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#ifndef RBIMPL_FL_TYPE_H /*-*-C++-*-vi:se ft=cpp:*/ #define RBIMPL_FL_TYPE_H /** * @file * @author Ruby developers <ruby-core@ruby-lang.org> * @copyright This file is a part of the programming language Ruby. * Permission is hereby granted, to either redistribute and/or * modify this file, provided that the conditions mentioned in the * file COPYING are met. Consult the file for details. * @warning Symbols prefixed with either `RBIMPL` or `rbimpl` are * implementation details. Don't take them as canon. They could * rapidly appear then vanish. The name (path) of this header file * is also an implementation detail. Do not expect it to persist * at the place it is now. Developers are free to move it anywhere * anytime at will. * @note To ruby-core: remember that this header can be possibly * recursively included from extension libraries written in C++. * Do not expect for instance `__VA_ARGS__` is always available. * We assume C99 for ruby itself but we don't assume languages of * extension libraries. They could be written in C++98. * @brief Defines enum ::ruby_fl_type. */ #include "ruby/internal/config.h" /* for ENUM_OVER_INT */ #include "ruby/internal/attr/artificial.h" #include "ruby/internal/attr/flag_enum.h" #include "ruby/internal/attr/forceinline.h" #include "ruby/internal/attr/noalias.h" #include "ruby/internal/attr/pure.h" #include "ruby/internal/cast.h" #include "ruby/internal/core/rbasic.h" #include "ruby/internal/dllexport.h" #include "ruby/internal/special_consts.h" #include "ruby/internal/stdbool.h" #include "ruby/internal/value.h" #include "ruby/internal/value_type.h" #include "ruby/assert.h" #include "ruby/defines.h" /** @cond INTERNAL_MACRO */ #ifdef ENUM_OVER_INT # define RBIMPL_WIDER_ENUM 1 #elif SIZEOF_INT * CHAR_BIT > 12+19+1 # define RBIMPL_WIDER_ENUM 1 #else # define RBIMPL_WIDER_ENUM 0 #endif /** @endcond */ #define FL_SINGLETON RBIMPL_CAST((VALUE)RUBY_FL_SINGLETON) #define FL_WB_PROTECTED RBIMPL_CAST((VALUE)RUBY_FL_WB_PROTECTED) #define FL_PROMOTED0 RBIMPL_CAST((VALUE)RUBY_FL_PROMOTED0) #define FL_PROMOTED1 RBIMPL_CAST((VALUE)RUBY_FL_PROMOTED1) #define FL_FINALIZE RBIMPL_CAST((VALUE)RUBY_FL_FINALIZE) #define FL_TAINT RBIMPL_CAST((VALUE)RUBY_FL_TAINT) #define FL_SHAREABLE RBIMPL_CAST((VALUE)RUBY_FL_SHAREABLE) #define FL_UNTRUSTED RBIMPL_CAST((VALUE)RUBY_FL_UNTRUSTED) #define FL_SEEN_OBJ_ID RBIMPL_CAST((VALUE)RUBY_FL_SEEN_OBJ_ID) #define FL_EXIVAR RBIMPL_CAST((VALUE)RUBY_FL_EXIVAR) #define FL_FREEZE RBIMPL_CAST((VALUE)RUBY_FL_FREEZE) #define FL_USHIFT RBIMPL_CAST((VALUE)RUBY_FL_USHIFT) #define FL_USER0 RBIMPL_CAST((VALUE)RUBY_FL_USER0) #define FL_USER1 RBIMPL_CAST((VALUE)RUBY_FL_USER1) #define FL_USER2 RBIMPL_CAST((VALUE)RUBY_FL_USER2) #define FL_USER3 RBIMPL_CAST((VALUE)RUBY_FL_USER3) #define FL_USER4 RBIMPL_CAST((VALUE)RUBY_FL_USER4) #define FL_USER5 RBIMPL_CAST((VALUE)RUBY_FL_USER5) #define FL_USER6 RBIMPL_CAST((VALUE)RUBY_FL_USER6) #define FL_USER7 RBIMPL_CAST((VALUE)RUBY_FL_USER7) #define FL_USER8 RBIMPL_CAST((VALUE)RUBY_FL_USER8) #define FL_USER9 RBIMPL_CAST((VALUE)RUBY_FL_USER9) #define FL_USER10 RBIMPL_CAST((VALUE)RUBY_FL_USER10) #define FL_USER11 RBIMPL_CAST((VALUE)RUBY_FL_USER11) #define FL_USER12 RBIMPL_CAST((VALUE)RUBY_FL_USER12) #define FL_USER13 RBIMPL_CAST((VALUE)RUBY_FL_USER13) #define FL_USER14 RBIMPL_CAST((VALUE)RUBY_FL_USER14) #define FL_USER15 RBIMPL_CAST((VALUE)RUBY_FL_USER15) #define FL_USER16 RBIMPL_CAST((VALUE)RUBY_FL_USER16) #define FL_USER17 RBIMPL_CAST((VALUE)RUBY_FL_USER17) #define FL_USER18 RBIMPL_CAST((VALUE)RUBY_FL_USER18) #define FL_USER19 RBIMPL_CAST((VALUE)(unsigned int)RUBY_FL_USER19) #define ELTS_SHARED RUBY_ELTS_SHARED #define RUBY_ELTS_SHARED RUBY_ELTS_SHARED #define RB_OBJ_FREEZE rb_obj_freeze_inline /** @cond INTERNAL_MACRO */ #define RB_FL_ABLE RB_FL_ABLE #define RB_FL_ALL RB_FL_ALL #define RB_FL_ALL_RAW RB_FL_ALL_RAW #define RB_FL_ANY RB_FL_ANY #define RB_FL_ANY_RAW RB_FL_ANY_RAW #define RB_FL_REVERSE RB_FL_REVERSE #define RB_FL_REVERSE_RAW RB_FL_REVERSE_RAW #define RB_FL_SET RB_FL_SET #define RB_FL_SET_RAW RB_FL_SET_RAW #define RB_FL_TEST RB_FL_TEST #define RB_FL_TEST_RAW RB_FL_TEST_RAW #define RB_FL_UNSET RB_FL_UNSET #define RB_FL_UNSET_RAW RB_FL_UNSET_RAW #define RB_OBJ_FREEZE_RAW RB_OBJ_FREEZE_RAW #define RB_OBJ_FROZEN RB_OBJ_FROZEN #define RB_OBJ_FROZEN_RAW RB_OBJ_FROZEN_RAW #define RB_OBJ_INFECT RB_OBJ_INFECT #define RB_OBJ_INFECT_RAW RB_OBJ_INFECT_RAW #define RB_OBJ_TAINT RB_OBJ_TAINT #define RB_OBJ_TAINTABLE RB_OBJ_TAINTABLE #define RB_OBJ_TAINTED RB_OBJ_TAINTED #define RB_OBJ_TAINTED_RAW RB_OBJ_TAINTED_RAW #define RB_OBJ_TAINT_RAW RB_OBJ_TAINT_RAW #define RB_OBJ_UNTRUST RB_OBJ_UNTRUST #define RB_OBJ_UNTRUSTED RB_OBJ_UNTRUSTED /** @endcond */ /** * @defgroup deprecated_macros deprecated macro APIs * @{ * These macros are deprecated. Prefer their `RB_`-prefixed versions. */ #define FL_ABLE RB_FL_ABLE #define FL_ALL RB_FL_ALL #define FL_ALL_RAW RB_FL_ALL_RAW #define FL_ANY RB_FL_ANY #define FL_ANY_RAW RB_FL_ANY_RAW #define FL_REVERSE RB_FL_REVERSE #define FL_REVERSE_RAW RB_FL_REVERSE_RAW #define FL_SET RB_FL_SET #define FL_SET_RAW RB_FL_SET_RAW #define FL_TEST RB_FL_TEST #define FL_TEST_RAW RB_FL_TEST_RAW #define FL_UNSET RB_FL_UNSET #define FL_UNSET_RAW RB_FL_UNSET_RAW #define OBJ_FREEZE RB_OBJ_FREEZE #define OBJ_FREEZE_RAW RB_OBJ_FREEZE_RAW #define OBJ_FROZEN RB_OBJ_FROZEN #define OBJ_FROZEN_RAW RB_OBJ_FROZEN_RAW #define OBJ_INFECT RB_OBJ_INFECT #define OBJ_INFECT_RAW RB_OBJ_INFECT_RAW #define OBJ_TAINT RB_OBJ_TAINT #define OBJ_TAINTABLE RB_OBJ_TAINTABLE #define OBJ_TAINTED RB_OBJ_TAINTED #define OBJ_TAINTED_RAW RB_OBJ_TAINTED_RAW #define OBJ_TAINT_RAW RB_OBJ_TAINT_RAW #define OBJ_UNTRUST RB_OBJ_UNTRUST #define OBJ_UNTRUSTED RB_OBJ_UNTRUSTED /** @} */ /* This is an enum because GDB wants it (rather than a macro) */ enum ruby_fl_ushift { RUBY_FL_USHIFT = 12 }; /* > The expression that defines the value of an enumeration constant shall be * > an integer constant expression that has a value representable as an `int`. * * -- ISO/IEC 9899:2018 section 6.7.2.2 * * So ENUM_OVER_INT situation is an extension to the standard. Note however * that we do not support 16 bit `int` environment. */ RB_GNUC_EXTENSION enum RBIMPL_ATTR_FLAG_ENUM() ruby_fl_type { RUBY_FL_WB_PROTECTED = (1<<5), RUBY_FL_PROMOTED0 = (1<<5), RUBY_FL_PROMOTED1 = (1<<6), RUBY_FL_PROMOTED = RUBY_FL_PROMOTED0 | RUBY_FL_PROMOTED1, RUBY_FL_FINALIZE = (1<<7), RUBY_FL_TAINT = (1<<8), RUBY_FL_SHAREABLE = (1<<8), RUBY_FL_UNTRUSTED = RUBY_FL_TAINT, RUBY_FL_SEEN_OBJ_ID = (1<<9), RUBY_FL_EXIVAR = (1<<10), RUBY_FL_FREEZE = (1<<11), #define RBIMPL_FL_USER_N(n) RUBY_FL_USER##n = (1<<(RUBY_FL_USHIFT+n)) RBIMPL_FL_USER_N(0), RBIMPL_FL_USER_N(1), RBIMPL_FL_USER_N(2), RBIMPL_FL_USER_N(3), RBIMPL_FL_USER_N(4), RBIMPL_FL_USER_N(5), RBIMPL_FL_USER_N(6), RBIMPL_FL_USER_N(7), RBIMPL_FL_USER_N(8), RBIMPL_FL_USER_N(9), RBIMPL_FL_USER_N(10), RBIMPL_FL_USER_N(11), RBIMPL_FL_USER_N(12), RBIMPL_FL_USER_N(13), RBIMPL_FL_USER_N(14), RBIMPL_FL_USER_N(15), RBIMPL_FL_USER_N(16), RBIMPL_FL_USER_N(17), RBIMPL_FL_USER_N(18), #if ENUM_OVER_INT RBIMPL_FL_USER_N(19), #else # define RUBY_FL_USER19 (RBIMPL_VALUE_ONE<<(RUBY_FL_USHIFT+19)) #endif #undef RBIMPL_FL_USER_N #undef RBIMPL_WIDER_ENUM RUBY_ELTS_SHARED = RUBY_FL_USER2, RUBY_FL_SINGLETON = RUBY_FL_USER0, }; enum { RUBY_FL_DUPPED = RUBY_T_MASK | RUBY_FL_EXIVAR | RUBY_FL_TAINT }; RBIMPL_SYMBOL_EXPORT_BEGIN() void rb_obj_infect(VALUE victim, VALUE carrier); void rb_freeze_singleton_class(VALUE klass); RBIMPL_SYMBOL_EXPORT_END() RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() RBIMPL_ATTR_FORCEINLINE() static bool RB_FL_ABLE(VALUE obj) { if (RB_SPECIAL_CONST_P(obj)) { return false; } else if (RB_TYPE_P(obj, RUBY_T_NODE)) { return false; } else { return true; } } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline VALUE RB_FL_TEST_RAW(VALUE obj, VALUE flags) { RBIMPL_ASSERT_OR_ASSUME(RB_FL_ABLE(obj)); return RBASIC(obj)->flags & flags; } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline VALUE RB_FL_TEST(VALUE obj, VALUE flags) { if (RB_FL_ABLE(obj)) { return RB_FL_TEST_RAW(obj, flags); } else { return RBIMPL_VALUE_NULL; } } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_FL_ANY_RAW(VALUE obj, VALUE flags) { return RB_FL_TEST_RAW(obj, flags); } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_FL_ANY(VALUE obj, VALUE flags) { return RB_FL_TEST(obj, flags); } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_FL_ALL_RAW(VALUE obj, VALUE flags) { return RB_FL_TEST_RAW(obj, flags) == flags; } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_FL_ALL(VALUE obj, VALUE flags) { return RB_FL_TEST(obj, flags) == flags; } RBIMPL_ATTR_NOALIAS() RBIMPL_ATTR_ARTIFICIAL() static inline void rbimpl_fl_set_raw_raw(struct RBasic *obj, VALUE flags) { obj->flags |= flags; } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_FL_SET_RAW(VALUE obj, VALUE flags) { RBIMPL_ASSERT_OR_ASSUME(RB_FL_ABLE(obj)); rbimpl_fl_set_raw_raw(RBASIC(obj), flags); } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_FL_SET(VALUE obj, VALUE flags) { if (RB_FL_ABLE(obj)) { RB_FL_SET_RAW(obj, flags); } } RBIMPL_ATTR_NOALIAS() RBIMPL_ATTR_ARTIFICIAL() static inline void rbimpl_fl_unset_raw_raw(struct RBasic *obj, VALUE flags) { obj->flags &= ~flags; } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_FL_UNSET_RAW(VALUE obj, VALUE flags) { RBIMPL_ASSERT_OR_ASSUME(RB_FL_ABLE(obj)); rbimpl_fl_unset_raw_raw(RBASIC(obj), flags); } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_FL_UNSET(VALUE obj, VALUE flags) { if (RB_FL_ABLE(obj)) { RB_FL_UNSET_RAW(obj, flags); } } RBIMPL_ATTR_NOALIAS() RBIMPL_ATTR_ARTIFICIAL() static inline void rbimpl_fl_reverse_raw_raw(struct RBasic *obj, VALUE flags) { obj->flags ^= flags; } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_FL_REVERSE_RAW(VALUE obj, VALUE flags) { RBIMPL_ASSERT_OR_ASSUME(RB_FL_ABLE(obj)); rbimpl_fl_reverse_raw_raw(RBASIC(obj), flags); } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_FL_REVERSE(VALUE obj, VALUE flags) { if (RB_FL_ABLE(obj)) { RB_FL_REVERSE_RAW(obj, flags); } } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_OBJ_TAINTABLE(VALUE obj) { if (! RB_FL_ABLE(obj)) { return false; } else if (RB_TYPE_P(obj, RUBY_T_BIGNUM)) { return false; } else if (RB_TYPE_P(obj, RUBY_T_FLOAT)) { return false; } else { return true; } } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline VALUE RB_OBJ_TAINTED_RAW(VALUE obj) { return RB_FL_TEST_RAW(obj, RUBY_FL_TAINT); } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_OBJ_TAINTED(VALUE obj) { return RB_FL_ANY(obj, RUBY_FL_TAINT); } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_OBJ_TAINT_RAW(VALUE obj) { RB_FL_SET_RAW(obj, RUBY_FL_TAINT); } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_OBJ_TAINT(VALUE obj) { if (RB_OBJ_TAINTABLE(obj)) { RB_OBJ_TAINT_RAW(obj); } } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_OBJ_INFECT_RAW(VALUE dst, VALUE src) { RBIMPL_ASSERT_OR_ASSUME(RB_OBJ_TAINTABLE(dst)); RBIMPL_ASSERT_OR_ASSUME(RB_FL_ABLE(src)); RB_FL_SET_RAW(dst, RB_OBJ_TAINTED_RAW(src)); } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_OBJ_INFECT(VALUE dst, VALUE src) { if (RB_OBJ_TAINTABLE(dst) && RB_FL_ABLE(src)) { RB_OBJ_INFECT_RAW(dst, src); } } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() /* It is intentional not to return bool here. There is a place in ruby core * (namely class.c:singleton_class_of()) where return value of this function is * verbatimly passed to RB_FL_SET_RAW. */ static inline VALUE RB_OBJ_FROZEN_RAW(VALUE obj) { return RB_FL_TEST_RAW(obj, RUBY_FL_FREEZE); } RBIMPL_ATTR_PURE_UNLESS_DEBUG() RBIMPL_ATTR_ARTIFICIAL() static inline bool RB_OBJ_FROZEN(VALUE obj) { if (! RB_FL_ABLE(obj)) { return true; } else { return RB_OBJ_FROZEN_RAW(obj); } } RBIMPL_ATTR_ARTIFICIAL() static inline void RB_OBJ_FREEZE_RAW(VALUE obj) { RB_FL_SET_RAW(obj, RUBY_FL_FREEZE); } static inline void rb_obj_freeze_inline(VALUE x) { if (RB_FL_ABLE(x)) { RB_OBJ_FREEZE_RAW(x); if (RBASIC_CLASS(x) && !(RBASIC(x)->flags & RUBY_FL_SINGLETON)) { rb_freeze_singleton_class(x); } } } #endif /* RBIMPL_FL_TYPE_H */