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/* This is a minimally edited version of Guile's tags.h. */
/* classes: h_files */
 
#ifndef TAGSH
#define TAGSH
/*      Copyright (C) 1995, 1999, 2008 Free Software Foundation, Inc.
 
   This program 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 of the License, or
   (at your option) any later version.
 
   This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.
 
   As a special exception, the Free Software Foundation gives permission
   for additional uses of the text contained in its release of GUILE.
 
   The exception is that, if you link the GUILE library with other files
   to produce an executable, this does not by itself cause the
   resulting executable to be covered by the GNU General Public License.
   Your use of that executable is in no way restricted on account of
   linking the GUILE library code into it.
 
   This exception does not however invalidate any other reasons why
   the executable file might be covered by the GNU General Public License.
 
   This exception applies only to the code released by the
   Free Software Foundation under the name GUILE.  If you copy
   code from other Free Software Foundation releases into a copy of
   GUILE, as the General Public License permits, the exception does
   not apply to the code that you add in this way.  To avoid misleading
   anyone as to the status of such modified files, you must delete
   this exception notice from them.
 
   If you write modifications of your own for GUILE, it is your choice
   whether to permit this exception to apply to your modifications.
   If you do not wish that, delete this exception notice.  */
 
 
/** This file defines the format of SCM values and cons pairs.
 ** It is here that tag bits are assigned for various purposes.
 **/
 
 
/* Three Bit Tags
 
 * 000 -- a non-immediate value.  Points into the pair heap.
 *
 * 001 -- a gloc (i.e., a resolved global variable in a CAR in a code graph)
 *        or the CAR of an object handle (i.e., the tagged pointer to the
 *        vtable part of a user-defined object).
 *
 *        If X has this tag, the value at CDAR(X - 1) distinguishes
 *        glocs from object handles.  The distinction only needs
 *        to be made in a few places.  Only a few parts of the code know
 *        about glocs.  In most cases, when a value in the CAR of a pair
 *        has the tag 001, it means that the pair is an object handle.
 *
 * 010 -- the tag for immediate, exact integers.
 *
 * 011 -- in the CAR of a pair, this tag indicates that the pair is a closure.
 *        The remaining bits of the CAR are a pointer into the pair heap
 *        to the code graph for the closure.
 *
 * 1xy -- an extension tag which means that there is a five or six bit
 *        tag to the left of the low three bits.  See the nice diagrams
 *        in ../doc/code.doc if you want to know what the bits mean.
 */
 
 
 
 
 
#define scm_tc3_cons            0
#define scm_tc3_cons_gloc       1
#define scm_tc3_closure         3
 
#define scm_tc7_ssymbol         5
#define scm_tc7_msymbol         7
#define scm_tc7_string          13
#define scm_tc7_bvect           15
#define scm_tc7_vector          21
#define scm_tc7_lvector         23
#define scm_tc7_ivect           29
#define scm_tc7_uvect           31
/* spare 37 39 */
#define scm_tc7_fvect           45
#define scm_tc7_dvect           47
#define scm_tc7_cvect           53
#define scm_tc7_port            55
#define scm_tc7_contin          61
#define scm_tc7_cclo            63
/* spare 69 71 77 79 */
#define scm_tc7_subr_0          85
#define scm_tc7_subr_1          87
#define scm_tc7_cxr             93
#define scm_tc7_subr_3          95
#define scm_tc7_subr_2          101
#define scm_tc7_asubr           103
#define scm_tc7_subr_1o         109
#define scm_tc7_subr_2o         111
#define scm_tc7_lsubr_2         117
#define scm_tc7_lsubr           119
#define scm_tc7_rpsubr          125
 
#define scm_tc7_smob            127
#define scm_tc_free_cell        127
 
#define scm_tc16_flo            0x017f
#define scm_tc_flo              0x017fL
 
#define SCM_REAL_PART           (1L<<16)
#define SCM_IMAG_PART           (2L<<16)
#define scm_tc_dblr             (scm_tc16_flo|REAL_PART)
#define scm_tc_dblc             (scm_tc16_flo|REAL_PART|IMAG_PART)
 
#define scm_tc16_bigpos         0x027f
#define scm_tc16_bigneg         0x037f
 
#define scm_tc16_fport          (scm_tc7_port + 0*256L)
#define scm_tc16_pipe           (scm_tc7_port + 1*256L)
#define scm_tc16_strport        (scm_tc7_port + 2*256L)
#define scm_tc16_sfport         (scm_tc7_port + 3*256L)
 
 
 
/* For cons pairs with immediate values in the CAR */
#define scm_tcs_cons_imcar 2:case 4:case 6:case 10:\
 case 12:case 14:case 18:case 20:\
 case 22:case 26:case 28:case 30:\
 case 34:case 36:case 38:case 42:\
 case 44:case 46:case 50:case 52:\
 case 54:case 58:case 60:case 62:\
 case 66:case 68:case 70:case 74:\
 case 76:case 78:case 82:case 84:\
 case 86:case 90:case 92:case 94:\
 case 98:case 100:case 102:case 106:\
 case 108:case 110:case 114:case 116:\
 case 118:case 122:case 124:case 126
 
/* For cons pairs with non-immediate values in the CAR */
#define scm_tcs_cons_nimcar 0:case 8:case 16:case 24:\
 case 32:case 40:case 48:case 56:\
 case 64:case 72:case 80:case 88:\
 case 96:case 104:case 112:case 120
 
/* A CONS_GLOC occurs in code.  It's CAR is a pointer to the
 * CDR of a variable.  The low order bits of the CAR are 001.
 * The CDR of the gloc is the code continuation.
 */
#define scm_tcs_cons_gloc 1:case 9:case 17:case 25:\
 case 33:case 41:case 49:case 57:\
 case 65:case 73:case 81:case 89:\
 case 97:case 105:case 113:case 121
 
#define scm_tcs_closures   3:case 11:case 19:case 27:\
 case 35:case 43:case 51:case 59:\
 case 67:case 75:case 83:case 91:\
 case 99:case 107:case 115:case 123
 
#define scm_tcs_subrs scm_tc7_asubr:case scm_tc7_subr_0:case scm_tc7_subr_1:case scm_tc7_cxr:\
 case scm_tc7_subr_3:case scm_tc7_subr_2:case scm_tc7_rpsubr:case scm_tc7_subr_1o:\
 case scm_tc7_subr_2o:case scm_tc7_lsubr_2:case scm_tc7_lsubr
 
#define scm_tcs_symbols scm_tc7_ssymbol:case scm_tc7_msymbol
 
#define scm_tcs_bignums tc16_bigpos:case tc16_bigneg
 
 
 
/* References to objects are of type SCM.  Values may be non-immediate
 * (pointers) or immediate (encoded, immutable, scalar values that fit
 * in an SCM variable).
 */
 
typedef long SCM;
 
/* Cray machines have pointers that are incremented once for each word,
 * rather than each byte, the 3 most significant bits encode the byte
 * within the word.  The following macros deal with this by storing the
 * native Cray pointers like the ones that looks like scm expects.  This
 * is done for any pointers that might appear in the car of a scm_cell, pointers
 * to scm_vector elts, functions, &c are not munged.
 */
#ifdef _UNICOS
#define SCM2PTR(x) ((int)(x) >> 3)
#define PTR2SCM(x) (((SCM)(x)) << 3)
#define SCM_POINTERS_MUNGED
#else
#define SCM2PTR(x) (x)
#define PTR2SCM(x) ((SCM)(x))
#endif /* def _UNICOS */
 
 
 
/* Immediate? Predicates
 */
#define SCM_IMP(x)      (6 & (int)(x))
#define SCM_NIMP(x)     (!SCM_IMP(x))
 
 
 
enum scm_tags
  {
    scm_tc8_char = 0xf4
  };
 
#define SCM_ITAG8(X)            ((int)(X) & 0xff)
#define SCM_MAKE_ITAG8(X, TAG)  (((X)<<8) + TAG)
#define SCM_ITAG8_DATA(X)       ((X)>>8)
 
 
 
/* Local Environment Structure
 */
#define SCM_ILOCP(n)            ((0xff & (int)(n))==0xfc)
#define SCM_ILOC00              (0x000000fcL)
#define SCM_IDINC               (0x00100000L)
#define SCM_ICDR                (0x00080000L)
#define SCM_IFRINC              (0x00000100L)
#define SCM_IDSTMSK             (-SCM_IDINC)
#define SCM_IFRAME(n)           ((int)((SCM_ICDR-SCM_IFRINC)>>8) & ((int)(n)>>8))
#define SCM_IDIST(n)            (((unsigned long)(n))>>20)
#define SCM_ICDRP(n)            (SCM_ICDR & (n))
 
 
/* Immediate Symbols, Special Symbols, Flags (various constants).
 */
 
/* ISYMP tests for ISPCSYM and ISYM */
#define SCM_ISYMP(n)            ((0x187 & (int)(n))==4)
 
/* IFLAGP tests for ISPCSYM, ISYM and IFLAG */
#define SCM_IFLAGP(n)           ((0x87 & (int)(n))==4)
#define SCM_ISYMNUM(n)          ((int)((n)>>9))
#define SCM_ISYMCHARS(n)        (scm_isymnames[SCM_ISYMNUM(n)])
#define SCM_MAKSPCSYM(n)        (((n)<<9)+((n)<<3)+4L)
#define SCM_MAKISYM(n)          (((n)<<9)+0x74L)
#define SCM_MAKIFLAG(n)         (((n)<<9)+0x174L)
 
/* This table must agree with the declarations
 * in repl.c: {Names of immediate symbols}.
 *
 * These are used only in eval but their values
 * have to be allocated here.
 *
 */
 
#define SCM_IM_AND              SCM_MAKSPCSYM(0)
#define SCM_IM_BEGIN            SCM_MAKSPCSYM(1)
#define SCM_IM_CASE             SCM_MAKSPCSYM(2)
#define SCM_IM_COND             SCM_MAKSPCSYM(3)
#define SCM_IM_DO               SCM_MAKSPCSYM(4)
#define SCM_IM_IF               SCM_MAKSPCSYM(5)
#define SCM_IM_LAMBDA           SCM_MAKSPCSYM(6)
#define SCM_IM_LET              SCM_MAKSPCSYM(7)
#define SCM_IM_LETSTAR          SCM_MAKSPCSYM(8)
#define SCM_IM_LETREC           SCM_MAKSPCSYM(9)
#define SCM_IM_OR               SCM_MAKSPCSYM(10)
#define SCM_IM_QUOTE            SCM_MAKSPCSYM(11)
#define SCM_IM_SET              SCM_MAKSPCSYM(12)
#define SCM_IM_DEFINE           SCM_MAKSPCSYM(13)
#define SCM_IM_APPLY            SCM_MAKISYM(14)
#define SCM_IM_CONT             SCM_MAKISYM(15)
#define SCM_NUM_ISYMS 16
 
/* Important immediates
 */
 
#define SCM_BOOL_F              SCM_MAKIFLAG(SCM_NUM_ISYMS+0)
#define SCM_BOOL_T              SCM_MAKIFLAG(SCM_NUM_ISYMS+1)
#define SCM_UNDEFINED           SCM_MAKIFLAG(SCM_NUM_ISYMS+2)
#define SCM_EOF_VAL             SCM_MAKIFLAG(SCM_NUM_ISYMS+3)
 
#ifdef SICP
#define SCM_EOL                 SCM_BOOL_F
#else
#define SCM_EOL                 SCM_MAKIFLAG(SCM_NUM_ISYMS+4)
#endif
 
#define SCM_UNSPECIFIED         SCM_MAKIFLAG(SCM_NUM_ISYMS+5)
 
 
 
/* Heap Pairs and the Empty List Predicates
 */
#define SCM_NULLP(x)    (SCM_EOL == (x))
#define SCM_NNULLP(x)   (SCM_EOL != (x))
#define SCM_CELLP(x)    (!SCM_NCELLP(x))
#define SCM_NCELLP(x)   ((sizeof(scm_cell)-1) & (int)(x))
 
 
 
#define SCM_UNBNDP(x)   (SCM_UNDEFINED==(x))
 
 
 
/* Testing and Changing GC Marks in Various Standard Positions
 */
#define SCM_GCMARKP(x)          (1 & (int)SCM_CDR(x))
#define SCM_GC8MARKP(x)         (0x80 & (int)SCM_CAR(x))
#define SCM_SETGCMARK(x)        (SCM_CDR(x) |= 1)
#define SCM_CLRGCMARK(x)        (SCM_CDR(x) &= ~1L)
#define SCM_SETGC8MARK(x)       (SCM_CAR(x) |= 0x80)
#define SCM_CLRGC8MARK(x)       (SCM_CAR(x) &= ~0x80L)
 
 
/* Extracting Tag Bits, With or Without GC Safety and Optional Bits
 */
#define SCM_TYP3(x)             (7 & (int)SCM_CAR(x))
#define SCM_TYP7(x)             (0x7f & (int)SCM_CAR(x))
#define SCM_TYP7S(x)            (0x7d & (int)SCM_CAR(x))
#define SCM_TYP16(x)            (0xffff & (int)SCM_CAR(x))
#define SCM_TYP16S(x)           (0xfeff & (int)SCM_CAR(x))
#define SCM_GCTYP16(x)          (0xff7f & (int)SCM_CAR(x))
 
 
/* Two slightly extensible types: smobs and ptobs.
 
 */
#define SCM_SMOBNUM(x) (0x0ff & (CAR(x)>>8));
#define SCM_PTOBNUM(x) (0x0ff & (CAR(x)>>8));
 
 
 
 
#define SCM_DIRP(x) (SCM_NIMP(x) && (TYP16(x)==(scm_tc16_dir)))
#define SCM_OPDIRP(x) (SCM_NIMP(x) && (CAR(x)==(scm_tc16_dir | OPN)))
 
 
 
/* Lvectors
 */
#define SCM_LVECTORP(x) (TYP7(x)==tc7_lvector)
 
 
#if 0
 
/* Sockets
 */
#define tc_socket (tc7_port | OPN)
#define SCM_SOCKP(x) (((0x7f | OPN | RDNG | WRTNG) & CAR(x))==(tc_socket))
#define SCM_SOCKTYP(x) (CAR(x)>>24)
 
 
 
extern int scm_tc16_key_vector;
#define SCM_KEYVECP(X)   (scm_tc16_key_vector == TYP16 (X))
#define SCM_KEYVECLEN(OBJ) (((unsigned long)CAR (obj)) >> 16)
 
 
#define SCM_MALLOCDATA(obj) ((char *)CDR(obj))
#define SCM_MALLOCLEN(obj) (((unsigned long)CAR (obj)) >> 16)
#define SCM_WORDDATA(obj)  (CDR (obj))
 
 
#define SCM_BYTECODEP(X) ((TYP7 (X) == tc7_cclo) && (CCLO_SUBR (X) == rb_proc))
#define SCM_BYTECODE_CONSTANTS(X) (VELTS(X)[1])
#define SCM_BYTECODE_CODE(X) (VELTS(X)[2])
#define SCM_BYTECODE_NAME(X) (VELTS(X)[3])
#define SCM_BYTECODE_BCODE(X) (VELTS(X)[4])
#define SCM_BYTECODE_ELTS 5
 
 
#define SCM_FREEP(x) (CAR(x)==tc_free_cell)
#define SCM_NFREEP(x) (!FREEP(x))
 
#endif /* 0 */
 
 
#endif /* TAGSH */

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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-6.8/] [gdb/] [scm-tags.h] - Blame information for rev 853

Line No.	Rev	Author	Line
1	24	jeremybenn	`/* This is a minimally edited version of Guile's tags.h. */`
2			`/* classes: h_files */`
3
4			`#ifndef TAGSH`
5			`#define TAGSH`
6			`/* Copyright (C) 1995, 1999, 2008 Free Software Foundation, Inc.`
7
8			`This program is free software; you can redistribute it and/or modify`
9			`it under the terms of the GNU General Public License as published by`
10			`the Free Software Foundation; either version 3 of the License, or`
11			`(at your option) any later version.`
12
13			`This program is distributed in the hope that it will be useful,`
14			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
15			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
16			`GNU General Public License for more details.`
17
18			`You should have received a copy of the GNU General Public License`
19			`along with this program. If not, see <http://www.gnu.org/licenses/>.`
20
21			`As a special exception, the Free Software Foundation gives permission`
22			`for additional uses of the text contained in its release of GUILE.`
23
24			`The exception is that, if you link the GUILE library with other files`
25			`to produce an executable, this does not by itself cause the`
26			`resulting executable to be covered by the GNU General Public License.`
27			`Your use of that executable is in no way restricted on account of`
28			`linking the GUILE library code into it.`
29
30			`This exception does not however invalidate any other reasons why`
31			`the executable file might be covered by the GNU General Public License.`
32
33			`This exception applies only to the code released by the`
34			`Free Software Foundation under the name GUILE. If you copy`
35			`code from other Free Software Foundation releases into a copy of`
36			`GUILE, as the General Public License permits, the exception does`
37			`not apply to the code that you add in this way. To avoid misleading`
38			`anyone as to the status of such modified files, you must delete`
39			`this exception notice from them.`
40
41			`If you write modifications of your own for GUILE, it is your choice`
42			`whether to permit this exception to apply to your modifications.`
43			`If you do not wish that, delete this exception notice. */`
44
45
46			`/** This file defines the format of SCM values and cons pairs.`
47			`** It is here that tag bits are assigned for various purposes.`
48			`**/`
49
50
51			`/* Three Bit Tags`
52
53			`* 000 -- a non-immediate value. Points into the pair heap.`
54			`*`
55			`* 001 -- a gloc (i.e., a resolved global variable in a CAR in a code graph)`
56			`* or the CAR of an object handle (i.e., the tagged pointer to the`
57			`* vtable part of a user-defined object).`
58			`*`
59			`* If X has this tag, the value at CDAR(X - 1) distinguishes`
60			`* glocs from object handles. The distinction only needs`
61			`* to be made in a few places. Only a few parts of the code know`
62			`* about glocs. In most cases, when a value in the CAR of a pair`
63			`* has the tag 001, it means that the pair is an object handle.`
64			`*`
65			`* 010 -- the tag for immediate, exact integers.`
66			`*`
67			`* 011 -- in the CAR of a pair, this tag indicates that the pair is a closure.`
68			`* The remaining bits of the CAR are a pointer into the pair heap`
69			`* to the code graph for the closure.`
70			`*`
71			`* 1xy -- an extension tag which means that there is a five or six bit`
72			`* tag to the left of the low three bits. See the nice diagrams`
73			`* in ../doc/code.doc if you want to know what the bits mean.`
74			`*/`
75
76
77
78
79
80			`#define scm_tc3_cons 0`
81			`#define scm_tc3_cons_gloc 1`
82			`#define scm_tc3_closure 3`
83
84			`#define scm_tc7_ssymbol 5`
85			`#define scm_tc7_msymbol 7`
86			`#define scm_tc7_string 13`
87			`#define scm_tc7_bvect 15`
88			`#define scm_tc7_vector 21`
89			`#define scm_tc7_lvector 23`
90			`#define scm_tc7_ivect 29`
91			`#define scm_tc7_uvect 31`
92			`/* spare 37 39 */`
93			`#define scm_tc7_fvect 45`
94			`#define scm_tc7_dvect 47`
95			`#define scm_tc7_cvect 53`
96			`#define scm_tc7_port 55`
97			`#define scm_tc7_contin 61`
98			`#define scm_tc7_cclo 63`
99			`/* spare 69 71 77 79 */`
100			`#define scm_tc7_subr_0 85`
101			`#define scm_tc7_subr_1 87`
102			`#define scm_tc7_cxr 93`
103			`#define scm_tc7_subr_3 95`
104			`#define scm_tc7_subr_2 101`
105			`#define scm_tc7_asubr 103`
106			`#define scm_tc7_subr_1o 109`
107			`#define scm_tc7_subr_2o 111`
108			`#define scm_tc7_lsubr_2 117`
109			`#define scm_tc7_lsubr 119`
110			`#define scm_tc7_rpsubr 125`
111
112			`#define scm_tc7_smob 127`
113			`#define scm_tc_free_cell 127`
114
115			`#define scm_tc16_flo 0x017f`
116			`#define scm_tc_flo 0x017fL`
117
118			`#define SCM_REAL_PART (1L<<16)`
119			`#define SCM_IMAG_PART (2L<<16)`
120			`#define scm_tc_dblr (scm_tc16_flo\|REAL_PART)`
121			`#define scm_tc_dblc (scm_tc16_flo\|REAL_PART\|IMAG_PART)`
122
123			`#define scm_tc16_bigpos 0x027f`
124			`#define scm_tc16_bigneg 0x037f`
125
126			`#define scm_tc16_fport (scm_tc7_port + 0*256L)`
127			`#define scm_tc16_pipe (scm_tc7_port + 1*256L)`
128			`#define scm_tc16_strport (scm_tc7_port + 2*256L)`
129			`#define scm_tc16_sfport (scm_tc7_port + 3*256L)`
130
131
132
133			`/* For cons pairs with immediate values in the CAR */`
134			`#define scm_tcs_cons_imcar 2:case 4:case 6:case 10:\`
135			`case 12:case 14:case 18:case 20:\`
136			`case 22:case 26:case 28:case 30:\`
137			`case 34:case 36:case 38:case 42:\`
138			`case 44:case 46:case 50:case 52:\`
139			`case 54:case 58:case 60:case 62:\`
140			`case 66:case 68:case 70:case 74:\`
141			`case 76:case 78:case 82:case 84:\`
142			`case 86:case 90:case 92:case 94:\`
143			`case 98:case 100:case 102:case 106:\`
144			`case 108:case 110:case 114:case 116:\`
145			`case 118:case 122:case 124:case 126`
146
147			`/* For cons pairs with non-immediate values in the CAR */`
148			`#define scm_tcs_cons_nimcar 0:case 8:case 16:case 24:\`
149			`case 32:case 40:case 48:case 56:\`
150			`case 64:case 72:case 80:case 88:\`
151			`case 96:case 104:case 112:case 120`
152
153			`/* A CONS_GLOC occurs in code. It's CAR is a pointer to the`
154			`* CDR of a variable. The low order bits of the CAR are 001.`
155			`* The CDR of the gloc is the code continuation.`
156			`*/`
157			`#define scm_tcs_cons_gloc 1:case 9:case 17:case 25:\`
158			`case 33:case 41:case 49:case 57:\`
159			`case 65:case 73:case 81:case 89:\`
160			`case 97:case 105:case 113:case 121`
161
162			`#define scm_tcs_closures 3:case 11:case 19:case 27:\`
163			`case 35:case 43:case 51:case 59:\`
164			`case 67:case 75:case 83:case 91:\`
165			`case 99:case 107:case 115:case 123`
166
167			`#define scm_tcs_subrs scm_tc7_asubr:case scm_tc7_subr_0:case scm_tc7_subr_1:case scm_tc7_cxr:\`
168			`case scm_tc7_subr_3:case scm_tc7_subr_2:case scm_tc7_rpsubr:case scm_tc7_subr_1o:\`
169			`case scm_tc7_subr_2o:case scm_tc7_lsubr_2:case scm_tc7_lsubr`
170
171			`#define scm_tcs_symbols scm_tc7_ssymbol:case scm_tc7_msymbol`
172
173			`#define scm_tcs_bignums tc16_bigpos:case tc16_bigneg`
174
175
176
177			`/* References to objects are of type SCM. Values may be non-immediate`
178			`* (pointers) or immediate (encoded, immutable, scalar values that fit`
179			`* in an SCM variable).`
180			`*/`
181
182			`typedef long SCM;`
183
184			`/* Cray machines have pointers that are incremented once for each word,`
185			`* rather than each byte, the 3 most significant bits encode the byte`
186			`* within the word. The following macros deal with this by storing the`
187			`* native Cray pointers like the ones that looks like scm expects. This`
188			`* is done for any pointers that might appear in the car of a scm_cell, pointers`
189			`* to scm_vector elts, functions, &c are not munged.`
190			`*/`
191			`#ifdef _UNICOS`
192			`#define SCM2PTR(x) ((int)(x) >> 3)`
193			`#define PTR2SCM(x) (((SCM)(x)) << 3)`
194			`#define SCM_POINTERS_MUNGED`
195			`#else`
196			`#define SCM2PTR(x) (x)`
197			`#define PTR2SCM(x) ((SCM)(x))`
198			`#endif /* def _UNICOS */`
199
200
201
202			`/* Immediate? Predicates`
203			`*/`
204			`#define SCM_IMP(x) (6 & (int)(x))`
205			`#define SCM_NIMP(x) (!SCM_IMP(x))`
206
207
208
209			`enum scm_tags`
210			`{`
211			`scm_tc8_char = 0xf4`
212			`};`
213
214			`#define SCM_ITAG8(X) ((int)(X) & 0xff)`
215			`#define SCM_MAKE_ITAG8(X, TAG) (((X)<<8) + TAG)`
216			`#define SCM_ITAG8_DATA(X) ((X)>>8)`
217
218
219
220			`/* Local Environment Structure`
221			`*/`
222			`#define SCM_ILOCP(n) ((0xff & (int)(n))==0xfc)`
223			`#define SCM_ILOC00 (0x000000fcL)`
224			`#define SCM_IDINC (0x00100000L)`
225			`#define SCM_ICDR (0x00080000L)`
226			`#define SCM_IFRINC (0x00000100L)`
227			`#define SCM_IDSTMSK (-SCM_IDINC)`
228			`#define SCM_IFRAME(n) ((int)((SCM_ICDR-SCM_IFRINC)>>8) & ((int)(n)>>8))`
229			`#define SCM_IDIST(n) (((unsigned long)(n))>>20)`
230			`#define SCM_ICDRP(n) (SCM_ICDR & (n))`
231
232
233			`/* Immediate Symbols, Special Symbols, Flags (various constants).`
234			`*/`
235
236			`/* ISYMP tests for ISPCSYM and ISYM */`
237			`#define SCM_ISYMP(n) ((0x187 & (int)(n))==4)`
238
239			`/* IFLAGP tests for ISPCSYM, ISYM and IFLAG */`
240			`#define SCM_IFLAGP(n) ((0x87 & (int)(n))==4)`
241			`#define SCM_ISYMNUM(n) ((int)((n)>>9))`
242			`#define SCM_ISYMCHARS(n) (scm_isymnames[SCM_ISYMNUM(n)])`
243			`#define SCM_MAKSPCSYM(n) (((n)<<9)+((n)<<3)+4L)`
244			`#define SCM_MAKISYM(n) (((n)<<9)+0x74L)`
245			`#define SCM_MAKIFLAG(n) (((n)<<9)+0x174L)`
246
247			`/* This table must agree with the declarations`
248			`* in repl.c: {Names of immediate symbols}.`
249			`*`
250			`* These are used only in eval but their values`
251			`* have to be allocated here.`
252			`*`
253			`*/`
254
255			`#define SCM_IM_AND SCM_MAKSPCSYM(0)`
256			`#define SCM_IM_BEGIN SCM_MAKSPCSYM(1)`
257			`#define SCM_IM_CASE SCM_MAKSPCSYM(2)`
258			`#define SCM_IM_COND SCM_MAKSPCSYM(3)`
259			`#define SCM_IM_DO SCM_MAKSPCSYM(4)`
260			`#define SCM_IM_IF SCM_MAKSPCSYM(5)`
261			`#define SCM_IM_LAMBDA SCM_MAKSPCSYM(6)`
262			`#define SCM_IM_LET SCM_MAKSPCSYM(7)`
263			`#define SCM_IM_LETSTAR SCM_MAKSPCSYM(8)`
264			`#define SCM_IM_LETREC SCM_MAKSPCSYM(9)`
265			`#define SCM_IM_OR SCM_MAKSPCSYM(10)`
266			`#define SCM_IM_QUOTE SCM_MAKSPCSYM(11)`
267			`#define SCM_IM_SET SCM_MAKSPCSYM(12)`
268			`#define SCM_IM_DEFINE SCM_MAKSPCSYM(13)`
269			`#define SCM_IM_APPLY SCM_MAKISYM(14)`
270			`#define SCM_IM_CONT SCM_MAKISYM(15)`
271			`#define SCM_NUM_ISYMS 16`
272
273			`/* Important immediates`
274			`*/`
275
276			`#define SCM_BOOL_F SCM_MAKIFLAG(SCM_NUM_ISYMS+0)`
277			`#define SCM_BOOL_T SCM_MAKIFLAG(SCM_NUM_ISYMS+1)`
278			`#define SCM_UNDEFINED SCM_MAKIFLAG(SCM_NUM_ISYMS+2)`
279			`#define SCM_EOF_VAL SCM_MAKIFLAG(SCM_NUM_ISYMS+3)`
280
281			`#ifdef SICP`
282			`#define SCM_EOL SCM_BOOL_F`
283			`#else`
284			`#define SCM_EOL SCM_MAKIFLAG(SCM_NUM_ISYMS+4)`
285			`#endif`
286
287			`#define SCM_UNSPECIFIED SCM_MAKIFLAG(SCM_NUM_ISYMS+5)`
288
289
290
291			`/* Heap Pairs and the Empty List Predicates`
292			`*/`
293			`#define SCM_NULLP(x) (SCM_EOL == (x))`
294			`#define SCM_NNULLP(x) (SCM_EOL != (x))`
295			`#define SCM_CELLP(x) (!SCM_NCELLP(x))`
296			`#define SCM_NCELLP(x) ((sizeof(scm_cell)-1) & (int)(x))`
297
298
299
300			`#define SCM_UNBNDP(x) (SCM_UNDEFINED==(x))`
301
302
303
304			`/* Testing and Changing GC Marks in Various Standard Positions`
305			`*/`
306			`#define SCM_GCMARKP(x) (1 & (int)SCM_CDR(x))`
307			`#define SCM_GC8MARKP(x) (0x80 & (int)SCM_CAR(x))`
308			`#define SCM_SETGCMARK(x) (SCM_CDR(x) \|= 1)`
309			`#define SCM_CLRGCMARK(x) (SCM_CDR(x) &= ~1L)`
310			`#define SCM_SETGC8MARK(x) (SCM_CAR(x) \|= 0x80)`
311			`#define SCM_CLRGC8MARK(x) (SCM_CAR(x) &= ~0x80L)`
312
313
314			`/* Extracting Tag Bits, With or Without GC Safety and Optional Bits`
315			`*/`
316			`#define SCM_TYP3(x) (7 & (int)SCM_CAR(x))`
317			`#define SCM_TYP7(x) (0x7f & (int)SCM_CAR(x))`
318			`#define SCM_TYP7S(x) (0x7d & (int)SCM_CAR(x))`
319			`#define SCM_TYP16(x) (0xffff & (int)SCM_CAR(x))`
320			`#define SCM_TYP16S(x) (0xfeff & (int)SCM_CAR(x))`
321			`#define SCM_GCTYP16(x) (0xff7f & (int)SCM_CAR(x))`
322
323
324			`/* Two slightly extensible types: smobs and ptobs.`
325
326			`*/`
327			`#define SCM_SMOBNUM(x) (0x0ff & (CAR(x)>>8));`
328			`#define SCM_PTOBNUM(x) (0x0ff & (CAR(x)>>8));`
329
330
331
332
333			`#define SCM_DIRP(x) (SCM_NIMP(x) && (TYP16(x)==(scm_tc16_dir)))`
334			`#define SCM_OPDIRP(x) (SCM_NIMP(x) && (CAR(x)==(scm_tc16_dir \| OPN)))`
335
336
337
338			`/* Lvectors`
339			`*/`
340			`#define SCM_LVECTORP(x) (TYP7(x)==tc7_lvector)`
341
342
343			`#if 0`
344
345			`/* Sockets`
346			`*/`
347			`#define tc_socket (tc7_port \| OPN)`
348			`#define SCM_SOCKP(x) (((0x7f \| OPN \| RDNG \| WRTNG) & CAR(x))==(tc_socket))`
349			`#define SCM_SOCKTYP(x) (CAR(x)>>24)`
350
351
352
353			`extern int scm_tc16_key_vector;`
354			`#define SCM_KEYVECP(X) (scm_tc16_key_vector == TYP16 (X))`
355			`#define SCM_KEYVECLEN(OBJ) (((unsigned long)CAR (obj)) >> 16)`
356
357
358			`#define SCM_MALLOCDATA(obj) ((char *)CDR(obj))`
359			`#define SCM_MALLOCLEN(obj) (((unsigned long)CAR (obj)) >> 16)`
360			`#define SCM_WORDDATA(obj) (CDR (obj))`
361
362
363			`#define SCM_BYTECODEP(X) ((TYP7 (X) == tc7_cclo) && (CCLO_SUBR (X) == rb_proc))`
364			`#define SCM_BYTECODE_CONSTANTS(X) (VELTS(X)[1])`
365			`#define SCM_BYTECODE_CODE(X) (VELTS(X)[2])`
366			`#define SCM_BYTECODE_NAME(X) (VELTS(X)[3])`
367			`#define SCM_BYTECODE_BCODE(X) (VELTS(X)[4])`
368			`#define SCM_BYTECODE_ELTS 5`
369
370
371			`#define SCM_FREEP(x) (CAR(x)==tc_free_cell)`
372			`#define SCM_NFREEP(x) (!FREEP(x))`
373
374			`#endif /* 0 */`
375
376
377			`#endif /* TAGSH */`