X-Git-Url: http://git.chise.org/gitweb/?a=blobdiff_plain;f=src%2Flisp-disunion.h;h=47c36260aa93d31f48bbc307a445fb4ccb1604dd;hb=3f711eea68ce5fd586297b43c8d9936cd2ba916f;hp=a42cad65a3bec46311a55f610b6a17a208c9f05a;hpb=0c693dc08f0794304711787b2eb47c144ea4bef1;p=chise%2Fxemacs-chise.git.1 diff --git a/src/lisp-disunion.h b/src/lisp-disunion.h index a42cad6..47c3626 100644 --- a/src/lisp-disunion.h +++ b/src/lisp-disunion.h @@ -38,28 +38,30 @@ Boston, MA 02111-1307, USA. */ VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVT For integral Lisp types, i.e. integers and characters, the value - bits are the Lisp object. + bits are the Lisp object. Some people call such Lisp_Objects "immediate". - The object is obtained by masking off the type and mark bits. + The object is obtained by masking off the type bits. Bit 1 is used as a value bit by splitting the Lisp integer type - into two subtypes, Lisp_Type_Int_Even and Lisp_Type_Int_Odd. By - this trickery we get 31 bits for integers instead of 30. + into two subtypes, Lisp_Type_Int_Even and Lisp_Type_Int_Odd. + By this trickery we get 31 bits for integers instead of 30. For non-integral types, the value bits of a Lisp_Object contain a pointer to a structure containing the object. The pointer is obtained by masking off the type and mark bits. All pointer-based types are coalesced under a single type called - Lisp_Type_Record. The type bits for this type are required - by the implementation to be 00, just like the least - significant bits of word-aligned struct pointers on 32-bit - hardware. Because of this, Lisp_Object pointers don't have - to be masked and are full-sized. + Lisp_Type_Record. The type bits for this type are required by the + implementation to be 00, just like the least significant bits of + word-aligned struct pointers on 32-bit hardware. This requires that + all structs implementing Lisp_Objects have an alignment of at least 4 + bytes. Because of this, Lisp_Object pointers don't have to be masked + and are full-sized. - There are no mark bits. - Integers and characters don't need to be marked. All other types - are lrecord-based, which means they get marked by incrementing - their ->implementation pointer. + There are no mark bits in the Lisp_Object itself (there used to be). + + Integers and characters don't need to be marked. All other types are + lrecord-based, which means they get marked by setting the mark bit in + the struct lrecord_header. Here is a brief description of the following macros: @@ -68,21 +70,35 @@ Boston, MA 02111-1307, USA. */ XCHARVAL The value bits of a Lisp_Object storing a Emchar XREALINT The value bits of a Lisp_Object storing an integer, signed XUINT The value bits of a Lisp_Object storing an integer, unsigned - INTP Non-zero if this Lisp_Object an integer? + INTP Non-zero if this Lisp_Object is an integer Qzero Lisp Integer 0 - EQ Non-zero if two Lisp_Objects are identical */ + EQ Non-zero if two Lisp_Objects are identical, not merely equal. */ typedef EMACS_INT Lisp_Object; #define Lisp_Type_Int_Bit (Lisp_Type_Int_Even & Lisp_Type_Int_Odd) #define wrap_object(ptr) ((Lisp_Object) (ptr)) -#define make_int(x) ((Lisp_Object) (((x) << INT_GCBITS) | Lisp_Type_Int_Bit)) -#define make_char(x) ((Lisp_Object) (((x) << GCBITS) | Lisp_Type_Char)) +#define make_int(x) ((Lisp_Object) (((EMACS_INT)(x) << INT_GCBITS) | Lisp_Type_Int_Bit)) +#define make_char(x) ((Lisp_Object) (((EMACS_INT)(x) << GCBITS) | Lisp_Type_Char)) #define VALMASK (((1UL << VALBITS) - 1UL) << GCTYPEBITS) #define XTYPE(x) ((enum Lisp_Type) (((EMACS_UINT)(x)) & ~VALMASK)) #define XPNTRVAL(x) (x) /* This depends on Lisp_Type_Record == 0 */ -#define XCHARVAL(x) ((x) >> GCBITS) +#if defined(UTF2000) && (SIZEOF_EMACS_INT == 4) +INLINE_HEADER Emchar XCHARVAL (Lisp_Object chr); +INLINE_HEADER Emchar +XCHARVAL (Lisp_Object chr) +{ + int code = (EMACS_UINT)(chr) >> GCBITS; + + if (code & 0x20000000) + return code | 0x40000000; + else + return code; +} +#else +#define XCHARVAL(x) ((Emchar)((EMACS_UINT)(x) >> GCBITS)) +#endif #define XREALINT(x) ((x) >> INT_GCBITS) #define XUINT(x) ((EMACS_UINT)(x) >> INT_GCBITS) #define INTP(x) ((EMACS_UINT)(x) & Lisp_Type_Int_Bit)