: void char short int long float double signed unsigned _Bool -- C99 _Complex -- C99 _Imaginary -- C99 struct-or-union-specifier enum-specifier typedef-name. GNU extensions. simple-type-specifier: __complex__ __vector__ */ void pp_c_type_specifier (c_pretty_printer *pp, tree t) { const enum tree_code code = TREE_CODE (t); switch (code) { case ERROR_MARK: pp_c_ws_string (pp, M_("<type-error>")); break; case IDENTIFIER_NODE: pp_c_identifier (pp, IDENTIFIER_POINTER (t)); break; case VOID_TYPE: case BOOLEAN_TYPE: case INTEGER_TYPE: case REAL_TYPE: case FIXED_POINT_TYPE: if (TYPE_NAME (t)) { t = TYPE_NAME (t); pp_c_type_specifier (pp, t); } else { int prec = TYPE_PRECISION (t); if (ALL_FIXED_POINT_MODE_P (TYPE_MODE (t))) t = c_common_type_for_mode (TYPE_MODE (t), TYPE_SATURATING (t)); else t = c_common_type_for_mode (TYPE_MODE (t), TYPE_UNSIGNED (t)); if (TYPE_NAME (t)) { pp_c_type_specifier (pp, t); if (TYPE_PRECISION (t) != prec) { pp_string (pp, ":"); pp_decimal_int (pp, prec); } } else { switch (code) { case INTEGER_TYPE: pp_string (pp, (TYPE_UNSIGNED (t) ? M_("<unnamed-unsigned:") : M_("<unnamed-signed:"))); break; case REAL_TYPE: pp_string (pp, M_("<unnamed-float:")); break; case FIXED_POINT_TYPE: pp_string (pp, M_("<unnamed-fixed:")); break; default: gcc_unreachable (); } pp_decimal_int (pp, prec); pp_string (pp, ">"); } } break; case TYPE_DECL: if (DECL_NAME (t)) pp_id_expression (pp, t); else pp_c_ws_string (pp, M_("<typedef-error>")); break; case UNION_TYPE: case RECORD_TYPE: case ENUMERAL_TYPE: if (code == UNION_TYPE) pp_c_ws_string (pp, "union"); else if (code == RECORD_TYPE) pp_c_ws_string (pp, "struct"); else if (code == ENUMERAL_TYPE) pp_c_ws_string (pp, "enum"); else pp_c_ws_string (pp, M_("<tag-error>")); if (TYPE_NAME (t)) pp_id_expression (pp, TYPE_NAME (t)); else pp_c_ws_string (pp, M_("<anonymous>")); break; default: pp_unsupported_tree (pp, t); break; } } /* specifier-qualifier-list: type-specifier specifier-qualifier-list-opt type-qualifier specifier-qualifier-list-opt Implementation note: Because of the non-linearities in array or function declarations, this routine prints not just the specifier-qualifier-list of such entities or types of such entities, but also the 'pointer' production part of their declarators. The remaining part is done by pp_declarator or pp_c_abstract_declarator. */ void pp_c_specifier_qualifier_list (c_pretty_printer *pp, tree t) { const enum tree_code code = TREE_CODE (t); if (TREE_CODE (t) != POINTER_TYPE) pp_c_type_qualifier_list (pp, t); switch (code) { case REFERENCE_TYPE: case POINTER_TYPE: { /* Get the types-specifier of this type. */ tree pointee = strip_pointer_operator (TREE_TYPE (t)); pp_c_specifier_qualifier_list (pp, pointee); if (TREE_CODE (pointee) == ARRAY_TYPE || TREE_CODE (pointee) == FUNCTION_TYPE) { pp_c_whitespace (pp); pp_c_left_paren (pp); pp_c_attributes_display (pp, TYPE_ATTRIBUTES (pointee)); } else if (!c_dialect_cxx ()) pp_c_whitespace (pp); pp_ptr_operator (pp, t); } break; case FUNCTION_TYPE: case ARRAY_TYPE: pp_c_specifier_qualifier_list (pp, TREE_TYPE (t)); break; case VECTOR_TYPE: case COMPLEX_TYPE: if (code == COMPLEX_TYPE) pp_c_ws_string (pp, (flag_isoc99 && !c_dialect_cxx () ? "_Complex" : "__complex__")); else if (code == VECTOR_TYPE) { pp_c_ws_string (pp, "__vector"); pp_c_left_paren (pp); pp_wide_integer (pp, TYPE_VECTOR_SUBPARTS (t)); pp_c_right_paren (pp); pp_c_whitespace (pp); } pp_c_specifier_qualifier_list (pp, TREE_TYPE (t)); break; default: pp_simple_type_specifier (pp, t); break; } } /* parameter-type-list: parameter-list parameter-list , ... parameter-list: parameter-declaration parameter-list , parameter-declaration parameter-declaration: declaration-specifiers declarator declaration-specifiers abstract-declarator(opt) */ void pp_c_parameter_type_list (c_pretty_printer *pp, tree t) { bool want_parm_decl = DECL_P (t) && !(pp->flags & pp_c_flag_abstract); tree parms = want_parm_decl ? DECL_ARGUMENTS (t) : TYPE_ARG_TYPES (t); pp_c_left_paren (pp); if (parms == void_list_node) pp_c_ws_string (pp, "void"); else { bool first = true; for ( ; parms && parms != void_list_node; parms = TREE_CHAIN (parms)) { if (!first) pp_separate_with (pp, ','); first = false; pp_declaration_specifiers (pp, want_parm_decl ? parms : TREE_VALUE (parms)); if (want_parm_decl) pp_declarator (pp, parms); else pp_abstract_declarator (pp, TREE_VALUE (parms)); } } pp_c_right_paren (pp); } /* abstract-declarator: pointer pointer(opt) direct-abstract-declarator */ static void pp_c_abstract_declarator (c_pretty_printer *pp, tree t) { if (TREE_CODE (t) == POINTER_TYPE) { if (TREE_CODE (TREE_TYPE (t)) == ARRAY_TYPE || TREE_CODE (TREE_TYPE (t)) == FUNCTION_TYPE) pp_c_right_paren (pp); t = TREE_TYPE (t); } pp_direct_abstract_declarator (pp, t); } /* direct-abstract-declarator: ( abstract-declarator ) direct-abstract-declarator(opt) [ assignment-expression(opt) ] direct-abstract-declarator(opt) [ * ] direct-abstract-declarator(opt) ( parameter-type-list(opt) ) */ void pp_c_direct_abstract_declarator (c_pretty_printer *pp, tree t) { switch (TREE_CODE (t)) { case POINTER_TYPE: pp_abstract_declarator (pp, t); break; case FUNCTION_TYPE: pp_c_parameter_type_list (pp, t); pp_direct_abstract_declarator (pp, TREE_TYPE (t)); break; case ARRAY_TYPE: pp_c_left_bracket (pp); if (TYPE_DOMAIN (t) && TYPE_MAX_VALUE (TYPE_DOMAIN (t))) { tree maxval = TYPE_MAX_VALUE (TYPE_DOMAIN (t)); tree type = TREE_TYPE (maxval); if (host_integerp (maxval, 0)) pp_wide_integer (pp, tree_low_cst (maxval, 0) + 1); else pp_expression (pp, fold_build2 (PLUS_EXPR, type, maxval, build_int_cst (type, 1))); } pp_c_right_bracket (pp); pp_direct_abstract_declarator (pp, TREE_TYPE (t)); break; case IDENTIFIER_NODE: case VOID_TYPE: case BOOLEAN_TYPE: case INTEGER_TYPE: case REAL_TYPE: case FIXED_POINT_TYPE: case ENUMERAL_TYPE: case RECORD_TYPE: case UNION_TYPE: case VECTOR_TYPE: case COMPLEX_TYPE: case TYPE_DECL: break; default: pp_unsupported_tree (pp, t); break; } } /* type-name: specifier-qualifier-list abstract-declarator(opt) */ void pp_c_type_id (c_pretty_printer *pp, tree t) { pp_c_specifier_qualifier_list (pp, t); pp_abstract_declarator (pp, t); } /* storage-class-specifier: typedef extern static auto register */ void pp_c_storage_class_specifier (c_pretty_printer *pp, tree t) { if (TREE_CODE (t) == TYPE_DECL) pp_c_ws_string (pp, "typedef"); else if (DECL_P (t)) { if (DECL_REGISTER (t)) pp_c_ws_string (pp, "register"); else if (TREE_STATIC (t) && TREE_CODE (t) == VAR_DECL) pp_c_ws_string (pp, "static"); } } /* function-specifier: inline */ void pp_c_function_specifier (c_pretty_printer *pp, tree t) { if (TREE_CODE (t) == FUNCTION_DECL && DECL_DECLARED_INLINE_P (t)) pp_c_ws_string (pp, "inline"); } /* declaration-specifiers: storage-class-specifier declaration-specifiers(opt) type-specifier declaration-specifiers(opt) type-qualifier declaration-specifiers(opt) function-specifier declaration-specifiers(opt) */ void pp_c_declaration_specifiers (c_pretty_printer *pp, tree t) { pp_storage_class_specifier (pp, t); pp_function_specifier (pp, t); pp_c_specifier_qualifier_list (pp, DECL_P (t) ? TREE_TYPE (t) : t); } /* direct-declarator identifier ( declarator ) direct-declarator [ type-qualifier-list(opt) assignment-expression(opt) ] direct-declarator [ static type-qualifier-list(opt) assignment-expression(opt)] direct-declarator [ type-qualifier-list static assignment-expression ] direct-declarator [ type-qualifier-list * ] direct-declarator ( parameter-type-list ) direct-declarator ( identifier-list(opt) ) */ void pp_c_direct_declarator (c_pretty_printer *pp, tree t) { switch (TREE_CODE (t)) { case VAR_DECL: case PARM_DECL: case TYPE_DECL: case FIELD_DECL: case LABEL_DECL: pp_c_space_for_pointer_operator (pp, TREE_TYPE (t)); pp_c_tree_decl_identifier (pp, t); break; case ARRAY_TYPE: case POINTER_TYPE: pp_abstract_declarator (pp, TREE_TYPE (t)); break; case FUNCTION_TYPE: pp_parameter_list (pp, t); pp_abstract_declarator (pp, TREE_TYPE (t)); break; case FUNCTION_DECL: pp_c_space_for_pointer_operator (pp, TREE_TYPE (TREE_TYPE (t))); pp_c_tree_decl_identifier (pp, t); if (pp_c_base (pp)->flags & pp_c_flag_abstract) pp_abstract_declarator (pp, TREE_TYPE (t)); else { pp_parameter_list (pp, t); pp_abstract_declarator (pp, TREE_TYPE (TREE_TYPE (t))); } break; case INTEGER_TYPE: case REAL_TYPE: case FIXED_POINT_TYPE: case ENUMERAL_TYPE: case UNION_TYPE: case RECORD_TYPE: break; default: pp_unsupported_tree (pp, t); break; } } /* declarator: pointer(opt) direct-declarator */ void pp_c_declarator (c_pretty_printer *pp, tree t) { switch (TREE_CODE (t)) { case INTEGER_TYPE: case REAL_TYPE: case FIXED_POINT_TYPE: case ENUMERAL_TYPE: case UNION_TYPE: case RECORD_TYPE: break; case VAR_DECL: case PARM_DECL: case FIELD_DECL: case ARRAY_TYPE: case FUNCTION_TYPE: case FUNCTION_DECL: case TYPE_DECL: pp_direct_declarator (pp, t); break; default: pp_unsupported_tree (pp, t); break; } } /* declaration: declaration-specifiers init-declarator-list(opt) ; */ void pp_c_declaration (c_pretty_printer *pp, tree t) { pp_declaration_specifiers (pp, t); pp_c_init_declarator (pp, t); } /* Pretty-print ATTRIBUTES using GNU C extension syntax. */ void pp_c_attributes (c_pretty_printer *pp, tree attributes) { if (attributes == NULL_TREE) return; pp_c_ws_string (pp, "__attribute__"); pp_c_left_paren (pp); pp_c_left_paren (pp); for (; attributes != NULL_TREE; attributes = TREE_CHAIN (attributes)) { pp_tree_identifier (pp, TREE_PURPOSE (attributes)); if (TREE_VALUE (attributes)) pp_c_call_argument_list (pp, TREE_VALUE (attributes)); if (TREE_CHAIN (attributes)) pp_separate_with (pp, ','); } pp_c_right_paren (pp); pp_c_right_paren (pp); } /* Pretty-print ATTRIBUTES using GNU C extension syntax for attributes marked to be displayed on disgnostic. */ void pp_c_attributes_display (c_pretty_printer *pp, tree a) { bool is_first = true; if (a == NULL_TREE) return; for (; a != NULL_TREE; a = TREE_CHAIN (a)) { const struct attribute_spec *as; as = lookup_attribute_spec (TREE_PURPOSE (a)); if (!as || as->affects_type_identity == false) continue; if (is_first) { pp_c_ws_string (pp, "__attribute__"); pp_c_left_paren (pp); pp_c_left_paren (pp); is_first = false; } else { pp_separate_with (pp, ','); } pp_tree_identifier (pp, TREE_PURPOSE (a)); if (TREE_VALUE (a)) pp_c_call_argument_list (pp, TREE_VALUE (a)); } if (!is_first) { pp_c_right_paren (pp); pp_c_right_paren (pp); pp_c_whitespace (pp); } } /* function-definition: declaration-specifiers declarator compound-statement */ void pp_c_function_definition (c_pretty_printer *pp, tree t) { pp_declaration_specifiers (pp, t); pp_declarator (pp, t); pp_needs_newline (pp) = true; pp_statement (pp, DECL_SAVED_TREE (t)); pp_newline (pp); pp_flush (pp); } /* Expressions. */ /* Print out a c-char. This is called solely for characters which are in the *target* execution character set. We ought to convert them back to the *host* execution character set before printing, but we have no way to do this at present. A decent compromise is to print all characters as if they were in the host execution character set, and not attempt to recover any named escape characters, but render all unprintables as octal escapes. If the host and target character sets are the same, this produces relatively readable output. If they are not the same, strings may appear as gibberish, but that's okay (in fact, it may well be what the reader wants, e.g. if they are looking to see if conversion to the target character set happened correctly). A special case: we need to prefix \, ", and ' with backslashes. It is correct to do so for the *host*'s \, ", and ', because the rest of the file appears in the host character set. */ static void pp_c_char (c_pretty_printer *pp, int c) { if (ISPRINT (c)) { switch (c) { case '\\': pp_string (pp, "\\\\"); break; case '\'': pp_string (pp, "\\\'"); break; case '\"': pp_string (pp, "\\\""); break; default: pp_character (pp, c); } } else pp_scalar (pp, "\\%03o", (unsigned) c); } /* Print out a STRING literal. */ void pp_c_string_literal (c_pretty_printer *pp, tree s) { const char *p = TREE_STRING_POINTER (s); int n = TREE_STRING_LENGTH (s) - 1; int i; pp_doublequote (pp); for (i = 0; i < n; ++i) pp_c_char (pp, p[i]); pp_doublequote (pp); } /* Pretty-print an INTEGER literal. */ static void pp_c_integer_constant (c_pretty_printer *pp, tree i) { /* We are going to compare the type of I to other types using pointer comparison so we need to use its canonical type. */ tree type = TYPE_CANONICAL (TREE_TYPE (i)) ? TYPE_CANONICAL (TREE_TYPE (i)) : TREE_TYPE (i); if (host_integerp (i, 0)) pp_wide_integer (pp, TREE_INT_CST_LOW (i)); else if (host_integerp (i, 1)) pp_unsigned_wide_integer (pp, TREE_INT_CST_LOW (i)); else { unsigned HOST_WIDE_INT low = TREE_INT_CST_LOW (i); HOST_WIDE_INT high = TREE_INT_CST_HIGH (i); if (tree_int_cst_sgn (i) < 0) { pp_character (pp, '-'); high = ~high + !low; low = -low; } sprintf (pp_buffer (pp)->digit_buffer, HOST_WIDE_INT_PRINT_DOUBLE_HEX, (unsigned HOST_WIDE_INT) high, (unsigned HOST_WIDE_INT) low); pp_string (pp, pp_buffer (pp)->digit_buffer); } if (TYPE_UNSIGNED (type)) pp_character (pp, 'u'); if (type == long_integer_type_node || type == long_unsigned_type_node) pp_character (pp, 'l'); else if (type == long_long_integer_type_node || type == long_long_unsigned_type_node) pp_string (pp, "ll"); else if (type == int128_integer_type_node || type == int128_unsigned_type_node) pp_string (pp, "I128"); } /* Print out a CHARACTER literal. */ static void pp_c_character_constant (c_pretty_printer *pp, tree c) { tree type = TREE_TYPE (c); if (type == wchar_type_node) pp_character (pp, 'L'); pp_quote (pp); if (host_integerp (c, TYPE_UNSIGNED (type))) pp_c_char (pp, tree_low_cst (c, TYPE_UNSIGNED (type))); else pp_scalar (pp, "\\x%x", (unsigned) TREE_INT_CST_LOW (c)); pp_quote (pp); } /* Print out a BOOLEAN literal. */ static void pp_c_bool_constant (c_pretty_printer *pp, tree b) { if (b == boolean_false_node) { if (c_dialect_cxx ()) pp_c_ws_string (pp, "false"); else if (flag_isoc99) pp_c_ws_string (pp, "_False"); else pp_unsupported_tree (pp, b); } else if (b == boolean_true_node) { if (c_dialect_cxx ()) pp_c_ws_string (pp, "true"); else if (flag_isoc99) pp_c_ws_string (pp, "_True"); else pp_unsupported_tree (pp, b); } else if (TREE_CODE (b) == INTEGER_CST) pp_c_integer_constant (pp, b); else pp_unsupported_tree (pp, b); } /* Attempt to print out an ENUMERATOR. Return true on success. Else return false; that means the value was obtained by a cast, in which case print out the type-id part of the cast-expression -- the casted value is then printed by pp_c_integer_literal. */ static bool pp_c_enumeration_constant (c_pretty_printer *pp, tree e) { bool value_is_named = true; tree type = TREE_TYPE (e); tree value; /* Find the name of this constant. */ for (value = TYPE_VALUES (type); value != NULL_TREE && !tree_int_cst_equal (TREE_VALUE (value), e); value = TREE_CHAIN (value)) ; if (value != NULL_TREE) pp_id_expression (pp, TREE_PURPOSE (value)); else { /* Value must have been cast. */ pp_c_type_cast (pp, type); value_is_named = false; } return value_is_named; } /* Print out a REAL value as a decimal-floating-constant. */ static void pp_c_floating_constant (c_pretty_printer *pp, tree r) { const struct real_format *fmt = REAL_MODE_FORMAT (TYPE_MODE (TREE_TYPE (r))); REAL_VALUE_TYPE floating_cst = TREE_REAL_CST (r); bool is_decimal = floating_cst.decimal; /* See ISO C++ WG N1822. Note: The fraction 643/2136 approximates log10(2) to 7 significant digits. */ int max_digits10 = 2 + (is_decimal ? fmt->p : fmt->p * 643L / 2136); real_to_decimal (pp_buffer (pp)->digit_buffer, &TREE_REAL_CST (r), sizeof (pp_buffer (pp)->digit_buffer), max_digits10, 1); pp_string (pp, pp_buffer(pp)->digit_buffer); if (TREE_TYPE (r) == float_type_node) pp_character (pp, 'f'); else if (TREE_TYPE (r) == long_double_type_node) pp_character (pp, 'l'); else if (TREE_TYPE (r) == dfloat128_type_node) pp_string (pp, "dl"); else if (TREE_TYPE (r) == dfloat64_type_node) pp_string (pp, "dd"); else if (TREE_TYPE (r) == dfloat32_type_node) pp_string (pp, "df"); } /* Print out a FIXED value as a decimal-floating-constant. */ static void pp_c_fixed_constant (c_pretty_printer *pp, tree r) { fixed_to_decimal (pp_buffer (pp)->digit_buffer, &TREE_FIXED_CST (r), sizeof (pp_buffer (pp)->digit_buffer)); pp_string (pp, pp_buffer(pp)->digit_buffer); } /* Pretty-print a compound literal expression. GNU extensions include vector constants. */ static void pp_c_compound_literal (c_pretty_printer *pp, tree e) { tree type = TREE_TYPE (e); pp_c_type_cast (pp, type); switch (TREE_CODE (type)) { case RECORD_TYPE: case UNION_TYPE: case ARRAY_TYPE: case VECTOR_TYPE: case COMPLEX_TYPE: pp_c_brace_enclosed_initializer_list (pp, e); break; default: pp_unsupported_tree (pp, e); break; } } /* Pretty-print a COMPLEX_EXPR expression. */ static void pp_c_complex_expr (c_pretty_printer *pp, tree e) { /* Handle a few common special cases, otherwise fallback to printing it as compound literal. */ tree type = TREE_TYPE (e); tree realexpr = TREE_OPERAND (e, 0); tree imagexpr = TREE_OPERAND (e, 1); /* Cast of an COMPLEX_TYPE expression to a different COMPLEX_TYPE. */ if (TREE_CODE (realexpr) == NOP_EXPR && TREE_CODE (imagexpr) == NOP_EXPR && TREE_TYPE (realexpr) == TREE_TYPE (type) && TREE_TYPE (imagexpr) == TREE_TYPE (type) && TREE_CODE (TREE_OPERAND (realexpr, 0)) == REALPART_EXPR && TREE_CODE (TREE_OPERAND (imagexpr, 0)) == IMAGPART_EXPR && TREE_OPERAND (TREE_OPERAND (realexpr, 0), 0) == TREE_OPERAND (TREE_OPERAND (imagexpr, 0), 0)) { pp_c_type_cast (pp, type); pp_expression (pp, TREE_OPERAND (TREE_OPERAND (realexpr, 0), 0)); return; } /* Cast of an scalar expression to COMPLEX_TYPE. */ if ((integer_zerop (imagexpr) || real_zerop (imagexpr)) && TREE_TYPE (realexpr) == TREE_TYPE (type)) { pp_c_type_cast (pp, type); if (TREE_CODE (realexpr) == NOP_EXPR) realexpr = TREE_OPERAND (realexpr, 0); pp_expression (pp, realexpr); return; } pp_c_compound_literal (pp, e); } /* constant: integer-constant floating-constant fixed-point-constant enumeration-constant character-constant */ void pp_c_constant (c_pretty_printer *pp, tree e) { const enum tree_code code = TREE_CODE (e); switch (code) { case INTEGER_CST: { tree type = TREE_TYPE (e); if (type == boolean_type_node) pp_c_bool_constant (pp, e); else if (type == char_type_node) pp_c_character_constant (pp, e); else if (TREE_CODE (type) == ENUMERAL_TYPE && pp_c_enumeration_constant (pp, e)) ; else pp_c_integer_constant (pp, e); } break; case REAL_CST: pp_c_floating_constant (pp, e); break; case FIXED_CST: pp_c_fixed_constant (pp, e); break; case STRING_CST: pp_c_string_literal (pp, e); break; case COMPLEX_CST: /* Sometimes, we are confused and we think a complex literal is a constant. Such thing is a compound literal which grammatically belongs to postfix-expr production. */ pp_c_compound_literal (pp, e); break; default: pp_unsupported_tree (pp, e); break; } } /* Pretty-print a string such as an identifier, without changing its encoding, preceded by whitespace is necessary. */ void pp_c_ws_string (c_pretty_printer *pp, const char *str) { pp_c_maybe_whitespace (pp); pp_string (pp, str); pp_base (pp)->padding = pp_before; } /* Pretty-print an IDENTIFIER_NODE, which may contain UTF-8 sequences that need converting to the locale encoding, preceded by whitespace is necessary. */ void pp_c_identifier (c_pretty_printer *pp, const char *id) { pp_c_maybe_whitespace (pp); pp_identifier (pp, id); pp_base (pp)->padding = pp_before; } /* Pretty-print a C primary-expression. primary-expression: identifier constant string-literal ( expression ) */ void pp_c_primary_expression (c_pretty_printer *pp, tree e) { switch (TREE_CODE (e)) { case VAR_DECL: case PARM_DECL: case FIELD_DECL: case CONST_DECL: case FUNCTION_DECL: case LABEL_DECL: pp_c_tree_decl_identifier (pp, e); break; case IDENTIFIER_NODE: pp_c_tree_identifier (pp, e); break; case ERROR_MARK: pp_c_ws_string (pp, M_("<erroneous-expression>")); break; case RESULT_DECL: pp_c_ws_string (pp, M_("<return-value>")); break; case INTEGER_CST: case REAL_CST: case FIXED_CST: case STRING_CST: pp_c_constant (pp, e); break; case TARGET_EXPR: pp_c_ws_string (pp, "__builtin_memcpy"); pp_c_left_paren (pp); pp_ampersand (pp); pp_primary_expression (pp, TREE_OPERAND (e, 0)); pp_separate_with (pp, ','); pp_ampersand (pp); pp_initializer (pp, TREE_OPERAND (e, 1)); if (TREE_OPERAND (e, 2)) { pp_separate_with (pp, ','); pp_c_expression (pp, TREE_OPERAND (e, 2)); } pp_c_right_paren (pp); break; default: /* FIXME: Make sure we won't get into an infinite loop. */ pp_c_left_paren (pp); pp_expression (pp, e); pp_c_right_paren (pp); break; } } /* Print out a C initializer -- also support C compound-literals. initializer: assignment-expression: { initializer-list } { initializer-list , } */ static void pp_c_initializer (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == CONSTRUCTOR) pp_c_brace_enclosed_initializer_list (pp, e); else pp_expression (pp, e); } /* init-declarator: declarator: declarator = initializer */ void pp_c_init_declarator (c_pretty_printer *pp, tree t) { pp_declarator (pp, t); /* We don't want to output function definitions here. There are handled elsewhere (and the syntactic form is bogus anyway). */ if (TREE_CODE (t) != FUNCTION_DECL && DECL_INITIAL (t)) { tree init = DECL_INITIAL (t); /* This C++ bit is handled here because it is easier to do so. In templates, the C++ parser builds a TREE_LIST for a direct-initialization; the TREE_PURPOSE is the variable to initialize and the TREE_VALUE is the initializer. */ if (TREE_CODE (init) == TREE_LIST) { pp_c_left_paren (pp); pp_expression (pp, TREE_VALUE (init)); pp_right_paren (pp); } else { pp_space (pp); pp_equal (pp); pp_space (pp); pp_c_initializer (pp, init); } } } /* initializer-list: designation(opt) initializer initializer-list , designation(opt) initializer designation: designator-list = designator-list: designator designator-list designator designator: [ constant-expression ] identifier */ static void pp_c_initializer_list (c_pretty_printer *pp, tree e) { tree type = TREE_TYPE (e); const enum tree_code code = TREE_CODE (type); if (TREE_CODE (e) == CONSTRUCTOR) { pp_c_constructor_elts (pp, CONSTRUCTOR_ELTS (e)); return; } switch (code) { case RECORD_TYPE: case UNION_TYPE: case ARRAY_TYPE: { tree init = TREE_OPERAND (e, 0); for (; init != NULL_TREE; init = TREE_CHAIN (init)) { if (code == RECORD_TYPE || code == UNION_TYPE) { pp_c_dot (pp); pp_c_primary_expression (pp, TREE_PURPOSE (init)); } else { pp_c_left_bracket (pp); if (TREE_PURPOSE (init)) pp_c_constant (pp, TREE_PURPOSE (init)); pp_c_right_bracket (pp); } pp_c_whitespace (pp); pp_equal (pp); pp_c_whitespace (pp); pp_initializer (pp, TREE_VALUE (init)); if (TREE_CHAIN (init)) pp_separate_with (pp, ','); } } return; case VECTOR_TYPE: if (TREE_CODE (e) == VECTOR_CST) pp_c_expression_list (pp, TREE_VECTOR_CST_ELTS (e)); else break; return; case COMPLEX_TYPE: if (TREE_CODE (e) == COMPLEX_CST || TREE_CODE (e) == COMPLEX_EXPR) { const bool cst = TREE_CODE (e) == COMPLEX_CST; pp_expression (pp, cst ? TREE_REALPART (e) : TREE_OPERAND (e, 0)); pp_separate_with (pp, ','); pp_expression (pp, cst ? TREE_IMAGPART (e) : TREE_OPERAND (e, 1)); } else break; return; default: break; } pp_unsupported_tree (pp, type); } /* Pretty-print a brace-enclosed initializer-list. */ static void pp_c_brace_enclosed_initializer_list (c_pretty_printer *pp, tree l) { pp_c_left_brace (pp); pp_c_initializer_list (pp, l); pp_c_right_brace (pp); } /* This is a convenient function, used to bridge gap between C and C++ grammars. id-expression: identifier */ void pp_c_id_expression (c_pretty_printer *pp, tree t) { switch (TREE_CODE (t)) { case VAR_DECL: case PARM_DECL: case CONST_DECL: case TYPE_DECL: case FUNCTION_DECL: case FIELD_DECL: case LABEL_DECL: pp_c_tree_decl_identifier (pp, t); break; case IDENTIFIER_NODE: pp_c_tree_identifier (pp, t); break; default: pp_unsupported_tree (pp, t); break; } } /* postfix-expression: primary-expression postfix-expression [ expression ] postfix-expression ( argument-expression-list(opt) ) postfix-expression . identifier postfix-expression -> identifier postfix-expression ++ postfix-expression -- ( type-name ) { initializer-list } ( type-name ) { initializer-list , } */ void pp_c_postfix_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case POSTINCREMENT_EXPR: case POSTDECREMENT_EXPR: pp_postfix_expression (pp, TREE_OPERAND (e, 0)); pp_string (pp, code == POSTINCREMENT_EXPR ? "++" : "--"); break; case ARRAY_REF: pp_postfix_expression (pp, TREE_OPERAND (e, 0)); pp_c_left_bracket (pp); pp_expression (pp, TREE_OPERAND (e, 1)); pp_c_right_bracket (pp); break; case CALL_EXPR: { call_expr_arg_iterator iter; tree arg; pp_postfix_expression (pp, CALL_EXPR_FN (e)); pp_c_left_paren (pp); FOR_EACH_CALL_EXPR_ARG (arg, iter, e) { pp_expression (pp, arg); if (more_call_expr_args_p (&iter)) pp_separate_with (pp, ','); } pp_c_right_paren (pp); break; } case UNORDERED_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "isunordered" : "__builtin_isunordered"); goto two_args_fun; case ORDERED_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "!isunordered" : "!__builtin_isunordered"); goto two_args_fun; case UNLT_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "!isgreaterequal" : "!__builtin_isgreaterequal"); goto two_args_fun; case UNLE_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "!isgreater" : "!__builtin_isgreater"); goto two_args_fun; case UNGT_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "!islessequal" : "!__builtin_islessequal"); goto two_args_fun; case UNGE_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "!isless" : "!__builtin_isless"); goto two_args_fun; case UNEQ_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "!islessgreater" : "!__builtin_islessgreater"); goto two_args_fun; case LTGT_EXPR: pp_c_ws_string (pp, flag_isoc99 ? "islessgreater" : "__builtin_islessgreater"); goto two_args_fun; two_args_fun: pp_c_left_paren (pp); pp_expression (pp, TREE_OPERAND (e, 0)); pp_separate_with (pp, ','); pp_expression (pp, TREE_OPERAND (e, 1)); pp_c_right_paren (pp); break; case ABS_EXPR: pp_c_ws_string (pp, "__builtin_abs"); pp_c_left_paren (pp); pp_expression (pp, TREE_OPERAND (e, 0)); pp_c_right_paren (pp); break; case COMPONENT_REF: { tree object = TREE_OPERAND (e, 0); if (TREE_CODE (object) == INDIRECT_REF) { pp_postfix_expression (pp, TREE_OPERAND (object, 0)); pp_c_arrow (pp); } else { pp_postfix_expression (pp, object); pp_c_dot (pp); } pp_expression (pp, TREE_OPERAND (e, 1)); } break; case BIT_FIELD_REF: { tree type = TREE_TYPE (e); type = signed_or_unsigned_type_for (TYPE_UNSIGNED (type), type); if (type && tree_int_cst_equal (TYPE_SIZE (type), TREE_OPERAND (e, 1))) { HOST_WIDE_INT bitpos = tree_low_cst (TREE_OPERAND (e, 2), 0); HOST_WIDE_INT size = tree_low_cst (TYPE_SIZE (type), 0); if ((bitpos % size) == 0) { pp_c_left_paren (pp); pp_c_left_paren (pp); pp_type_id (pp, type); pp_c_star (pp); pp_c_right_paren (pp); pp_c_ampersand (pp); pp_expression (pp, TREE_OPERAND (e, 0)); pp_c_right_paren (pp); pp_c_left_bracket (pp); pp_wide_integer (pp, bitpos / size); pp_c_right_bracket (pp); break; } } pp_unsupported_tree (pp, e); } break; case MEM_REF: pp_c_expression (pp, e); break; case COMPLEX_CST: case VECTOR_CST: pp_c_compound_literal (pp, e); break; case COMPLEX_EXPR: pp_c_complex_expr (pp, e); break; case COMPOUND_LITERAL_EXPR: e = DECL_INITIAL (COMPOUND_LITERAL_EXPR_DECL (e)); /* Fall through. */ case CONSTRUCTOR: pp_initializer (pp, e); break; case VA_ARG_EXPR: pp_c_ws_string (pp, "__builtin_va_arg"); pp_c_left_paren (pp); pp_assignment_expression (pp, TREE_OPERAND (e, 0)); pp_separate_with (pp, ','); pp_type_id (pp, TREE_TYPE (e)); pp_c_right_paren (pp); break; case ADDR_EXPR: if (TREE_CODE (TREE_OPERAND (e, 0)) == FUNCTION_DECL) { pp_c_id_expression (pp, TREE_OPERAND (e, 0)); break; } /* else fall through. */ default: pp_primary_expression (pp, e); break; } } /* Print out an expression-list; E is expected to be a TREE_LIST. */ void pp_c_expression_list (c_pretty_printer *pp, tree e) { for (; e != NULL_TREE; e = TREE_CHAIN (e)) { pp_expression (pp, TREE_VALUE (e)); if (TREE_CHAIN (e)) pp_separate_with (pp, ','); } } /* Print out V, which contains the elements of a constructor. */ void pp_c_constructor_elts (c_pretty_printer *pp, VEC(constructor_elt,gc) *v) { unsigned HOST_WIDE_INT ix; tree value; FOR_EACH_CONSTRUCTOR_VALUE (v, ix, value) { pp_expression (pp, value); if (ix != VEC_length (constructor_elt, v) - 1) pp_separate_with (pp, ','); } } /* Print out an expression-list in parens, as if it were the argument list to a function. */ void pp_c_call_argument_list (c_pretty_printer *pp, tree t) { pp_c_left_paren (pp); if (t && TREE_CODE (t) == TREE_LIST) pp_c_expression_list (pp, t); pp_c_right_paren (pp); } /* unary-expression: postfix-expression ++ cast-expression -- cast-expression unary-operator cast-expression sizeof unary-expression sizeof ( type-id ) unary-operator: one of * & + - ! ~ GNU extensions. unary-expression: __alignof__ unary-expression __alignof__ ( type-id ) __real__ unary-expression __imag__ unary-expression */ void pp_c_unary_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case PREINCREMENT_EXPR: case PREDECREMENT_EXPR: pp_string (pp, code == PREINCREMENT_EXPR ? "++" : "--"); pp_c_unary_expression (pp, TREE_OPERAND (e, 0)); break; case ADDR_EXPR: case INDIRECT_REF: case NEGATE_EXPR: case BIT_NOT_EXPR: case TRUTH_NOT_EXPR: case CONJ_EXPR: /* String literal are used by address. */ if (code == ADDR_EXPR && TREE_CODE (TREE_OPERAND (e, 0)) != STRING_CST) pp_ampersand (pp); else if (code == INDIRECT_REF) pp_c_star (pp); else if (code == NEGATE_EXPR) pp_minus (pp); else if (code == BIT_NOT_EXPR || code == CONJ_EXPR) pp_complement (pp); else if (code == TRUTH_NOT_EXPR) pp_exclamation (pp); pp_c_cast_expression (pp, TREE_OPERAND (e, 0)); break; case MEM_REF: if (TREE_CODE (TREE_OPERAND (e, 0)) == ADDR_EXPR && integer_zerop (TREE_OPERAND (e, 1))) pp_c_expression (pp, TREE_OPERAND (TREE_OPERAND (e, 0), 0)); else { pp_c_star (pp); if (!integer_zerop (TREE_OPERAND (e, 1))) { pp_c_left_paren (pp); if (!integer_onep (TYPE_SIZE_UNIT (TREE_TYPE (TREE_TYPE (TREE_OPERAND (e, 0)))))) pp_c_type_cast (pp, ptr_type_node); } pp_c_cast_expression (pp, TREE_OPERAND (e, 0)); if (!integer_zerop (TREE_OPERAND (e, 1))) { pp_plus (pp); pp_c_integer_constant (pp, fold_convert (ssizetype, TREE_OPERAND (e, 1))); pp_c_right_paren (pp); } } break; case REALPART_EXPR: case IMAGPART_EXPR: pp_c_ws_string (pp, code == REALPART_EXPR ? "__real__" : "__imag__"); pp_c_whitespace (pp); pp_unary_expression (pp, TREE_OPERAND (e, 0)); break; default: pp_postfix_expression (pp, e); break; } } /* cast-expression: unary-expression ( type-name ) cast-expression */ void pp_c_cast_expression (c_pretty_printer *pp, tree e) { switch (TREE_CODE (e)) { case FLOAT_EXPR: case FIX_TRUNC_EXPR: CASE_CONVERT: case VIEW_CONVERT_EXPR: pp_c_type_cast (pp, TREE_TYPE (e)); pp_c_cast_expression (pp, TREE_OPERAND (e, 0)); break; default: pp_unary_expression (pp, e); } } /* multiplicative-expression: cast-expression multiplicative-expression * cast-expression multiplicative-expression / cast-expression multiplicative-expression % cast-expression */ static void pp_c_multiplicative_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case MULT_EXPR: case TRUNC_DIV_EXPR: case TRUNC_MOD_EXPR: pp_multiplicative_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); if (code == MULT_EXPR) pp_c_star (pp); else if (code == TRUNC_DIV_EXPR) pp_slash (pp); else pp_modulo (pp); pp_c_whitespace (pp); pp_c_cast_expression (pp, TREE_OPERAND (e, 1)); break; default: pp_c_cast_expression (pp, e); break; } } /* additive-expression: multiplicative-expression additive-expression + multiplicative-expression additive-expression - multiplicative-expression */ static void pp_c_additive_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case POINTER_PLUS_EXPR: case PLUS_EXPR: case MINUS_EXPR: pp_c_additive_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); if (code == PLUS_EXPR || code == POINTER_PLUS_EXPR) pp_plus (pp); else pp_minus (pp); pp_c_whitespace (pp); pp_multiplicative_expression (pp, TREE_OPERAND (e, 1)); break; default: pp_multiplicative_expression (pp, e); break; } } /* additive-expression: additive-expression shift-expression << additive-expression shift-expression >> additive-expression */ static void pp_c_shift_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case LSHIFT_EXPR: case RSHIFT_EXPR: pp_c_shift_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_string (pp, code == LSHIFT_EXPR ? "<<" : ">>"); pp_c_whitespace (pp); pp_c_additive_expression (pp, TREE_OPERAND (e, 1)); break; default: pp_c_additive_expression (pp, e); } } /* relational-expression: shift-expression relational-expression < shift-expression relational-expression > shift-expression relational-expression <= shift-expression relational-expression >= shift-expression */ static void pp_c_relational_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case LT_EXPR: case GT_EXPR: case LE_EXPR: case GE_EXPR: pp_c_relational_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); if (code == LT_EXPR) pp_less (pp); else if (code == GT_EXPR) pp_greater (pp); else if (code == LE_EXPR) pp_string (pp, "<="); else if (code == GE_EXPR) pp_string (pp, ">="); pp_c_whitespace (pp); pp_c_shift_expression (pp, TREE_OPERAND (e, 1)); break; default: pp_c_shift_expression (pp, e); break; } } /* equality-expression: relational-expression equality-expression == relational-expression equality-equality != relational-expression */ static void pp_c_equality_expression (c_pretty_printer *pp, tree e) { enum tree_code code = TREE_CODE (e); switch (code) { case EQ_EXPR: case NE_EXPR: pp_c_equality_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_string (pp, code == EQ_EXPR ? "==" : "!="); pp_c_whitespace (pp); pp_c_relational_expression (pp, TREE_OPERAND (e, 1)); break; default: pp_c_relational_expression (pp, e); break; } } /* AND-expression: equality-expression AND-expression & equality-equality */ static void pp_c_and_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == BIT_AND_EXPR) { pp_c_and_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_ampersand (pp); pp_c_whitespace (pp); pp_c_equality_expression (pp, TREE_OPERAND (e, 1)); } else pp_c_equality_expression (pp, e); } /* exclusive-OR-expression: AND-expression exclusive-OR-expression ^ AND-expression */ static void pp_c_exclusive_or_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == BIT_XOR_EXPR || TREE_CODE (e) == TRUTH_XOR_EXPR) { pp_c_exclusive_or_expression (pp, TREE_OPERAND (e, 0)); if (TREE_CODE (e) == BIT_XOR_EXPR) pp_c_maybe_whitespace (pp); else pp_c_whitespace (pp); pp_carret (pp); pp_c_whitespace (pp); pp_c_and_expression (pp, TREE_OPERAND (e, 1)); } else pp_c_and_expression (pp, e); } /* inclusive-OR-expression: exclusive-OR-expression inclusive-OR-expression | exclusive-OR-expression */ static void pp_c_inclusive_or_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == BIT_IOR_EXPR) { pp_c_exclusive_or_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_bar (pp); pp_c_whitespace (pp); pp_c_exclusive_or_expression (pp, TREE_OPERAND (e, 1)); } else pp_c_exclusive_or_expression (pp, e); } /* logical-AND-expression: inclusive-OR-expression logical-AND-expression && inclusive-OR-expression */ static void pp_c_logical_and_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == TRUTH_ANDIF_EXPR || TREE_CODE (e) == TRUTH_AND_EXPR) { pp_c_logical_and_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_string (pp, "&&"); pp_c_whitespace (pp); pp_c_inclusive_or_expression (pp, TREE_OPERAND (e, 1)); } else pp_c_inclusive_or_expression (pp, e); } /* logical-OR-expression: logical-AND-expression logical-OR-expression || logical-AND-expression */ void pp_c_logical_or_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == TRUTH_ORIF_EXPR || TREE_CODE (e) == TRUTH_OR_EXPR) { pp_c_logical_or_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_string (pp, "||"); pp_c_whitespace (pp); pp_c_logical_and_expression (pp, TREE_OPERAND (e, 1)); } else pp_c_logical_and_expression (pp, e); } /* conditional-expression: logical-OR-expression logical-OR-expression ? expression : conditional-expression */ static void pp_c_conditional_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == COND_EXPR) { pp_c_logical_or_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_question (pp); pp_c_whitespace (pp); pp_expression (pp, TREE_OPERAND (e, 1)); pp_c_whitespace (pp); pp_colon (pp); pp_c_whitespace (pp); pp_c_conditional_expression (pp, TREE_OPERAND (e, 2)); } else pp_c_logical_or_expression (pp, e); } /* assignment-expression: conditional-expression unary-expression assignment-operator assignment-expression assignment-expression: one of = *= /= %= += -= >>= <<= &= ^= |= */ static void pp_c_assignment_expression (c_pretty_printer *pp, tree e) { if (TREE_CODE (e) == MODIFY_EXPR || TREE_CODE (e) == INIT_EXPR) { pp_c_unary_expression (pp, TREE_OPERAND (e, 0)); pp_c_whitespace (pp); pp_equal (pp); pp_space (pp); pp_c_expression (pp, TREE_OPERAND (e, 1)); } else pp_c_conditional_expression (pp, e); } /* expression: assignment-expression expression , assignment-expression Implementation note: instead of going through the usual recursion chain, I take the liberty of dispatching nodes to the appropriate functions. This makes some redundancy, but it worths it. That also prevents a possible infinite recursion between pp_c_primary_expression () and pp_c_expression (). */ void pp_c_expression (c_pretty_printer *pp, tree e) { switch (TREE_CODE (e)) { case INTEGER_CST: pp_c_integer_constant (pp, e); break; case REAL_CST: pp_c_floating_constant (pp, e); break; case FIXED_CST: pp_c_fixed_constant (pp, e); break; case STRING_CST: pp_c_string_literal (pp, e); break; case IDENTIFIER_NODE: case FUNCTION_DECL: case VAR_DECL: case CONST_DECL: case PARM_DECL: case RESULT_DECL: case FIELD_DECL: case LABEL_DECL: case ERROR_MARK: pp_primary_expression (pp, e); break; case SSA_NAME: if (!DECL_ARTIFICIAL (SSA_NAME_VAR (e))) pp_c_expression (pp, SSA_NAME_VAR (e)); else pp_c_ws_string (pp, M_("<unknown>")); break; case POSTINCREMENT_EXPR: case POSTDECREMENT_EXPR: case ARRAY_REF: case CALL_EXPR: case COMPONENT_REF: case BIT_FIELD_REF: case COMPLEX_CST: case COMPLEX_EXPR: case VECTOR_CST: case ORDERED_EXPR: case UNORDERED_EXPR: case LTGT_EXPR: case UNEQ_EXPR: case UNLE_EXPR: case UNLT_EXPR: case UNGE_EXPR: case UNGT_EXPR: case ABS_EXPR: case CONSTRUCTOR: case COMPOUND_LITERAL_EXPR: case VA_ARG_EXPR: pp_postfix_expression (pp, e); break; case CONJ_EXPR: case ADDR_EXPR: case INDIRECT_REF: case MEM_REF: case NEGATE_EXPR: case BIT_NOT_EXPR: case TRUTH_NOT_EXPR: case PREINCREMENT_EXPR: case PREDECREMENT_EXPR: case REALPART_EXPR: case IMAGPART_EXPR: pp_c_unary_expression (pp, e); break; case FLOAT_EXPR: case FIX_TRUNC_EXPR: CASE_CONVERT: case VIEW_CONVERT_EXPR: pp_c_cast_expression (pp, e); break; case MULT_EXPR: case TRUNC_MOD_EXPR: case TRUNC_DIV_EXPR: pp_multiplicative_expression (pp, e); break; case LSHIFT_EXPR: case RSHIFT_EXPR: pp_c_shift_expression (pp, e); break; case LT_EXPR: case GT_EXPR: case LE_EXPR: case GE_EXPR: pp_c_relational_expression (pp, e); break; case BIT_AND_EXPR: pp_c_and_expression (pp, e); break; case BIT_XOR_EXPR: case TRUTH_XOR_EXPR: pp_c_exclusive_or_expression (pp, e); break; case BIT_IOR_EXPR: pp_c_inclusive_or_expression (pp, e); break; case TRUTH_ANDIF_EXPR: case TRUTH_AND_EXPR: pp_c_logical_and_expression (pp, e); break; case TRUTH_ORIF_EXPR: case TRUTH_OR_EXPR: pp_c_logical_or_expression (pp, e); break; case EQ_EXPR: case NE_EXPR: pp_c_equality_expression (pp, e); break; case COND_EXPR: pp_conditional_expression (pp, e); break; case POINTER_PLUS_EXPR: case PLUS_EXPR: case MINUS_EXPR: pp_c_additive_expression (pp, e); break; case MODIFY_EXPR: case INIT_EXPR: pp_assignment_expression (pp, e); break; case COMPOUND_EXPR: pp_c_left_paren (pp); pp_expression (pp, TREE_OPERAND (e, 0)); pp_separate_with (pp, ','); pp_assignment_expression (pp, TREE_OPERAND (e, 1)); pp_c_right_paren (pp); break; case NON_LVALUE_EXPR: case SAVE_EXPR: pp_expression (pp, TREE_OPERAND (e, 0)); break; case TARGET_EXPR: pp_postfix_expression (pp, TREE_OPERAND (e, 1)); break; case BIND_EXPR: case GOTO_EXPR: /* We don't yet have a way of dumping statements in a human-readable format. */ pp_string (pp, "({...})"); break; case C_MAYBE_CONST_EXPR: pp_c_expression (pp, C_MAYBE_CONST_EXPR_EXPR (e)); break; default: pp_unsupported_tree (pp, e); break; } } /* Statements. */ void pp_c_statement (c_pretty_printer *pp, tree stmt) { if (stmt == NULL) return; if (pp_needs_newline (pp)) pp_newline_and_indent (pp, 0); dump_generic_node (pp_base (pp), stmt, pp_indentation (pp), 0, true); } /* Initialize the PRETTY-PRINTER for handling C codes. */ void pp_c_pretty_printer_init (c_pretty_printer *pp) { pp->offset_list = 0; pp->declaration = pp_c_declaration; pp->declaration_specifiers = pp_c_declaration_specifiers; pp->declarator = pp_c_declarator; pp->direct_declarator = pp_c_direct_declarator; pp->type_specifier_seq = pp_c_specifier_qualifier_list; pp->abstract_declarator = pp_c_abstract_declarator; pp->direct_abstract_declarator = pp_c_direct_abstract_declarator; pp->ptr_operator = pp_c_pointer; pp->parameter_list = pp_c_parameter_type_list; pp->type_id = pp_c_type_id; pp->simple_type_specifier = pp_c_type_specifier; pp->function_specifier = pp_c_function_specifier; pp->storage_class_specifier = pp_c_storage_class_specifier; pp->statement = pp_c_statement; pp->constant = pp_c_constant; pp->id_expression = pp_c_id_expression; pp->primary_expression = pp_c_primary_expression; pp->postfix_expression = pp_c_postfix_expression; pp->unary_expression = pp_c_unary_expression; pp->initializer = pp_c_initializer; pp->multiplicative_expression = pp_c_multiplicative_expression; pp->conditional_expression = pp_c_conditional_expression; pp->assignment_expression = pp_c_assignment_expression; pp->expression = pp_c_expression; } /* Print the tree T in full, on file FILE. */ void print_c_tree (FILE *file, tree t) { static c_pretty_printer pp_rec; static bool initialized = 0; c_pretty_printer *pp = &pp_rec; if (!initialized) { initialized = 1; pp_construct (pp_base (pp), NULL, 0); pp_c_pretty_printer_init (pp); pp_needs_newline (pp) = true; } pp_base (pp)->buffer->stream = file; pp_statement (pp, t); pp_newline (pp); pp_flush (pp); } /* Print the tree T in full, on stderr. */ DEBUG_FUNCTION void debug_c_tree (tree t) { print_c_tree (stderr, t); fputc ('\n', stderr); } /* Output the DECL_NAME of T. If T has no DECL_NAME, output a string made up of T's memory address. */ void pp_c_tree_decl_identifier (c_pretty_printer *pp, tree t) { const char *name; gcc_assert (DECL_P (t)); if (DECL_NAME (t)) name = IDENTIFIER_POINTER (DECL_NAME (t)); else { static char xname[8]; sprintf (xname, "<U%4x>", ((unsigned)((uintptr_t)(t) & 0xffff))); name = xname; } pp_c_identifier (pp, name); }
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