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xenocara/app/xedit/lisp/lisp.c

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Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
/*
* Copyright (c) 2001 by The XFree86 Project, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE XFREE86 PROJECT BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF
* OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
* Except as contained in this notice, the name of the XFree86 Project shall
* not be used in advertising or otherwise to promote the sale, use or other
* dealings in this Software without prior written authorization from the
* XFree86 Project.
*
* Author: Paulo César Pereira de Andrade
*/
/* $XFree86: xc/programs/xedit/lisp/lisp.c,v 1.87tsi Exp $ */
#include <stdlib.h>
#include <string.h>
#ifdef sun
#include <strings.h>
#endif
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stdarg.h>
#include <signal.h>
#include <sys/wait.h>
#ifndef X_NOT_POSIX
#include <unistd.h> /* for sysconf(), and getpagesize() */
#endif
#if defined(linux)
#define HAS_GETPAGESIZE
#define HAS_SC_PAGESIZE /* _SC_PAGESIZE may be an enum for Linux */
#endif
#if defined(CSRG_BASED)
#define HAS_GETPAGESIZE
#endif
#if defined(sun)
#define HAS_GETPAGESIZE
#endif
#if defined(QNX4)
#define HAS_GETPAGESIZE
#endif
#if defined(__QNXNTO__)
#define HAS_SC_PAGESIZE
#endif
#include "lisp/bytecode.h"
#include "lisp/read.h"
#include "lisp/format.h"
#include "lisp/math.h"
#include "lisp/hash.h"
#include "lisp/package.h"
#include "lisp/pathname.h"
#include "lisp/regex.h"
#include "lisp/require.h"
#include "lisp/stream.h"
#include "lisp/struct.h"
#include "lisp/time.h"
#include "lisp/write.h"
#include <math.h>
typedef struct {
LispObj **objects;
LispObj *freeobj;
int nsegs;
int nobjs;
int nfree;
} LispObjSeg;
/*
* Prototypes
*/
static void Lisp__GC(LispObj*, LispObj*);
static LispObj *Lisp__New(LispObj*, LispObj*);
/* run a user function, to be called only by LispEval */
static LispObj *LispRunFunMac(LispObj*, LispObj*, int, int);
/* expands and executes a setf method, to be called only by Lisp_Setf */
LispObj *LispRunSetf(LispArgList*, LispObj*, LispObj*, LispObj*);
LispObj *LispRunSetfMacro(LispAtom*, LispObj*, LispObj*);
/* increases storage size for environment */
void LispMoreEnvironment(void);
/* increases storage size for stack of builtin arguments */
void LispMoreStack(void);
/* increases storage size for global variables */
void LispMoreGlobals(LispPackage*);
#ifdef __GNUC__
static INLINE LispObj *LispDoGetVar(LispObj*);
#endif
static INLINE void LispDoAddVar(LispObj*, LispObj*);
/* Helper for importing symbol(s) functions,
* Search for the specified object in the current package */
static INLINE LispObj *LispGetVarPack(LispObj*);
/* create environment for function call */
static int LispMakeEnvironment(LispArgList*, LispObj*, LispObj*, int, int);
/* if not already in keyword package, move atom to keyword package */
static LispObj *LispCheckKeyword(LispObj*);
/* builtin backquote parsing */
static LispObj *LispEvalBackquoteObject(LispObj*, int, int);
/* used also by the bytecode compiler */
LispObj *LispEvalBackquote(LispObj*, int);
/* create or change object property */
void LispSetAtomObjectProperty(LispAtom*, LispObj*);
/* remove object property */
static void LispRemAtomObjectProperty(LispAtom*);
/* allocates a new LispProperty for the given atom */
static void LispAllocAtomProperty(LispAtom*);
/* Increment reference count of atom property */
static void LispIncrementAtomReference(LispAtom*);
/* Decrement reference count of atom property */
static void LispDecrementAtomReference(LispAtom*);
/* Removes all atom properties */
static void LispRemAtomAllProperties(LispAtom*);
static LispObj *LispAtomPropertyFunction(LispAtom*, LispObj*, int);
static INLINE void LispCheckMemLevel(void);
void LispAllocSeg(LispObjSeg*, int);
static INLINE void LispMark(LispObj*);
/* functions, macros, setf methods, and structure definitions */
static INLINE void LispProt(LispObj*);
static LispObj *LispCheckNeedProtect(LispObj*);
static
#ifdef SIGNALRETURNSINT
int
#else
void
#endif
LispSignalHandler(int);
/*
* Initialization
*/
LispMac lisp__data;
static LispObj lispunbound = {LispNil_t};
LispObj *UNBOUND = &lispunbound;
static volatile int lisp__disable_int;
static volatile int lisp__interrupted;
LispObj *Okey, *Orest, *Ooptional, *Oaux, *Olambda;
Atom_id Snil, St;
Atom_id Saux, Skey, Soptional, Srest;
Atom_id Satom, Ssymbol, Sinteger, Scharacter, Sstring, Slist,
Scons, Svector, Sarray, Sstruct, Skeyword, Sfunction, Spathname,
Srational, Sfloat, Scomplex, Sopaque, Sdefault;
LispObj *Oformat, *Kunspecific;
LispObj *Oexpand_setf_method;
static LispProperty noproperty;
LispProperty *NOPROPERTY = &noproperty;
static int segsize, minfree;
int pagesize, gcpro;
static LispObjSeg objseg = {NULL, NIL};
static LispObjSeg atomseg = {NULL, NIL};
int LispArgList_t;
LispFile *Stdout, *Stdin, *Stderr;
static LispBuiltin lispbuiltins[] = {
{LispFunction, Lisp_Mul, "* &rest numbers"},
{LispFunction, Lisp_Plus, "+ &rest numbers"},
{LispFunction, Lisp_Minus, "- number &rest more-numbers"},
{LispFunction, Lisp_Div, "/ number &rest more-numbers"},
{LispFunction, Lisp_OnePlus, "1+ number"},
{LispFunction, Lisp_OneMinus, "1- number"},
{LispFunction, Lisp_Less, "< number &rest more-numbers"},
{LispFunction, Lisp_LessEqual, "<= number &rest more-numbers"},
{LispFunction, Lisp_Equal_, "= number &rest more-numbers"},
{LispFunction, Lisp_Greater, "> number &rest more-numbers"},
{LispFunction, Lisp_GreaterEqual, ">= number &rest more-numbers"},
{LispFunction, Lisp_NotEqual, "/= number &rest more-numbers"},
{LispFunction, Lisp_Max, "max number &rest more-numbers"},
{LispFunction, Lisp_Min, "min number &rest more-numbers"},
{LispFunction, Lisp_Abs, "abs number"},
{LispFunction, Lisp_Acons, "acons key datum alist"},
{LispFunction, Lisp_Adjoin, "adjoin item list &key key test test-not"},
{LispFunction, Lisp_AlphaCharP, "alpha-char-p char"},
{LispMacro, Lisp_And, "and &rest args", 1, 0, Com_And},
{LispFunction, Lisp_Append, "append &rest lists"},
{LispFunction, Lisp_Apply, "apply function arg &rest more-args", 1},
{LispFunction, Lisp_Aref, "aref array &rest subscripts"},
{LispFunction, Lisp_Assoc, "assoc item list &key test test-not key"},
{LispFunction, Lisp_AssocIf, "assoc-if predicate list &key key"},
{LispFunction, Lisp_AssocIfNot, "assoc-if-not predicate list &key key"},
{LispFunction, Lisp_Atom, "atom object"},
{LispMacro, Lisp_Block, "block name &rest body", 1, 0, Com_Block},
{LispFunction, Lisp_BothCaseP, "both-case-p character"},
{LispFunction, Lisp_Boundp, "boundp symbol"},
{LispFunction, Lisp_Butlast, "butlast list &optional count"},
{LispFunction, Lisp_Nbutlast, "nbutlast list &optional count"},
{LispFunction, Lisp_Car, "car list", 0, 0, Com_C_r},
{LispFunction, Lisp_Car, "first list", 0, 0, Com_C_r},
{LispMacro, Lisp_Case, "case keyform &rest body"},
{LispMacro, Lisp_Catch, "catch tag &rest body", 1},
{LispFunction, Lisp_Cdr, "cdr list", 0, 0, Com_C_r},
{LispFunction, Lisp_Cdr, "rest list", 0, 0, Com_C_r},
{LispFunction, Lisp_Ceiling, "ceiling number &optional divisor", 1},
{LispFunction, Lisp_Fceiling, "fceiling number &optional divisor", 1},
{LispFunction, Lisp_Char, "char string index"},
{LispFunction, Lisp_Char, "schar simple-string index"},
{LispFunction, Lisp_CharLess, "char< character &rest more-characters"},
{LispFunction, Lisp_CharLessEqual, "char<= character &rest more-characters"},
{LispFunction, Lisp_CharEqual_, "char= character &rest more-characters"},
{LispFunction, Lisp_CharGreater, "char> character &rest more-characters"},
{LispFunction, Lisp_CharGreaterEqual, "char>= character &rest more-characters"},
{LispFunction, Lisp_CharNotEqual_, "char/= character &rest more-characters"},
{LispFunction, Lisp_CharLessp, "char-lessp character &rest more-characters"},
{LispFunction, Lisp_CharNotGreaterp, "char-not-greaterp character &rest more-characters"},
{LispFunction, Lisp_CharEqual, "char-equal character &rest more-characters"},
{LispFunction, Lisp_CharGreaterp, "char-greaterp character &rest more-characters"},
{LispFunction, Lisp_CharNotLessp, "char-not-lessp character &rest more-characters"},
{LispFunction, Lisp_CharNotEqual, "char-not-equal character &rest more-characters"},
{LispFunction, Lisp_CharDowncase, "char-downcase character"},
{LispFunction, Lisp_CharInt, "char-code character"},
{LispFunction, Lisp_CharInt, "char-int character"},
{LispFunction, Lisp_CharUpcase, "char-upcase character"},
{LispFunction, Lisp_Character, "character object"},
{LispFunction, Lisp_Characterp, "characterp object"},
{LispFunction, Lisp_Clrhash, "clrhash hash-table"},
{LispFunction, Lisp_IntChar, "code-char integer"},
{LispFunction, Lisp_Coerce, "coerce object result-type"},
{LispFunction, Lisp_Compile, "compile name &optional definition", 1},
{LispFunction, Lisp_Complex, "complex realpart &optional imagpart"},
{LispMacro, Lisp_Cond, "cond &rest body", 0, 0, Com_Cond},
{LispFunction, Lisp_Cons, "cons car cdr", 0, 0, Com_Cons},
{LispFunction, Lisp_Consp, "consp object", 0, 0, Com_Consp},
{LispFunction, Lisp_Constantp, "constantp form &optional environment"},
{LispFunction, Lisp_Conjugate, "conjugate number"},
{LispFunction, Lisp_Complexp, "complexp object"},
{LispFunction, Lisp_CopyAlist, "copy-alist list"},
{LispFunction, Lisp_CopyList, "copy-list list"},
{LispFunction, Lisp_CopyTree, "copy-tree list"},
{LispFunction, Lisp_Close, "close stream &key abort"},
{LispFunction, Lisp_C_r, "caar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cddr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caaar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cadar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caddr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdaar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cddar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdddr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caaaar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caaadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caadar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caaddr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cadaar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cadadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "caddar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cadddr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdaaar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdaadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdadar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdaddr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cddaar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cddadr list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cdddar list", 0, 0, Com_C_r},
{LispFunction, Lisp_C_r, "cddddr list", 0, 0, Com_C_r},
{LispMacro, Lisp_Decf, "decf place &optional delta"},
{LispMacro, Lisp_Defconstant, "defconstant name initial-value &optional documentation"},
{LispMacro, Lisp_Defmacro, "defmacro name lambda-list &rest body"},
{LispMacro, Lisp_Defstruct, "defstruct name &rest description"},
{LispMacro, Lisp_Defun, "defun name lambda-list &rest body"},
{LispMacro, Lisp_Defsetf, "defsetf function lambda-list &rest body"},
{LispMacro, Lisp_Defparameter, "defparameter name initial-value &optional documentation"},
{LispMacro, Lisp_Defvar, "defvar name &optional initial-value documentation"},
{LispFunction, Lisp_Delete, "delete item sequence &key from-end test test-not start end count key"},
{LispFunction, Lisp_DeleteDuplicates, "delete-duplicates sequence &key from-end test test-not start end key"},
{LispFunction, Lisp_DeleteIf, "delete-if predicate sequence &key from-end start end count key"},
{LispFunction, Lisp_DeleteIfNot, "delete-if-not predicate sequence &key from-end start end count key"},
{LispFunction, Lisp_DeleteFile, "delete-file filename"},
{LispFunction, Lisp_Denominator, "denominator rational"},
{LispFunction, Lisp_DigitChar, "digit-char weight &optional radix"},
{LispFunction, Lisp_DigitCharP, "digit-char-p character &optional radix"},
{LispFunction, Lisp_Directory, "directory pathname &key all if-cannot-read"},
{LispFunction, Lisp_DirectoryNamestring, "directory-namestring pathname"},
{LispFunction, Lisp_Disassemble, "disassemble function"},
{LispMacro, Lisp_Do, "do init test &rest body"},
{LispMacro, Lisp_DoP, "do* init test &rest body"},
{LispFunction, Lisp_Documentation, "documentation symbol type"},
{LispMacro, Lisp_DoList, "dolist init &rest body", 0, 0, Com_Dolist},
{LispMacro, Lisp_DoTimes, "dotimes init &rest body"},
{LispMacro, Lisp_DoAllSymbols, "do-all-symbols init &rest body"},
{LispMacro, Lisp_DoExternalSymbols, "do-external-symbols init &rest body"},
{LispMacro, Lisp_DoSymbols, "do-symbols init &rest body"},
{LispFunction, Lisp_Elt, "elt sequence index"},
{LispFunction, Lisp_Endp, "endp object"},
{LispFunction, Lisp_EnoughNamestring, "enough-namestring pathname &optional defaults"},
{LispFunction, Lisp_Eq, "eq left right", 0, 0, Com_Eq},
{LispFunction, Lisp_Eql, "eql left right", 0, 0, Com_Eq},
{LispFunction, Lisp_Equal, "equal left right", 0, 0, Com_Eq},
{LispFunction, Lisp_Equalp, "equalp left right", 0, 0, Com_Eq},
{LispFunction, Lisp_Error, "error control-string &rest arguments"},
{LispFunction, Lisp_Evenp, "evenp integer"},
{LispFunction, Lisp_Export, "export symbols &optional package"},
{LispFunction, Lisp_Eval, "eval form"},
{LispFunction, Lisp_Every, "every predicate sequence &rest more-sequences"},
{LispFunction, Lisp_Some, "some predicate sequence &rest more-sequences"},
{LispFunction, Lisp_Notevery, "notevery predicate sequence &rest more-sequences"},
{LispFunction, Lisp_Notany, "notany predicate sequence &rest more-sequences"},
{LispFunction, Lisp_Fboundp, "fboundp symbol"},
{LispFunction, Lisp_Find, "find item sequence &key from-end test test-not start end key"},
{LispFunction, Lisp_FindIf, "find-if predicate sequence &key from-end start end key"},
{LispFunction, Lisp_FindIfNot, "find-if-not predicate sequence &key from-end start end key"},
{LispFunction, Lisp_FileNamestring, "file-namestring pathname"},
{LispFunction, Lisp_Fill, "fill sequence item &key start end"},
{LispFunction, Lisp_FindAllSymbols, "find-all-symbols string-or-symbol"},
{LispFunction, Lisp_FindSymbol, "find-symbol string &optional package", 1},
{LispFunction, Lisp_FindPackage, "find-package name"},
{LispFunction, Lisp_Float, "float number &optional other"},
{LispFunction, Lisp_Floatp, "floatp object"},
{LispFunction, Lisp_Floor, "floor number &optional divisor", 1},
{LispFunction, Lisp_Ffloor, "ffloor number &optional divisor", 1},
{LispFunction, Lisp_Fmakunbound, "fmakunbound symbol"},
{LispFunction, Lisp_Format, "format destination control-string &rest arguments"},
{LispFunction, Lisp_FreshLine, "fresh-line &optional output-stream"},
{LispFunction, Lisp_Funcall, "funcall function &rest arguments", 1},
{LispFunction, Lisp_Functionp, "functionp object"},
{LispFunction, Lisp_Gc, "gc &optional car cdr"},
{LispFunction, Lisp_Gcd, "gcd &rest integers"},
{LispFunction, Lisp_Gensym, "gensym &optional arg"},
{LispFunction, Lisp_Get, "get symbol indicator &optional default"},
{LispFunction, Lisp_Gethash, "gethash key hash-table &optional default", 1},
{LispMacro, Lisp_Go, "go tag", 0, 0, Com_Go},
{LispFunction, Lisp_GraphicCharP, "graphic-char-p char"},
{LispFunction, Lisp_HashTableP, "hash-table-p object"},
{LispFunction, Lisp_HashTableCount, "hash-table-count hash-table"},
{LispFunction, Lisp_HashTableRehashSize, "hash-table-rehash-size hash-table"},
{LispFunction, Lisp_HashTableRehashThreshold, "hash-table-rehash-threshold hash-table"},
{LispFunction, Lisp_HashTableSize, "hash-table-size hash-table"},
{LispFunction, Lisp_HashTableTest, "hash-table-test hash-table"},
{LispFunction, Lisp_HostNamestring, "host-namestring pathname"},
{LispMacro, Lisp_If, "if test then &optional else", 0, 0, Com_If},
{LispMacro, Lisp_IgnoreErrors, "ignore-errors &rest body", 1},
{LispFunction, Lisp_Imagpart, "imagpart number"},
{LispMacro, Lisp_InPackage, "in-package name"},
{LispMacro, Lisp_Incf, "incf place &optional delta"},
{LispFunction, Lisp_Import, "import symbols &optional package"},
{LispFunction, Lisp_InputStreamP, "input-stream-p stream"},
{LispFunction, Lisp_IntChar, "int-char integer"},
{LispFunction, Lisp_Integerp, "integerp object"},
{LispFunction, Lisp_Intern, "intern string &optional package", 1},
{LispFunction, Lisp_Intersection, "intersection list1 list2 &key test test-not key"},
{LispFunction, Lisp_Nintersection, "nintersection list1 list2 &key test test-not key"},
{LispFunction, Lisp_Isqrt, "isqrt natural"},
{LispFunction, Lisp_Keywordp, "keywordp object"},
{LispFunction, Lisp_Last, "last list &optional count", 0, 0, Com_Last},
{LispMacro, Lisp_Lambda, "lambda lambda-list &rest body"},
{LispFunction, Lisp_Lcm, "lcm &rest integers"},
{LispFunction, Lisp_Length, "length sequence", 0, 0, Com_Length},
{LispMacro, Lisp_Let, "let init &rest body", 1, 0, Com_Let},
{LispMacro, Lisp_LetP, "let* init &rest body", 1, 0, Com_Letx},
{LispFunction, Lisp_ListP, "list* object &rest more-objects"},
{LispFunction, Lisp_ListAllPackages, "list-all-packages"},
{LispFunction, Lisp_List, "list &rest args"},
{LispFunction, Lisp_ListLength, "list-length list"},
{LispFunction, Lisp_Listp, "listp object", 0, 0, Com_Listp},
{LispFunction, Lisp_Listen, "listen &optional input-stream"},
{LispFunction, Lisp_Load, "load filename &key verbose print if-does-not-exist"},
{LispFunction, Lisp_Logand, "logand &rest integers"},
{LispFunction, Lisp_Logeqv, "logeqv &rest integers"},
{LispFunction, Lisp_Logior, "logior &rest integers"},
{LispFunction, Lisp_Lognot, "lognot integer"},
{LispFunction, Lisp_Logxor, "logxor &rest integers"},
{LispMacro, Lisp_Loop, "loop &rest body", 0, 0, Com_Loop},
{LispFunction, Lisp_LowerCaseP, "lower-case-p character"},
{LispFunction, Lisp_MakeArray, "make-array dimensions &key element-type initial-element initial-contents adjustable fill-pointer displaced-to displaced-index-offset"},
{LispFunction, Lisp_MakeHashTable, "make-hash-table &key test size rehash-size rehash-threshold initial-contents"},
{LispFunction, Lisp_MakeList, "make-list size &key initial-element"},
{LispFunction, Lisp_MakePackage, "make-package package-name &key nicknames use"},
{LispFunction, Lisp_MakePathname, "make-pathname &key host device directory name type version defaults"},
{LispFunction, Lisp_MakeString, "make-string size &key initial-element element-type"},
{LispFunction, Lisp_MakeSymbol, "make-symbol name"},
{LispFunction, Lisp_MakeStringInputStream, "make-string-input-stream string &optional start end"},
{LispFunction, Lisp_MakeStringOutputStream, "make-string-output-stream &key element-type"},
{LispFunction, Lisp_GetOutputStreamString, "get-output-stream-string string-output-stream"},
{LispFunction, Lisp_Makunbound, "makunbound symbol"},
{LispFunction, Lisp_Mapc, "mapc function list &rest more-lists"},
{LispFunction, Lisp_Mapcar, "mapcar function list &rest more-lists"},
{LispFunction, Lisp_Mapcan, "mapcan function list &rest more-lists"},
{LispFunction, Lisp_Maphash, "maphash function hash-table"},
{LispFunction, Lisp_Mapl, "mapl function list &rest more-lists"},
{LispFunction, Lisp_Maplist, "maplist function list &rest more-lists"},
{LispFunction, Lisp_Mapcon, "mapcon function list &rest more-lists"},
{LispFunction, Lisp_Member, "member item list &key test test-not key"},
{LispFunction, Lisp_MemberIf, "member-if predicate list &key key"},
{LispFunction, Lisp_MemberIfNot, "member-if-not predicate list &key key"},
{LispFunction, Lisp_Minusp, "minusp number"},
{LispFunction, Lisp_Mod, "mod number divisor"},
{LispMacro, Lisp_MultipleValueBind, "multiple-value-bind symbols values &rest body"},
{LispMacro, Lisp_MultipleValueCall, "multiple-value-call function &rest form", 1},
{LispMacro, Lisp_MultipleValueProg1, "multiple-value-prog1 first-form &rest form", 1},
{LispMacro, Lisp_MultipleValueList, "multiple-value-list form"},
{LispMacro, Lisp_MultipleValueSetq, "multiple-value-setq symbols form"},
{LispFunction, Lisp_Nconc, "nconc &rest lists"},
{LispFunction, Lisp_Nreverse, "nreverse sequence"},
{LispFunction, Lisp_NsetDifference, "nset-difference list1 list2 &key test test-not key"},
{LispFunction, Lisp_Nsubstitute, "nsubstitute newitem olditem sequence &key from-end test test-not start end count key"},
{LispFunction, Lisp_NsubstituteIf, "nsubstitute-if newitem test sequence &key from-end start end count key"},
{LispFunction, Lisp_NsubstituteIfNot, "nsubstitute-if-not newitem test sequence &key from-end start end count key"},
{LispFunction, Lisp_Nth, "nth index list"},
{LispFunction, Lisp_Nthcdr, "nthcdr index list", 0, 0, Com_Nthcdr},
{LispMacro, Lisp_NthValue, "nth-value index form"},
{LispFunction, Lisp_Numerator, "numerator rational"},
{LispFunction, Lisp_Namestring, "namestring pathname"},
{LispFunction, Lisp_Null, "not arg", 0, 0, Com_Null},
{LispFunction, Lisp_Null, "null list", 0, 0, Com_Null},
{LispFunction, Lisp_Numberp, "numberp object", 0, 0, Com_Numberp},
{LispFunction, Lisp_Oddp, "oddp integer"},
{LispFunction, Lisp_Open, "open filename &key direction element-type if-exists if-does-not-exist external-format"},
{LispFunction, Lisp_OpenStreamP, "open-stream-p stream"},
{LispMacro, Lisp_Or, "or &rest args", 1, 0, Com_Or},
{LispFunction, Lisp_OutputStreamP, "output-stream-p stream"},
{LispFunction, Lisp_Packagep, "packagep object"},
{LispFunction, Lisp_PackageName, "package-name package"},
{LispFunction, Lisp_PackageNicknames, "package-nicknames package"},
{LispFunction, Lisp_PackageUseList, "package-use-list package"},
{LispFunction, Lisp_PackageUsedByList, "package-used-by-list package"},
{LispFunction, Lisp_Pairlis, "pairlis key data &optional alist"},
{LispFunction, Lisp_ParseInteger, "parse-integer string &key start end radix junk-allowed", 1},
{LispFunction, Lisp_ParseNamestring, "parse-namestring object &optional host defaults &key start end junk-allowed", 1},
{LispFunction, Lisp_PathnameHost, "pathname-host pathname"},
{LispFunction, Lisp_PathnameDevice, "pathname-device pathname"},
{LispFunction, Lisp_PathnameDirectory, "pathname-directory pathname"},
{LispFunction, Lisp_PathnameName, "pathname-name pathname"},
{LispFunction, Lisp_PathnameType, "pathname-type pathname"},
{LispFunction, Lisp_PathnameVersion, "pathname-version pathname"},
{LispFunction, Lisp_Pathnamep, "pathnamep object"},
{LispFunction, Lisp_Plusp, "plusp number"},
{LispMacro, Lisp_Pop, "pop place"},
{LispFunction, Lisp_Position, "position item sequence &key from-end test test-not start end key"},
{LispFunction, Lisp_PositionIf, "position-if predicate sequence &key from-end start end key"},
{LispFunction, Lisp_PositionIfNot, "position-if-not predicate sequence &key from-end start end key"},
{LispFunction, Lisp_Prin1, "prin1 object &optional output-stream"},
{LispFunction, Lisp_Princ, "princ object &optional output-stream"},
{LispFunction, Lisp_Print, "print object &optional output-stream"},
{LispFunction, Lisp_ProbeFile, "probe-file pathname"},
{LispFunction, Lisp_Proclaim, "proclaim declaration"},
{LispMacro, Lisp_Prog1, "prog1 first &rest body"},
{LispMacro, Lisp_Prog2, "prog2 first second &rest body"},
{LispMacro, Lisp_Progn, "progn &rest body", 1, 0, Com_Progn},
{LispMacro, Lisp_Progv, "progv symbols values &rest body", 1},
{LispFunction, Lisp_Provide, "provide module"},
{LispMacro, Lisp_Push, "push item place"},
{LispMacro, Lisp_Pushnew, "pushnew item place &key key test test-not"},
{LispFunction, Lisp_Quit, "quit &optional status"},
{LispMacro, Lisp_Quote, "quote object"},
{LispFunction, Lisp_Rational, "rational number"},
{LispFunction, Lisp_Rationalp, "rationalp object"},
{LispFunction, Lisp_Read, "read &optional input-stream eof-error-p eof-value recursive-p"},
{LispFunction, Lisp_ReadChar, "read-char &optional input-stream eof-error-p eof-value recursive-p"},
{LispFunction, Lisp_ReadCharNoHang, "read-char-no-hang &optional input-stream eof-error-p eof-value recursive-p"},
{LispFunction, Lisp_ReadLine, "read-line &optional input-stream eof-error-p eof-value recursive-p", 1},
{LispFunction, Lisp_Realpart, "realpart number"},
{LispFunction, Lisp_Replace, "replace sequence1 sequence2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_ReadFromString, "read-from-string string &optional eof-error-p eof-value &key start end preserve-whitespace", 1},
{LispFunction, Lisp_Require, "require module &optional pathname"},
{LispFunction, Lisp_Rem, "rem number divisor"},
{LispFunction, Lisp_Remhash, "remhash key hash-table"},
{LispFunction, Lisp_Remove, "remove item sequence &key from-end test test-not start end count key"},
{LispFunction, Lisp_RemoveDuplicates, "remove-duplicates sequence &key from-end test test-not start end key"},
{LispFunction, Lisp_RemoveIf, "remove-if predicate sequence &key from-end start end count key"},
{LispFunction, Lisp_RemoveIfNot, "remove-if-not predicate sequence &key from-end start end count key"},
{LispFunction, Lisp_Remprop, "remprop symbol indicator"},
{LispFunction, Lisp_RenameFile, "rename-file filename new-name", 1},
{LispMacro, Lisp_Return, "return &optional result", 1, 0, Com_Return},
{LispMacro, Lisp_ReturnFrom, "return-from name &optional result", 1, 0, Com_ReturnFrom},
{LispFunction, Lisp_Reverse, "reverse sequence"},
{LispFunction, Lisp_Round, "round number &optional divisor", 1},
{LispFunction, Lisp_Fround, "fround number &optional divisor", 1},
{LispFunction, Lisp_Rplaca, "rplaca place value", 0, 0, Com_Rplac_},
{LispFunction, Lisp_Rplacd, "rplacd place value", 0, 0, Com_Rplac_},
{LispFunction, Lisp_Search, "search sequence1 sequence2 &key from-end test test-not key start1 start2 end1 end2"},
{LispFunction, Lisp_Set, "set symbol value"},
{LispFunction, Lisp_SetDifference, "set-difference list1 list2 &key test test-not key"},
{LispFunction, Lisp_SetExclusiveOr, "set-exclusive-or list1 list2 &key test test-not key"},
{LispFunction, Lisp_NsetExclusiveOr, "nset-exclusive-or list1 list2 &key test test-not key"},
{LispMacro, Lisp_Setf, "setf &rest form"},
{LispMacro, Lisp_Psetf, "psetf &rest form"},
{LispMacro, Lisp_SetQ, "setq &rest form", 0, 0, Com_Setq},
{LispMacro, Lisp_Psetq, "psetq &rest form"},
{LispFunction, Lisp_Sleep, "sleep seconds"},
{LispFunction, Lisp_Sort, "sort sequence predicate &key key"},
{LispFunction, Lisp_Sqrt, "sqrt number"},
{LispFunction, Lisp_Elt, "svref sequence index"},
{LispFunction, Lisp_Sort, "stable-sort sequence predicate &key key"},
{LispFunction, Lisp_Streamp, "streamp object"},
{LispFunction, Lisp_String, "string object"},
{LispFunction, Lisp_Stringp, "stringp object"},
{LispFunction, Lisp_StringEqual_, "string= string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringLess, "string< string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringGreater, "string> string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringLessEqual, "string<= string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringGreaterEqual, "string>= string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringNotEqual_, "string/= string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringConcat, "string-concat &rest strings"},
{LispFunction, Lisp_StringEqual, "string-equal string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringGreaterp, "string-greaterp string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringNotEqual, "string-not-equal string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringNotGreaterp, "string-not-greaterp string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringNotLessp, "string-not-lessp string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringLessp, "string-lessp string1 string2 &key start1 end1 start2 end2"},
{LispFunction, Lisp_StringTrim, "string-trim character-bag string"},
{LispFunction, Lisp_StringLeftTrim, "string-left-trim character-bag string"},
{LispFunction, Lisp_StringRightTrim, "string-right-trim character-bag string"},
{LispFunction, Lisp_StringUpcase, "string-upcase string &key start end"},
{LispFunction, Lisp_NstringUpcase, "nstring-upcase string &key start end"},
{LispFunction, Lisp_StringDowncase, "string-downcase string &key start end"},
{LispFunction, Lisp_NstringDowncase, "nstring-downcase string &key start end"},
{LispFunction, Lisp_StringCapitalize, "string-capitalize string &key start end"},
{LispFunction, Lisp_NstringCapitalize, "nstring-capitalize string &key start end"},
{LispFunction, Lisp_Subseq, "subseq sequence start &optional end"},
{LispFunction, Lisp_Subsetp, "subsetp list1 list2 &key test test-not key"},
{LispFunction, Lisp_Substitute, "substitute newitem olditem sequence &key from-end test test-not start end count key"},
{LispFunction, Lisp_SubstituteIf, "substitute-if newitem test sequence &key from-end start end count key"},
{LispFunction, Lisp_SubstituteIfNot, "substitute-if-not newitem test sequence &key from-end start end count key"},
{LispFunction, Lisp_SymbolFunction, "symbol-function symbol"},
{LispFunction, Lisp_SymbolName, "symbol-name symbol"},
{LispFunction, Lisp_Symbolp, "symbolp object"},
{LispFunction, Lisp_SymbolPlist, "symbol-plist symbol"},
{LispFunction, Lisp_SymbolPackage, "symbol-package symbol"},
{LispFunction, Lisp_SymbolValue, "symbol-value symbol"},
{LispMacro, Lisp_Tagbody, "tagbody &rest body", 0, 0, Com_Tagbody},
{LispFunction, Lisp_Terpri, "terpri &optional output-stream"},
{LispFunction, Lisp_Typep, "typep object type"},
{LispMacro, Lisp_The, "the value-type form"},
{LispMacro, Lisp_Throw, "throw tag result", 1},
{LispMacro, Lisp_Time, "time form"},
{LispFunction, Lisp_Truename, "truename pathname"},
{LispFunction, Lisp_TreeEqual, "tree-equal tree-1 tree-2 &key test test-not"},
{LispFunction, Lisp_Truncate, "truncate number &optional divisor", 1},
{LispFunction, Lisp_Ftruncate, "ftruncate number &optional divisor", 1},
{LispFunction, Lisp_Unexport, "unexport symbols &optional package"},
{LispFunction, Lisp_Union, "union list1 list2 &key test test-not key"},
{LispFunction, Lisp_Nunion, "nunion list1 list2 &key test test-not key"},
{LispMacro, Lisp_Unless, "unless test &rest body", 1, 0, Com_Unless},
{LispFunction, Lisp_UserHomedirPathname, "user-homedir-pathname &optional host"},
{LispMacro, Lisp_UnwindProtect, "unwind-protect protect &rest cleanup"},
{LispFunction, Lisp_UpperCaseP, "upper-case-p character"},
{LispFunction, Lisp_Values, "values &rest objects", 1},
{LispFunction, Lisp_ValuesList, "values-list list", 1},
{LispFunction, Lisp_Vector, "vector &rest objects"},
{LispMacro, Lisp_When, "when test &rest body", 1, 0, Com_When},
{LispFunction, Lisp_Write, " write object &key case circle escape length level lines pretty readably right-margin stream"},
{LispFunction, Lisp_WriteChar, "write-char string &optional output-stream"},
{LispFunction, Lisp_WriteLine, "write-line string &optional output-stream &key start end"},
{LispFunction, Lisp_WriteString, "write-string string &optional output-stream &key start end"},
{LispFunction, Lisp_XeditCharStore, "lisp::char-store string index value", 0, 1},
{LispFunction, Lisp_XeditEltStore, "lisp::elt-store sequence index value", 0, 1},
{LispFunction, Lisp_XeditMakeStruct, "lisp::make-struct atom &rest init", 0, 1},
{LispFunction, Lisp_XeditPut, " lisp::put symbol indicator value", 0, 1},
{LispFunction, Lisp_XeditPuthash, "lisp::puthash key hash-table value", 0, 1},
{LispFunction, Lisp_XeditSetSymbolPlist, "lisp::set-symbol-plist symbol list", 0, 1},
{LispFunction, Lisp_XeditStructAccess, "lisp::struct-access atom struct", 0, 1},
{LispFunction, Lisp_XeditStructType, "lisp::struct-type atom struct", 0, 1},
{LispFunction, Lisp_XeditStructStore, "lisp::struct-store atom struct value", 0, 1},
{LispFunction, Lisp_XeditVectorStore, "lisp::vector-store array &rest values", 0, 1},
{LispFunction, Lisp_XeditDocumentationStore, "lisp::documentation-store symbol type string", 0, 1},
{LispFunction, Lisp_Zerop, "zerop number"},
};
static LispBuiltin extbuiltins[] = {
{LispFunction, Lisp_Getenv, "getenv name"},
{LispFunction, Lisp_MakePipe, "make-pipe command-line &key direction element-type external-format"},
{LispFunction, Lisp_PipeBroken, "pipe-broken pipe-stream"},
{LispFunction, Lisp_PipeErrorStream, "pipe-error-stream pipe-stream"},
{LispFunction, Lisp_PipeInputDescriptor, "pipe-input-descriptor pipe-stream"},
{LispFunction, Lisp_PipeErrorDescriptor, "pipe-error-descriptor pipe-stream"},
{LispFunction, Lisp_Recomp, "re-comp pattern &key nospec icase nosub newline"},
{LispFunction, Lisp_Reexec, "re-exec regex string &key count start end notbol noteol"},
{LispFunction, Lisp_Rep, "re-p object"},
{LispFunction, Lisp_Setenv, "setenv name value &optional overwrite"},
{LispFunction, Lisp_Unsetenv, "unsetenv name"},
{LispFunction, Lisp_NstringTrim, "nstring-trim character-bag string"},
{LispFunction, Lisp_NstringLeftTrim, "nstring-left-trim character-bag string"},
{LispFunction, Lisp_NstringRightTrim, "nstring-right-trim character-bag string"},
{LispMacro, Lisp_Until, "until test &rest body", 0, 0, Com_Until},
{LispMacro, Lisp_While, "while test &rest body", 0, 0, Com_While},
};
/* byte code function argument list for functions that don't change it's
* &REST argument list. */
extern LispObj x_cons[8];
/*
* Implementation
*/
static int
LispGetPageSize(void)
{
static int pagesize = -1;
if (pagesize != -1)
return pagesize;
/* Try each supported method in the preferred order */
#if defined(_SC_PAGESIZE) || defined(HAS_SC_PAGESIZE)
pagesize = sysconf(_SC_PAGESIZE);
#endif
#ifdef _SC_PAGE_SIZE
if (pagesize == -1)
pagesize = sysconf(_SC_PAGE_SIZE);
#endif
#ifdef HAS_GETPAGESIZE
if (pagesize == -1)
pagesize = getpagesize();
#endif
#ifdef PAGE_SIZE
if (pagesize == -1)
pagesize = PAGE_SIZE;
#endif
if (pagesize < sizeof(LispObj) * 16)
pagesize = sizeof(LispObj) * 16; /* need a reasonable sane size */
return pagesize;
}
void
LispDestroy(char *fmt, ...)
{
static char Error[] = "*** ";
if (!lisp__data.destroyed) {
char string[128];
va_list ap;
va_start(ap, fmt);
vsnprintf(string, sizeof(string), fmt, ap);
va_end(ap);
if (!lisp__data.ignore_errors) {
if (Stderr->column)
LispFputc(Stderr, '\n');
LispFputs(Stderr, Error);
LispFputs(Stderr, string);
LispFputc(Stderr, '\n');
LispFflush(Stderr);
}
else
lisp__data.error_condition = STRING(string);
#ifdef DEBUGGER
if (lisp__data.debugging) {
LispDebugger(LispDebugCallWatch, NIL, NIL);
LispDebugger(LispDebugCallFatal, NIL, NIL);
}
#endif
lisp__data.destroyed = 1;
LispBlockUnwind(NULL);
if (lisp__data.errexit)
exit(1);
}
#ifdef DEBUGGER
if (lisp__data.debugging) {
/* when stack variables could be changed, this must be also changed! */
lisp__data.debug_level = -1;
lisp__data.debug = LispDebugUnspec;
}
#endif
while (lisp__data.mem.level) {
--lisp__data.mem.level;
if (lisp__data.mem.mem[lisp__data.mem.level])
free(lisp__data.mem.mem[lisp__data.mem.level]);
}
lisp__data.mem.index = 0;
/* If the package was changed and an error happened */
PACKAGE = lisp__data.savepackage;
lisp__data.pack = lisp__data.savepack;
LispTopLevel();
if (!lisp__data.running) {
static char Fatal[] = "*** Fatal: nowhere to longjmp.\n";
LispFputs(Stderr, Fatal);
LispFflush(Stderr);
abort();
}
siglongjmp(lisp__data.jmp, 1);
}
void
LispContinuable(char *fmt, ...)
{
va_list ap;
char string[128];
static char Error[] = "*** Error: ";
if (Stderr->column)
LispFputc(Stderr, '\n');
LispFputs(Stderr, Error);
va_start(ap, fmt);
vsnprintf(string, sizeof(string), fmt, ap);
va_end(ap);
LispFputs(Stderr, string);
LispFputc(Stderr, '\n');
LispFputs(Stderr, "Type 'continue' if you want to proceed: ");
LispFflush(Stderr);
/* NOTE: does not check if stdin is a tty */
if (LispFgets(Stdin, string, sizeof(string)) &&
strcmp(string, "continue\n") == 0)
return;
LispDestroy("aborted on continuable error");
}
void
LispMessage(char *fmt, ...)
{
va_list ap;
char string[128];
if (Stderr->column)
LispFputc(Stderr, '\n');
va_start(ap, fmt);
vsnprintf(string, sizeof(string), fmt, ap);
va_end(ap);
LispFputs(Stderr, string);
LispFputc(Stderr, '\n');
LispFflush(Stderr);
}
void
LispWarning(char *fmt, ...)
{
va_list ap;
char string[128];
static char Warning[] = "*** Warning: ";
if (Stderr->column)
LispFputc(Stderr, '\n');
LispFputs(Stderr, Warning);
va_start(ap, fmt);
vsnprintf(string, sizeof(string), fmt, ap);
va_end(ap);
LispFputs(Stderr, string);
LispFputc(Stderr, '\n');
LispFflush(Stderr);
}
void
LispTopLevel(void)
{
int count;
COD = NIL;
#ifdef DEBUGGER
if (lisp__data.debugging) {
DBG = NIL;
if (lisp__data.debug == LispDebugFinish)
lisp__data.debug = LispDebugUnspec;
lisp__data.debug_level = -1;
lisp__data.debug_step = 0;
}
#endif
gcpro = 0;
lisp__data.block.block_level = 0;
if (lisp__data.block.block_size) {
while (lisp__data.block.block_size)
free(lisp__data.block.block[--lisp__data.block.block_size]);
free(lisp__data.block.block);
lisp__data.block.block = NULL;
}
lisp__data.destroyed = lisp__data.ignore_errors = 0;
if (CONSP(lisp__data.input_list)) {
LispUngetInfo **info, *unget = lisp__data.unget[0];
while (CONSP(lisp__data.input_list))
lisp__data.input_list = CDR(lisp__data.input_list);
SINPUT = lisp__data.input_list;
while (lisp__data.nunget > 1)
free(lisp__data.unget[--lisp__data.nunget]);
if ((info = realloc(lisp__data.unget, sizeof(LispUngetInfo*))) != NULL)
lisp__data.unget = info;
lisp__data.unget[0] = unget;
lisp__data.iunget = 0;
lisp__data.eof = 0;
}
for (count = 0; lisp__data.mem.level;) {
--lisp__data.mem.level;
if (lisp__data.mem.mem[lisp__data.mem.level]) {
++count;
#if 0
printf("LEAK: %p\n", lisp__data.mem.mem[lisp__data.mem.level]);
#endif
}
}
lisp__data.mem.index = 0;
if (count)
LispWarning("%d raw memory pointer(s) left. Probably a leak.", count);
lisp__data.stack.base = lisp__data.stack.length =
lisp__data.env.lex = lisp__data.env.length = lisp__data.env.head = 0;
RETURN_COUNT = 0;
lisp__data.protect.length = 0;
lisp__data.savepackage = PACKAGE;
lisp__data.savepack = lisp__data.pack;
lisp__disable_int = lisp__interrupted = 0;
}
void
LispGC(LispObj *car, LispObj *cdr)
{
Lisp__GC(car, cdr);
}
static void
Lisp__GC(LispObj *car, LispObj *cdr)
{
register LispObj *entry, *last, *freeobj, **pentry, **eentry;
register int nfree;
unsigned i, j;
LispAtom *atom;
struct timeval start, end;
#ifdef DEBUG
long sec, msec;
int count = objseg.nfree;
#else
long msec;
#endif
if (gcpro)
return;
DISABLE_INTERRUPTS();
nfree = 0;
freeobj = NIL;
++lisp__data.gc.count;
#ifdef DEBUG
gettimeofday(&start, NULL);
#else
if (lisp__data.gc.timebits)
gettimeofday(&start, NULL);
#endif
/* Need to measure timings again to check if it is not better/faster
* to just mark these fields as any other data, as the interface was
* changed to properly handle circular lists in the function body itself.
*/
if (lisp__data.gc.immutablebits) {
for (j = 0; j < objseg.nsegs; j++) {
for (entry = objseg.objects[j], last = entry + segsize;
entry < last; entry++)
entry->prot = 0;
}
}
/* Protect all packages */
for (entry = PACK; CONSP(entry); entry = CDR(entry)) {
LispObj *package = CAR(entry);
LispPackage *pack = package->data.package.package;
/* Protect cons cell */
entry->mark = 1;
/* Protect the package cell */
package->mark = 1;
/* Protect package name */
package->data.package.name->mark = 1;
/* Protect package nicknames */
LispMark(package->data.package.nicknames);
/* Protect global symbols */
for (pentry = pack->glb.pairs, eentry = pentry + pack->glb.length;
pentry < eentry; pentry++)
LispMark((*pentry)->data.atom->property->value);
/* Traverse atom list, protecting properties, and function/structure
* definitions if lisp__data.gc.immutablebits set */
xedit 1.1.1
2008-10-13 14:53:31 -06:00
for (atom = (LispAtom *)hash_iter_first(pack->atoms);
atom;
atom = (LispAtom *)hash_iter_next(pack->atoms)) {
if (atom->property != NOPROPERTY) {
if (atom->a_property)
LispMark(atom->property->properties);
if (lisp__data.gc.immutablebits) {
if (atom->a_function || atom->a_compiled)
LispProt(atom->property->fun.function);
if (atom->a_defsetf)
LispProt(atom->property->setf);
if (atom->a_defstruct)
LispProt(atom->property->structure.definition);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
}
}
}
/* protect environment */
for (pentry = lisp__data.env.values,
eentry = pentry + lisp__data.env.length;
pentry < eentry; pentry++)
LispMark(*pentry);
/* protect multiple return values */
for (pentry = lisp__data.returns.values,
eentry = pentry + lisp__data.returns.count;
pentry < eentry; pentry++)
LispMark(*pentry);
/* protect stack of arguments to builtin functions */
for (pentry = lisp__data.stack.values,
eentry = pentry + lisp__data.stack.length;
pentry < eentry; pentry++)
LispMark(*pentry);
/* protect temporary data used by builtin functions */
for (pentry = lisp__data.protect.objects,
eentry = pentry + lisp__data.protect.length;
pentry < eentry; pentry++)
LispMark(*pentry);
for (i = 0; i < sizeof(x_cons) / sizeof(x_cons[0]); i++)
x_cons[i].mark = 0;
LispMark(COD);
#ifdef DEBUGGER
LispMark(DBG);
LispMark(BRK);
#endif
LispMark(PRO);
LispMark(lisp__data.input_list);
LispMark(lisp__data.output_list);
LispMark(car);
LispMark(cdr);
for (j = 0; j < objseg.nsegs; j++) {
for (entry = objseg.objects[j], last = entry + segsize;
entry < last; entry++) {
if (entry->prot)
continue;
else if (entry->mark)
entry->mark = 0;
else {
switch (XOBJECT_TYPE(entry)) {
case LispString_t:
free(THESTR(entry));
entry->type = LispCons_t;
break;
case LispStream_t:
switch (entry->data.stream.type) {
case LispStreamString:
free(SSTREAMP(entry)->string);
free(SSTREAMP(entry));
break;
case LispStreamFile:
if (FSTREAMP(entry))
LispFclose(FSTREAMP(entry));
break;
case LispStreamPipe:
/* XXX may need special handling if child hangs */
if (PSTREAMP(entry)) {
if (IPSTREAMP(entry))
LispFclose(IPSTREAMP(entry));
if (OPSTREAMP(entry))
LispFclose(OPSTREAMP(entry));
/* don't bother with error stream, will also
* freed in this GC call, maybe just out
* of order */
if (PIDPSTREAMP(entry) > 0) {
kill(PIDPSTREAMP(entry), SIGTERM);
waitpid(PIDPSTREAMP(entry), NULL, 0);
}
free(PSTREAMP(entry));
}
break;
default:
break;
}
entry->type = LispCons_t;
break;
case LispBignum_t:
mpi_clear(entry->data.mp.integer);
free(entry->data.mp.integer);
entry->type = LispCons_t;
break;
case LispBigratio_t:
mpr_clear(entry->data.mp.ratio);
free(entry->data.mp.ratio);
entry->type = LispCons_t;
break;
case LispLambda_t:
if (!SYMBOLP(entry->data.lambda.name))
LispFreeArgList((LispArgList*)
entry->data.lambda.name->data.opaque.data);
entry->type = LispCons_t;
break;
case LispRegex_t:
refree(entry->data.regex.regex);
free(entry->data.regex.regex);
entry->type = LispCons_t;
break;
case LispBytecode_t:
free(entry->data.bytecode.bytecode->code);
free(entry->data.bytecode.bytecode);
entry->type = LispCons_t;
break;
case LispHashTable_t:
LispFreeHashTable(entry->data.hash.table);
entry->type = LispCons_t;
break;
case LispCons_t:
break;
default:
entry->type = LispCons_t;
break;
}
CDR(entry) = freeobj;
freeobj = entry;
++nfree;
}
}
}
objseg.nfree = nfree;
objseg.freeobj = freeobj;
lisp__data.gc.immutablebits = 0;
#ifdef DEBUG
gettimeofday(&end, NULL);
sec = end.tv_sec - start.tv_sec;
msec = end.tv_usec - start.tv_usec;
if (msec < 0) {
--sec;
msec += 1000000;
}
LispMessage("gc: "
"%ld sec, %ld msec, "
"%d recovered, %d free, %d protected, %d total",
sec, msec,
objseg.nfree - count, objseg.nfree,
objseg.nobjs - objseg.nfree, objseg.nobjs);
#else
if (lisp__data.gc.timebits) {
gettimeofday(&end, NULL);
if ((msec = end.tv_usec - start.tv_usec) < 0)
msec += 1000000;
lisp__data.gc.gctime += msec;
}
#endif
ENABLE_INTERRUPTS();
}
static INLINE void
LispCheckMemLevel(void)
{
int i;
/* Check for a free slot before the end. */
for (i = lisp__data.mem.index; i < lisp__data.mem.level; i++)
if (lisp__data.mem.mem[i] == NULL) {
lisp__data.mem.index = i;
return;
}
/* Check for a free slot in the beginning */
for (i = 0; i < lisp__data.mem.index; i++)
if (lisp__data.mem.mem[i] == NULL) {
lisp__data.mem.index = i;
return;
}
lisp__data.mem.index = lisp__data.mem.level;
++lisp__data.mem.level;
if (lisp__data.mem.index < lisp__data.mem.space)
/* There is free space to store pointer. */
return;
else {
void **ptr = (void**)realloc(lisp__data.mem.mem,
(lisp__data.mem.space + 16) *
sizeof(void*));
if (ptr == NULL)
LispDestroy("out of memory");
lisp__data.mem.mem = ptr;
lisp__data.mem.space += 16;
}
}
void
LispMused(void *pointer)
{
int i;
DISABLE_INTERRUPTS();
for (i = lisp__data.mem.index; i >= 0; i--)
if (lisp__data.mem.mem[i] == pointer) {
lisp__data.mem.mem[i] = NULL;
lisp__data.mem.index = i;
goto mused_done;
}
for (i = lisp__data.mem.level - 1; i > lisp__data.mem.index; i--)
if (lisp__data.mem.mem[i] == pointer) {
lisp__data.mem.mem[i] = NULL;
lisp__data.mem.index = i;
break;
}
mused_done:
ENABLE_INTERRUPTS();
}
void *
LispMalloc(size_t size)
{
void *pointer;
DISABLE_INTERRUPTS();
LispCheckMemLevel();
if ((pointer = malloc(size)) == NULL)
LispDestroy("out of memory, couldn't allocate %lu bytes",
(unsigned long)size);
lisp__data.mem.mem[lisp__data.mem.index] = pointer;
ENABLE_INTERRUPTS();
return (pointer);
}
void *
LispCalloc(size_t nmemb, size_t size)
{
void *pointer;
DISABLE_INTERRUPTS();
LispCheckMemLevel();
if ((pointer = calloc(nmemb, size)) == NULL)
LispDestroy("out of memory, couldn't allocate %lu bytes",
(unsigned long)size);
lisp__data.mem.mem[lisp__data.mem.index] = pointer;
ENABLE_INTERRUPTS();
return (pointer);
}
void *
LispRealloc(void *pointer, size_t size)
{
void *ptr;
int i;
DISABLE_INTERRUPTS();
if (pointer != NULL) {
for (i = lisp__data.mem.index; i >= 0; i--)
if (lisp__data.mem.mem[i] == pointer)
goto index_found;
for (i = lisp__data.mem.index + 1; i < lisp__data.mem.level; i++)
if (lisp__data.mem.mem[i] == pointer)
goto index_found;
}
LispCheckMemLevel();
i = lisp__data.mem.index;
index_found:
if ((ptr = realloc(pointer, size)) == NULL)
LispDestroy("out of memory, couldn't realloc");
lisp__data.mem.mem[i] = ptr;
ENABLE_INTERRUPTS();
return (ptr);
}
char *
LispStrdup(char *str)
{
char *ptr = LispMalloc(strlen(str) + 1);
strcpy(ptr, str);
return (ptr);
}
void
LispFree(void *pointer)
{
int i;
DISABLE_INTERRUPTS();
for (i = lisp__data.mem.index; i >= 0; i--)
if (lisp__data.mem.mem[i] == pointer) {
lisp__data.mem.mem[i] = NULL;
lisp__data.mem.index = i;
goto free_done;
}
for (i = lisp__data.mem.level - 1; i > lisp__data.mem.index; i--)
if (lisp__data.mem.mem[i] == pointer) {
lisp__data.mem.mem[i] = NULL;
lisp__data.mem.index = i;
break;
}
free_done:
free(pointer);
ENABLE_INTERRUPTS();
}
LispObj *
LispSetVariable(LispObj *var, LispObj *val, char *fname, int eval)
{
if (!SYMBOLP(var))
LispDestroy("%s: %s is not a symbol", fname, STROBJ(var));
if (eval)
val = EVAL(val);
return (LispSetVar(var, val));
}
int
LispRegisterOpaqueType(char *desc)
{
xedit 1.1.1
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int length;
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
LispOpaque *opaque;
xedit 1.1.1
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length = strlen(desc);
opaque = (LispOpaque *)hash_check(lisp__data.opqs, desc, length);
if (opaque == NULL) {
opaque = (LispOpaque*)LispMalloc(sizeof(LispOpaque));
opaque->desc = (hash_key*)LispCalloc(1, sizeof(hash_key));
opaque->desc->value = LispStrdup(desc);
opaque->desc->length = length;
hash_put(lisp__data.opqs, (hash_entry *)opaque);
LispMused(opaque->desc->value);
LispMused(opaque->desc);
LispMused(opaque);
opaque->type = ++lisp__data.opaque;
}
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
xedit 1.1.1
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return (opaque->type);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
char *
LispIntToOpaqueType(int type)
{
LispOpaque *opaque;
if (type) {
xedit 1.1.1
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for (opaque = (LispOpaque *)hash_iter_first(lisp__data.opqs);
opaque;
opaque = (LispOpaque *)hash_iter_next(lisp__data.opqs)) {
if (opaque->type == type)
return (opaque->desc->value);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
LispDestroy("Opaque type %d not registered", type);
}
xedit 1.1.1
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return (Snil->value);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
xedit 1.1.1
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hash_key *
LispGetAtomKey(char *string, int perm)
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
{
xedit 1.1.1
2008-10-13 14:53:31 -06:00
int length;
hash_entry *entry;
length = strlen(string);
entry = hash_check(lisp__data.strings, string, length);
if (entry == NULL) {
entry = LispCalloc(1, sizeof(hash_entry));
entry->key = LispCalloc(1, sizeof(hash_key));
if (perm)
entry->key->value = string;
else
entry->key->value = LispStrdup(string);
entry->key->length = length;
hash_put(lisp__data.strings, entry);
if (!perm)
LispMused(entry->key->value);
LispMused(entry->key);
LispMused(entry);
}
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
xedit 1.1.1
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return (entry->key);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
LispAtom *
LispDoGetAtom(char *str, int perm)
{
xedit 1.1.1
2008-10-13 14:53:31 -06:00
int length;
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
LispAtom *atom;
xedit 1.1.1
2008-10-13 14:53:31 -06:00
length = strlen(str);
atom = (LispAtom *)hash_check(lisp__data.pack->atoms, str, length);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
xedit 1.1.1
2008-10-13 14:53:31 -06:00
if (atom == NULL) {
atom = (LispAtom*)LispCalloc(1, sizeof(LispAtom));
atom->key = LispGetAtomKey(str, perm);
hash_put(lisp__data.pack->atoms, (hash_entry *)atom);
atom->property = NOPROPERTY;
LispMused(atom);
}
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
return (atom);
}
static void
LispAllocAtomProperty(LispAtom *atom)
{
LispProperty *property;
if (atom->property != NOPROPERTY)
LispDestroy("internal error at ALLOC-ATOM-PROPERTY");
property = LispCalloc(1, sizeof(LispProperty));
LispMused(property);
atom->property = property;
property->package = lisp__data.pack;
if (atom->package == NULL)
atom->package = PACKAGE;
LispIncrementAtomReference(atom);
}
static void
LispIncrementAtomReference(LispAtom *atom)
{
if (atom->property != NOPROPERTY)
/* if atom->property is NOPROPERTY, this is an unbound symbol */
++atom->property->refcount;
}
/* Assumes atom property is not NOPROPERTY */
static void
LispDecrementAtomReference(LispAtom *atom)
{
if (atom->property == NOPROPERTY)
/* if atom->property is NOPROPERTY, this is an unbound symbol */
return;
if (atom->property->refcount <= 0)
LispDestroy("internal error at DECREMENT-ATOM-REFERENCE");
--atom->property->refcount;
if (atom->property->refcount == 0) {
LispRemAtomAllProperties(atom);
free(atom->property);
atom->property = NOPROPERTY;
}
}
static void
LispRemAtomAllProperties(LispAtom *atom)
{
if (atom->property != NOPROPERTY) {
if (atom->a_object)
LispRemAtomObjectProperty(atom);
if (atom->a_function) {
lisp__data.gc.immutablebits = 1;
LispRemAtomFunctionProperty(atom);
}
else if (atom->a_compiled) {
lisp__data.gc.immutablebits = 1;
LispRemAtomCompiledProperty(atom);
}
else if (atom->a_builtin) {
lisp__data.gc.immutablebits = 1;
LispRemAtomBuiltinProperty(atom);
}
if (atom->a_defsetf) {
lisp__data.gc.immutablebits = 1;
LispRemAtomSetfProperty(atom);
}
if (atom->a_defstruct) {
lisp__data.gc.immutablebits = 1;
LispRemAtomStructProperty(atom);
}
}
}
void
LispSetAtomObjectProperty(LispAtom *atom, LispObj *object)
{
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
else if (atom->watch) {
if (atom->object == lisp__data.package) {
if (!PACKAGEP(object))
LispDestroy("Symbol %s must be a package, not %s",
xedit 1.1.1
2008-10-13 14:53:31 -06:00
ATOMID(lisp__data.package)->value, STROBJ(object));
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
lisp__data.pack = object->data.package.package;
}
}
atom->a_object = 1;
SETVALUE(atom, object);
}
static void
LispRemAtomObjectProperty(LispAtom *atom)
{
if (atom->a_object) {
atom->a_object = 0;
atom->property->value = NULL;
}
}
void
LispSetAtomCompiledProperty(LispAtom *atom, LispObj *bytecode)
{
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
lisp__data.gc.immutablebits = 1;
if (atom->a_builtin) {
atom->a_builtin = 0;
LispFreeArgList(atom->property->alist);
}
else
atom->a_function = 0;
atom->a_compiled = 1;
atom->property->fun.function = bytecode;
}
void
LispRemAtomCompiledProperty(LispAtom *atom)
{
if (atom->a_compiled) {
lisp__data.gc.immutablebits = 1;
atom->property->fun.function = NULL;
atom->a_compiled = 0;
LispFreeArgList(atom->property->alist);
atom->property->alist = NULL;
}
}
void
LispSetAtomFunctionProperty(LispAtom *atom, LispObj *function,
LispArgList *alist)
{
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
lisp__data.gc.immutablebits = 1;
if (atom->a_function == 0 && atom->a_builtin == 0 && atom->a_compiled == 0)
atom->a_function = 1;
else {
if (atom->a_builtin) {
atom->a_builtin = 0;
LispFreeArgList(atom->property->alist);
}
else
atom->a_compiled = 0;
atom->a_function = 1;
}
atom->property->fun.function = function;
atom->property->alist = alist;
}
void
LispRemAtomFunctionProperty(LispAtom *atom)
{
if (atom->a_function) {
lisp__data.gc.immutablebits = 1;
atom->property->fun.function = NULL;
atom->a_function = 0;
LispFreeArgList(atom->property->alist);
atom->property->alist = NULL;
}
}
void
LispSetAtomBuiltinProperty(LispAtom *atom, LispBuiltin *builtin,
LispArgList *alist)
{
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
lisp__data.gc.immutablebits = 1;
if (atom->a_builtin == 0 && atom->a_function == 0)
atom->a_builtin = 1;
else {
if (atom->a_function) {
atom->a_function = 0;
LispFreeArgList(atom->property->alist);
}
}
atom->property->fun.builtin = builtin;
atom->property->alist = alist;
}
void
LispRemAtomBuiltinProperty(LispAtom *atom)
{
if (atom->a_builtin) {
lisp__data.gc.immutablebits = 1;
atom->property->fun.function = NULL;
atom->a_builtin = 0;
LispFreeArgList(atom->property->alist);
atom->property->alist = NULL;
}
}
void
LispSetAtomSetfProperty(LispAtom *atom, LispObj *setf, LispArgList *alist)
{
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
lisp__data.gc.immutablebits = 1;
if (atom->a_defsetf)
LispFreeArgList(atom->property->salist);
atom->a_defsetf = 1;
atom->property->setf = setf;
atom->property->salist = alist;
}
void
LispRemAtomSetfProperty(LispAtom *atom)
{
if (atom->a_defsetf) {
lisp__data.gc.immutablebits = 1;
atom->property->setf = NULL;
atom->a_defsetf = 0;
LispFreeArgList(atom->property->salist);
atom->property->salist = NULL;
}
}
void
LispSetAtomStructProperty(LispAtom *atom, LispObj *def, int fun)
{
if (fun > 0xff)
/* Not suported by the bytecode compiler... */
LispDestroy("SET-ATOM-STRUCT-PROPERTY: "
"more than 256 fields not supported");
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
lisp__data.gc.immutablebits = 1;
atom->a_defstruct = 1;
atom->property->structure.definition = def;
atom->property->structure.function = fun;
}
void
LispRemAtomStructProperty(LispAtom *atom)
{
if (atom->a_defstruct) {
lisp__data.gc.immutablebits = 1;
atom->property->structure.definition = NULL;
atom->a_defstruct = 0;
}
}
LispAtom *
LispGetAtom(char *str)
{
return (LispDoGetAtom(str, 0));
}
LispAtom *
LispGetPermAtom(char *str)
{
return (LispDoGetAtom(str, 1));
}
#define GET_PROPERTY 0
#define ADD_PROPERTY 1
#define REM_PROPERTY 2
static LispObj *
LispAtomPropertyFunction(LispAtom *atom, LispObj *key, int function)
{
LispObj *list = NIL, *result = NIL;
if (function == ADD_PROPERTY) {
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
if (atom->property->properties == NULL) {
atom->a_property = 1;
atom->property->properties = NIL;
}
}
if (atom->a_property) {
LispObj *base;
for (base = list = atom->property->properties;
CONSP(list);
list = CDR(list)) {
if (key == CAR(list)) {
result = CDR(list);
break;
}
base = list;
list = CDR(list);
if (!CONSP(list))
LispDestroy("%s: %s has an odd property list length",
STROBJ(atom->object),
function == REM_PROPERTY ? "REMPROP" : "GET");
}
if (CONSP(list) && function == REM_PROPERTY) {
if (!CONSP(CDR(list)))
LispDestroy("REMPROP: %s has an odd property list length",
STROBJ(atom->object));
if (base == list)
atom->property->properties = CDDR(list);
else
RPLACD(CDR(base), CDDR(list));
}
}
if (!CONSP(list)) {
if (function == ADD_PROPERTY) {
atom->property->properties =
CONS(key, CONS(NIL, atom->property->properties));
result = CDR(atom->property->properties);
}
}
else if (function == REM_PROPERTY)
result = T;
return (result);
}
LispObj *
LispGetAtomProperty(LispAtom *atom, LispObj *key)
{
return (LispAtomPropertyFunction(atom, key, GET_PROPERTY));
}
LispObj *
LispPutAtomProperty(LispAtom *atom, LispObj *key, LispObj *value)
{
LispObj *result = LispAtomPropertyFunction(atom, key, ADD_PROPERTY);
RPLACA(result, value);
return (result);
}
LispObj *
LispRemAtomProperty(LispAtom *atom, LispObj *key)
{
return (LispAtomPropertyFunction(atom, key, REM_PROPERTY));
}
LispObj *
LispReplaceAtomPropertyList(LispAtom *atom, LispObj *list)
{
if (atom->property == NOPROPERTY)
LispAllocAtomProperty(atom);
if (atom->property->properties == NULL)
atom->a_property = 1;
atom->property->properties = list;
return (list);
}
#undef GET_PROPERTY
#undef ADD_PROPERTY
#undef REM_PROPERTY
/* Used to make sure that when defining a function like:
* (defun my-function (... &key key1 key2 key3 ...)
* key1, key2, and key3 will be in the keyword package
*/
static LispObj *
LispCheckKeyword(LispObj *keyword)
{
if (KEYWORDP(keyword))
return (keyword);
xedit 1.1.1
2008-10-13 14:53:31 -06:00
return (KEYWORD(ATOMID(keyword)->value));
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
void
LispUseArgList(LispArgList *alist)
{
if (alist->normals.num_symbols)
LispMused(alist->normals.symbols);
if (alist->optionals.num_symbols) {
LispMused(alist->optionals.symbols);
LispMused(alist->optionals.defaults);
LispMused(alist->optionals.sforms);
}
if (alist->keys.num_symbols) {
LispMused(alist->keys.symbols);
LispMused(alist->keys.defaults);
LispMused(alist->keys.sforms);
LispMused(alist->keys.keys);
}
if (alist->auxs.num_symbols) {
LispMused(alist->auxs.symbols);
LispMused(alist->auxs.initials);
}
LispMused(alist);
}
void
LispFreeArgList(LispArgList *alist)
{
if (alist->normals.num_symbols)
LispFree(alist->normals.symbols);
if (alist->optionals.num_symbols) {
LispFree(alist->optionals.symbols);
LispFree(alist->optionals.defaults);
LispFree(alist->optionals.sforms);
}
if (alist->keys.num_symbols) {
LispFree(alist->keys.symbols);
LispFree(alist->keys.defaults);
LispFree(alist->keys.sforms);
LispFree(alist->keys.keys);
}
if (alist->auxs.num_symbols) {
LispFree(alist->auxs.symbols);
LispFree(alist->auxs.initials);
}
LispFree(alist);
}
static LispObj *
LispCheckNeedProtect(LispObj *object)
{
if (object) {
switch (OBJECT_TYPE(object)) {
case LispNil_t:
case LispAtom_t:
case LispFunction_t:
case LispFixnum_t:
case LispSChar_t:
return (NULL);
default:
return (object);
}
}
return (NULL);
}
LispObj *
LispListProtectedArguments(LispArgList *alist)
{
int i;
GC_ENTER();
LispObj *arguments, *cons, *obj, *prev;
arguments = cons = prev = NIL;
for (i = 0; i < alist->optionals.num_symbols; i++) {
if ((obj = LispCheckNeedProtect(alist->optionals.defaults[i])) != NULL) {
if (arguments == NIL) {
arguments = cons = prev = CONS(obj, NIL);
GC_PROTECT(arguments);
}
else {
RPLACD(cons, CONS(obj, NIL));
prev = cons;
cons = CDR(cons);
}
}
}
for (i = 0; i < alist->keys.num_symbols; i++) {
if ((obj = LispCheckNeedProtect(alist->keys.defaults[i])) != NULL) {
if (arguments == NIL) {
arguments = cons = prev = CONS(obj, NIL);
GC_PROTECT(arguments);
}
else {
RPLACD(cons, CONS(obj, NIL));
prev = cons;
cons = CDR(cons);
}
}
}
for (i = 0; i < alist->auxs.num_symbols; i++) {
if ((obj = LispCheckNeedProtect(alist->auxs.initials[i])) != NULL) {
if (arguments == NIL) {
arguments = cons = prev = CONS(obj, NIL);
GC_PROTECT(arguments);
}
else {
RPLACD(cons, CONS(obj, NIL));
prev = cons;
cons = CDR(cons);
}
}
}
GC_LEAVE();
/* Don't add a NIL cell at the end, to save some space */
if (arguments != NIL) {
if (arguments == cons)
arguments = CAR(cons);
else
CDR(prev) = CAR(cons);
}
return (arguments);
}
LispArgList *
LispCheckArguments(LispFunType type, LispObj *list, char *name, int builtin)
{
static char *types[4] = {"LAMBDA-LIST", "FUNCTION", "MACRO", "SETF-METHOD"};
static char *fnames[4] = {"LAMBDA", "DEFUN", "DEFMACRO", "DEFSETF"};
#define IKEY 0
#define IOPTIONAL 1
#define IREST 2
#define IAUX 3
static char *keys[4] = {"&KEY", "&OPTIONAL", "&REST", "&AUX"};
int rest, optional, key, aux, count;
LispArgList *alist;
LispObj *spec, *sform, *defval, *default_value;
char description[8], *desc;
/* If LispRealloc fails, the previous memory will be released
* in LispTopLevel, unless LispMused was called on the pointer */
#define REALLOC_OBJECTS(pointer, count) \
pointer = LispRealloc(pointer, (count) * sizeof(LispObj*))
alist = LispCalloc(1, sizeof(LispArgList));
if (!CONSP(list)) {
if (list != NIL)
LispDestroy("%s %s: %s cannot be a %s argument list",
fnames[type], name, STROBJ(list), types[type]);
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alist->description = GETATOMID("")->value;
Importing from X.Org 7.2RC2
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return (alist);
}
default_value = builtin ? UNSPEC : NIL;
description[0] = '\0';
desc = description;
rest = optional = key = aux = 0;
for (; CONSP(list); list = CDR(list)) {
spec = CAR(list);
if (CONSP(spec)) {
if (builtin)
LispDestroy("builtin function argument cannot have default value");
if (aux) {
if (!SYMBOLP(CAR(spec)) ||
(CDR(spec) != NIL && CDDR(spec) != NIL))
LispDestroy("%s %s: bad &AUX argument %s",
fnames[type], name, STROBJ(spec));
defval = CDR(spec) != NIL ? CADR(spec) : NIL;
count = alist->auxs.num_symbols;
REALLOC_OBJECTS(alist->auxs.symbols, count + 1);
REALLOC_OBJECTS(alist->auxs.initials, count + 1);
alist->auxs.symbols[count] = CAR(spec);
alist->auxs.initials[count] = defval;
++alist->auxs.num_symbols;
if (count == 0)
*desc++ = 'a';
++alist->num_arguments;
}
else if (rest)
LispDestroy("%s %s: syntax error parsing %s",
fnames[type], name, keys[IREST]);
else if (key) {
LispObj *akey = CAR(spec);
defval = default_value;
sform = NULL;
if (CONSP(akey)) {
/* check for special case, as in:
* (defun a (&key ((key name) 'default-value)) name)
* (a 'key 'test) => TEST
* (a) => DEFAULT-VALUE
*/
if (!SYMBOLP(CAR(akey)) || !CONSP(CDR(akey)) ||
!SYMBOLP(CADR(akey)) || CDDR(akey) != NIL ||
(CDR(spec) != NIL && CDDR(spec) != NIL))
LispDestroy("%s %s: bad special &KEY %s",
fnames[type], name, STROBJ(spec));
if (CDR(spec) != NIL)
defval = CADR(spec);
spec = CADR(akey);
akey = CAR(akey);
}
else {
akey = NULL;
if (!SYMBOLP(CAR(spec)))
LispDestroy("%s %s: %s cannot be a %s argument name",
fnames[type], name,
STROBJ(CAR(spec)), types[type]);
/* check if default value provided, and optionally a `svar' */
else if (CDR(spec) != NIL && (!CONSP(CDR(spec)) ||
(CDDR(spec) != NIL &&
(!SYMBOLP(CAR(CDDR(spec))) ||
CDR(CDDR(spec)) != NIL))))
LispDestroy("%s %s: bad argument specification %s",
fnames[type], name, STROBJ(spec));
if (CONSP(CDR(spec))) {
defval = CADR(spec);
if (CONSP(CDDR(spec)))
sform = CAR(CDDR(spec));
}
/* Add to keyword package, and set the keyword in the
* argument list, so that a function argument keyword
* will reference the same object, and make comparison
* simpler. */
spec = LispCheckKeyword(CAR(spec));
}
count = alist->keys.num_symbols;
REALLOC_OBJECTS(alist->keys.keys, count + 1);
REALLOC_OBJECTS(alist->keys.defaults, count + 1);
REALLOC_OBJECTS(alist->keys.sforms, count + 1);
REALLOC_OBJECTS(alist->keys.symbols, count + 1);
alist->keys.symbols[count] = spec;
alist->keys.defaults[count] = defval;
alist->keys.sforms[count] = sform;
alist->keys.keys[count] = akey;
++alist->keys.num_symbols;
if (count == 0)
*desc++ = 'k';
alist->num_arguments += 1 + (sform != NULL);
}
else if (optional) {
defval = default_value;
sform = NULL;
if (!SYMBOLP(CAR(spec)))
LispDestroy("%s %s: %s cannot be a %s argument name",
fnames[type], name,
STROBJ(CAR(spec)), types[type]);
/* check if default value provided, and optionally a `svar' */
else if (CDR(spec) != NIL && (!CONSP(CDR(spec)) ||
(CDDR(spec) != NIL &&
(!SYMBOLP(CAR(CDDR(spec))) ||
CDR(CDDR(spec)) != NIL))))
LispDestroy("%s %s: bad argument specification %s",
fnames[type], name, STROBJ(spec));
if (CONSP(CDR(spec))) {
defval = CADR(spec);
if (CONSP(CDDR(spec)))
sform = CAR(CDDR(spec));
}
spec = CAR(spec);
count = alist->optionals.num_symbols;
REALLOC_OBJECTS(alist->optionals.symbols, count + 1);
REALLOC_OBJECTS(alist->optionals.defaults, count + 1);
REALLOC_OBJECTS(alist->optionals.sforms, count + 1);
alist->optionals.symbols[count] = spec;
alist->optionals.defaults[count] = defval;
alist->optionals.sforms[count] = sform;
++alist->optionals.num_symbols;
if (count == 0)
*desc++ = 'o';
alist->num_arguments += 1 + (sform != NULL);
}
/* Normal arguments cannot have default value */
else
LispDestroy("%s %s: syntax error parsing %s",
fnames[type], name, STROBJ(spec));
}
/* spec must be an atom, excluding keywords */
else if (!SYMBOLP(spec) || KEYWORDP(spec))
LispDestroy("%s %s: %s cannot be a %s argument",
fnames[type], name, STROBJ(spec), types[type]);
else {
Atom_id atom = ATOMID(spec);
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if (atom->value[0] == '&') {
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
if (atom == Srest) {
if (rest || aux || CDR(list) == NIL || !SYMBOLP(CADR(list))
/* only &aux allowed after &rest */
|| (CDDR(list) != NIL && !SYMBOLP(CAR(CDDR(list))) &&
ATOMID(CAR(CDDR(list))) != Saux))
LispDestroy("%s %s: syntax error parsing %s",
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fnames[type], name, ATOMID(spec)->value);
Importing from X.Org 7.2RC2
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if (key)
LispDestroy("%s %s: %s not allowed after %s",
fnames[type], name, keys[IREST], keys[IKEY]);
rest = 1;
continue;
}
else if (atom == Skey) {
if (rest || aux)
LispDestroy("%s %s: %s not allowed after %s",
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fnames[type], name, ATOMID(spec)->value,
Importing from X.Org 7.2RC2
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rest ? keys[IREST] : keys[IAUX]);
key = 1;
continue;
}
else if (atom == Soptional) {
if (rest || optional || aux || key)
LispDestroy("%s %s: %s not allowed after %s",
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fnames[type], name, ATOMID(spec)->value,
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
rest ? keys[IREST] :
optional ?
keys[IOPTIONAL] :
aux ? keys[IAUX] : keys[IKEY]);
optional = 1;
continue;
}
else if (atom == Saux) {
/* &AUX must be the last keyword parameter */
if (aux)
LispDestroy("%s %s: syntax error parsing %s",
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fnames[type], name, ATOMID(spec)->value);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
else if (builtin)
LispDestroy("builtin function cannot have &AUX arguments");
aux = 1;
continue;
}
/* Untill more lambda-list keywords supported, don't allow
* argument names starting with the '&' character */
else
LispDestroy("%s %s: %s not allowed/implemented",
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fnames[type], name, ATOMID(spec)->value);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
}
/* Add argument to alist */
if (aux) {
count = alist->auxs.num_symbols;
REALLOC_OBJECTS(alist->auxs.symbols, count + 1);
REALLOC_OBJECTS(alist->auxs.initials, count + 1);
alist->auxs.symbols[count] = spec;
alist->auxs.initials[count] = default_value;
++alist->auxs.num_symbols;
if (count == 0)
*desc++ = 'a';
++alist->num_arguments;
}
else if (rest) {
alist->rest = spec;
*desc++ = 'r';
++alist->num_arguments;
}
else if (key) {
/* Add to keyword package, and set the keyword in the
* argument list, so that a function argument keyword
* will reference the same object, and make comparison
* simpler. */
spec = LispCheckKeyword(spec);
count = alist->keys.num_symbols;
REALLOC_OBJECTS(alist->keys.keys, count + 1);
REALLOC_OBJECTS(alist->keys.defaults, count + 1);
REALLOC_OBJECTS(alist->keys.sforms, count + 1);
REALLOC_OBJECTS(alist->keys.symbols, count + 1);
alist->keys.symbols[count] = spec;
alist->keys.defaults[count] = default_value;
alist->keys.sforms[count] = NULL;
alist->keys.keys[count] = NULL;
++alist->keys.num_symbols;
if (count == 0)
*desc++ = 'k';
++alist->num_arguments;
}
else if (optional) {
count = alist->optionals.num_symbols;
REALLOC_OBJECTS(alist->optionals.symbols, count + 1);
REALLOC_OBJECTS(alist->optionals.defaults, count + 1);
REALLOC_OBJECTS(alist->optionals.sforms, count + 1);
alist->optionals.symbols[count] = spec;
alist->optionals.defaults[count] = default_value;
alist->optionals.sforms[count] = NULL;
++alist->optionals.num_symbols;
if (count == 0)
*desc++ = 'o';
++alist->num_arguments;
}
else {
count = alist->normals.num_symbols;
REALLOC_OBJECTS(alist->normals.symbols, count + 1);
alist->normals.symbols[count] = spec;
++alist->normals.num_symbols;
if (count == 0)
*desc++ = '.';
++alist->num_arguments;
}
}
}
/* Check for dotted argument list */
if (list != NIL)
LispDestroy("%s %s: %s cannot end %s arguments",
fnames[type], name, STROBJ(list), types[type]);
*desc = '\0';
xedit 1.1.1
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alist->description = LispGetAtomKey(description, 0)->value;
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
return (alist);
}
void
LispAddBuiltinFunction(LispBuiltin *builtin)
{
static LispObj stream;
static LispString string;
static int first = 1;
LispObj *name, *obj, *list, *cons, *code;
LispAtom *atom;
LispArgList *alist;
int length = lisp__data.protect.length;
if (first) {
stream.type = LispStream_t;
stream.data.stream.source.string = &string;
stream.data.stream.pathname = NIL;
stream.data.stream.type = LispStreamString;
stream.data.stream.readable = 1;
stream.data.stream.writable = 0;
string.output = 0;
first = 0;
}
string.string = builtin->declaration;
string.length = strlen(builtin->declaration);
string.input = 0;
code = COD;
LispPushInput(&stream);
name = LispRead();
list = cons = CONS(name, NIL);
if (length + 1 >= lisp__data.protect.space)
LispMoreProtects();
lisp__data.protect.objects[lisp__data.protect.length++] = list;
while ((obj = LispRead()) != NULL) {
RPLACD(cons, CONS(obj, NIL));
cons = CDR(cons);
}
LispPopInput(&stream);
atom = name->data.atom;
xedit 1.1.1
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alist = LispCheckArguments(builtin->type, CDR(list), atom->key->value, 1);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
builtin->symbol = CAR(list);
LispSetAtomBuiltinProperty(atom, builtin, alist);
LispUseArgList(alist);
/* Make function a extern symbol, unless told to not do so */
if (!builtin->internal)
LispExportSymbol(name);
lisp__data.protect.length = length;
COD = code; /* LispRead protect data in COD */
}
void
LispAllocSeg(LispObjSeg *seg, int cellcount)
{
unsigned int i;
LispObj **list, *obj;
DISABLE_INTERRUPTS();
while (seg->nfree < cellcount) {
if ((obj = (LispObj*)calloc(1, sizeof(LispObj) * segsize)) == NULL) {
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
if ((list = (LispObj**)realloc(seg->objects,
sizeof(LispObj*) * (seg->nsegs + 1))) == NULL) {
free(obj);
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
seg->objects = list;
seg->objects[seg->nsegs] = obj;
seg->nfree += segsize;
seg->nobjs += segsize;
for (i = 1; i < segsize; i++, obj++) {
/* Objects of type cons are the most used, save some time
* by not setting it's type in LispNewCons. */
obj->type = LispCons_t;
CDR(obj) = obj + 1;
}
obj->type = LispCons_t;
CDR(obj) = seg->freeobj;
seg->freeobj = seg->objects[seg->nsegs];
++seg->nsegs;
}
#ifdef DEBUG
LispMessage("gc: %d cell(s) allocated at %d segment(s)",
seg->nobjs, seg->nsegs);
#endif
ENABLE_INTERRUPTS();
}
static INLINE void
LispMark(register LispObj *object)
{
mark_again:
switch (OBJECT_TYPE(object)) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
return;
case LispLambda_t:
if (OPAQUEP(object->data.lambda.name))
object->data.lambda.name->mark = 1;
object->mark = 1;
LispMark(object->data.lambda.data);
object = object->data.lambda.code;
goto mark_cons;
case LispQuote_t:
case LispBackquote_t:
case LispFunctionQuote_t:
object->mark = 1;
object = object->data.quote;
goto mark_again;
case LispPathname_t:
object->mark = 1;
object = object->data.pathname;
goto mark_again;
case LispComma_t:
object->mark = 1;
object = object->data.comma.eval;
goto mark_again;
case LispComplex_t:
if (POINTERP(object->data.complex.real))
object->data.complex.real->mark = 1;
if (POINTERP(object->data.complex.imag))
object->data.complex.imag->mark = 1;
break;
case LispCons_t:
mark_cons:
for (; CONSP(object) && !object->mark; object = CDR(object)) {
object->mark = 1;
switch (OBJECT_TYPE(CAR(object))) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispPackage_t: /* protected in gc */
break;
case LispInteger_t:
case LispDFloat_t:
case LispString_t:
case LispRatio_t:
case LispOpaque_t:
case LispBignum_t:
case LispBigratio_t:
CAR(object)->mark = 1;
break;
default:
LispMark(CAR(object));
break;
}
}
if (POINTERP(object) && !object->mark)
goto mark_again;
return;
case LispArray_t:
LispMark(object->data.array.list);
object->mark = 1;
object = object->data.array.dim;
goto mark_cons;
case LispStruct_t:
object->mark = 1;
object = object->data.struc.fields;
goto mark_cons;
case LispStream_t:
mark_stream:
LispMark(object->data.stream.pathname);
if (object->data.stream.type == LispStreamPipe) {
object->mark = 1;
object = object->data.stream.source.program->errorp;
goto mark_stream;
}
break;
case LispRegex_t:
object->data.regex.pattern->mark = 1;
break;
case LispBytecode_t:
object->mark = 1;
object = object->data.bytecode.code;
goto mark_again;
case LispHashTable_t: {
unsigned long i;
LispHashEntry *entry = object->data.hash.table->entries,
*last = entry + object->data.hash.table->num_entries;
if (object->mark)
return;
object->mark = 1;
for (; entry < last; entry++) {
for (i = 0; i < entry->count; i++) {
switch (OBJECT_TYPE(entry->keys[i])) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
case LispPackage_t:
break;
case LispInteger_t:
case LispDFloat_t:
case LispString_t:
case LispRatio_t:
case LispOpaque_t:
case LispBignum_t:
case LispBigratio_t:
entry->keys[i]->mark = 1;
break;
default:
LispMark(entry->keys[i]);
break;
}
switch (OBJECT_TYPE(entry->values[i])) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
case LispPackage_t:
break;
case LispInteger_t:
case LispDFloat_t:
case LispString_t:
case LispRatio_t:
case LispOpaque_t:
case LispBignum_t:
case LispBigratio_t:
entry->values[i]->mark = 1;
break;
default:
LispMark(entry->values[i]);
break;
}
}
}
} return;
default:
break;
}
object->mark = 1;
}
static INLINE void
LispProt(register LispObj *object)
{
prot_again:
switch (OBJECT_TYPE(object)) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
return;
case LispLambda_t:
if (OPAQUEP(object->data.lambda.name))
object->data.lambda.name->prot = 1;
object->prot = 1;
LispProt(object->data.lambda.data);
object = object->data.lambda.code;
goto prot_cons;
case LispQuote_t:
case LispBackquote_t:
case LispFunctionQuote_t:
object->prot = 1;
object = object->data.quote;
goto prot_again;
case LispPathname_t:
object->prot = 1;
object = object->data.pathname;
goto prot_again;
case LispComma_t:
object->prot = 1;
object = object->data.comma.eval;
goto prot_again;
case LispComplex_t:
if (POINTERP(object->data.complex.real))
object->data.complex.real->prot = 1;
if (POINTERP(object->data.complex.imag))
object->data.complex.imag->prot = 1;
break;
case LispCons_t:
prot_cons:
for (; CONSP(object) && !object->prot; object = CDR(object)) {
object->prot = 1;
switch (OBJECT_TYPE(CAR(object))) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
case LispPackage_t: /* protected in gc */
break;
case LispInteger_t:
case LispDFloat_t:
case LispString_t:
case LispRatio_t:
case LispOpaque_t:
case LispBignum_t:
case LispBigratio_t:
CAR(object)->prot = 1;
break;
default:
LispProt(CAR(object));
break;
}
}
if (POINTERP(object) && !object->prot)
goto prot_again;
return;
case LispArray_t:
LispProt(object->data.array.list);
object->prot = 1;
object = object->data.array.dim;
goto prot_cons;
case LispStruct_t:
object->prot = 1;
object = object->data.struc.fields;
goto prot_cons;
case LispStream_t:
prot_stream:
LispProt(object->data.stream.pathname);
if (object->data.stream.type == LispStreamPipe) {
object->prot = 1;
object = object->data.stream.source.program->errorp;
goto prot_stream;
}
break;
case LispRegex_t:
object->data.regex.pattern->prot = 1;
break;
case LispBytecode_t:
object->prot = 1;
object = object->data.bytecode.code;
goto prot_again;
case LispHashTable_t: {
unsigned long i;
LispHashEntry *entry = object->data.hash.table->entries,
*last = entry + object->data.hash.table->num_entries;
if (object->prot)
return;
object->prot = 1;
for (; entry < last; entry++) {
for (i = 0; i < entry->count; i++) {
switch (OBJECT_TYPE(entry->keys[i])) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
case LispPackage_t:
break;
case LispInteger_t:
case LispDFloat_t:
case LispString_t:
case LispRatio_t:
case LispOpaque_t:
case LispBignum_t:
case LispBigratio_t:
entry->keys[i]->prot = 1;
break;
default:
LispProt(entry->keys[i]);
break;
}
switch (OBJECT_TYPE(entry->values[i])) {
case LispNil_t:
case LispAtom_t:
case LispFixnum_t:
case LispSChar_t:
case LispFunction_t:
case LispPackage_t:
break;
case LispInteger_t:
case LispDFloat_t:
case LispString_t:
case LispRatio_t:
case LispOpaque_t:
case LispBignum_t:
case LispBigratio_t:
entry->values[i]->prot = 1;
break;
default:
LispProt(entry->values[i]);
break;
}
}
}
} return;
default:
break;
}
object->prot = 1;
}
void
LispProtect(LispObj *key, LispObj *list)
{
PRO = CONS(CONS(key, list), PRO);
}
void
LispUProtect(LispObj *key, LispObj *list)
{
LispObj *prev, *obj;
for (prev = obj = PRO; obj != NIL; prev = obj, obj = CDR(obj))
if (CAR(CAR(obj)) == key && CDR(CAR(obj)) == list) {
if (obj == PRO)
PRO = CDR(PRO);
else
CDR(prev) = CDR(obj);
return;
}
LispDestroy("no match for %s, at UPROTECT", STROBJ(key));
}
static LispObj *
Lisp__New(LispObj *car, LispObj *cdr)
{
int cellcount;
LispObj *obj;
Lisp__GC(car, cdr);
#if 0
lisp__data.gc.average = (objseg.nfree + lisp__data.gc.average) >> 1;
if (lisp__data.gc.average < minfree) {
if (lisp__data.gc.expandbits < 6)
++lisp__data.gc.expandbits;
}
else if (lisp__data.gc.expandbits)
--lisp__data.gc.expandbits;
/* For 32 bit computers, where sizeof(LispObj) == 16,
* minfree is set to 1024, and expandbits limited to 6,
* the maximum extra memory requested here should be 1Mb
*/
cellcount = minfree << lisp__data.gc.expandbits;
#else
/* Try to keep at least 3 times more free cells than the de number
* of used cells in the freelist, to amenize the cost of the gc time,
* in the, currently, very simple gc strategy code. */
cellcount = (objseg.nobjs - objseg.nfree) * 3;
cellcount = cellcount + (minfree - (cellcount % minfree));
#endif
if (objseg.freeobj == NIL || objseg.nfree < cellcount)
LispAllocSeg(&objseg, cellcount);
obj = objseg.freeobj;
objseg.freeobj = CDR(obj);
--objseg.nfree;
return (obj);
}
LispObj *
LispNew(LispObj *car, LispObj *cdr)
{
LispObj *obj = objseg.freeobj;
if (obj == NIL)
obj = Lisp__New(car, cdr);
else {
objseg.freeobj = CDR(obj);
--objseg.nfree;
}
return (obj);
}
LispObj *
LispNewAtom(char *str, int intern)
{
LispObj *object;
LispAtom *atom = LispDoGetAtom(str, 0);
if (atom->object) {
if (intern && atom->package == NULL)
atom->package = PACKAGE;
return (atom->object);
}
if (atomseg.freeobj == NIL)
LispAllocSeg(&atomseg, pagesize);
object = atomseg.freeobj;
atomseg.freeobj = CDR(object);
--atomseg.nfree;
object->type = LispAtom_t;
object->data.atom = atom;
atom->object = object;
if (intern)
atom->package = PACKAGE;
return (object);
}
LispObj *
LispNewStaticAtom(char *str)
{
LispObj *object;
LispAtom *atom = LispDoGetAtom(str, 1);
object = LispNewSymbol(atom);
return (object);
}
LispObj *
LispNewSymbol(LispAtom *atom)
{
if (atom->object) {
if (atom->package == NULL)
atom->package = PACKAGE;
return (atom->object);
}
else {
LispObj *symbol;
if (atomseg.freeobj == NIL)
LispAllocSeg(&atomseg, pagesize);
symbol = atomseg.freeobj;
atomseg.freeobj = CDR(symbol);
--atomseg.nfree;
symbol->type = LispAtom_t;
symbol->data.atom = atom;
atom->object = symbol;
atom->package = PACKAGE;
return (symbol);
}
}
/* function representation is created on demand and never released,
* even if the function is undefined and never defined again */
LispObj *
LispNewFunction(LispObj *symbol)
{
LispObj *function;
if (symbol->data.atom->function)
return (symbol->data.atom->function);
if (symbol->data.atom->package == NULL)
symbol->data.atom->package = PACKAGE;
if (atomseg.freeobj == NIL)
LispAllocSeg(&atomseg, pagesize);
function = atomseg.freeobj;
atomseg.freeobj = CDR(function);
--atomseg.nfree;
function->type = LispFunction_t;
function->data.atom = symbol->data.atom;
symbol->data.atom->function = function;
return (function);
}
/* symbol name representation is created on demand and never released */
LispObj *
LispSymbolName(LispObj *symbol)
{
LispObj *name;
LispAtom *atom = symbol->data.atom;
if (atom->name)
return (atom->name);
if (atomseg.freeobj == NIL)
LispAllocSeg(&atomseg, pagesize);
name = atomseg.freeobj;
atomseg.freeobj = CDR(name);
--atomseg.nfree;
name->type = LispString_t;
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THESTR(name) = atom->key->value;
STRLEN(name) = atom->key->length;
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name->data.string.writable = 0;
atom->name = name;
return (name);
}
LispObj *
LispNewFunctionQuote(LispObj *object)
{
LispObj *quote = LispNew(object, NIL);
quote->type = LispFunctionQuote_t;
quote->data.quote = object;
return (quote);
}
LispObj *
LispNewDFloat(double value)
{
LispObj *dfloat = objseg.freeobj;
if (dfloat == NIL)
dfloat = Lisp__New(NIL, NIL);
else {
objseg.freeobj = CDR(dfloat);
--objseg.nfree;
}
dfloat->type = LispDFloat_t;
dfloat->data.dfloat = value;
return (dfloat);
}
LispObj *
LispNewString(char *str, long length, int alloced)
{
char *cstring;
LispObj *string = objseg.freeobj;
if (string == NIL)
string = Lisp__New(NIL, NIL);
else {
objseg.freeobj = CDR(string);
--objseg.nfree;
}
if (alloced)
cstring = str;
else {
cstring = LispMalloc(length + 1);
memcpy(cstring, str, length);
cstring[length] = '\0';
}
LispMused(cstring);
string->type = LispString_t;
THESTR(string) = cstring;
STRLEN(string) = length;
string->data.string.writable = 1;
return (string);
}
LispObj *
LispNewComplex(LispObj *realpart, LispObj *imagpart)
{
LispObj *complexp = objseg.freeobj;
if (complexp == NIL)
complexp = Lisp__New(realpart, imagpart);
else {
objseg.freeobj = CDR(complexp);
--objseg.nfree;
}
complexp->type = LispComplex_t;
complexp->data.complex.real = realpart;
complexp->data.complex.imag = imagpart;
return (complexp);
}
LispObj *
LispNewInteger(long integer)
{
if (integer > MOST_POSITIVE_FIXNUM || integer < MOST_NEGATIVE_FIXNUM) {
LispObj *object = objseg.freeobj;
if (object == NIL)
object = Lisp__New(NIL, NIL);
else {
objseg.freeobj = CDR(object);
--objseg.nfree;
}
object->type = LispInteger_t;
object->data.integer = integer;
return (object);
}
return (FIXNUM(integer));
}
LispObj *
LispNewRatio(long num, long den)
{
LispObj *ratio = objseg.freeobj;
if (ratio == NIL)
ratio = Lisp__New(NIL, NIL);
else {
objseg.freeobj = CDR(ratio);
--objseg.nfree;
}
ratio->type = LispRatio_t;
ratio->data.ratio.numerator = num;
ratio->data.ratio.denominator = den;
return (ratio);
}
LispObj *
LispNewVector(LispObj *objects)
{
GC_ENTER();
long count;
LispObj *array, *dimension;
for (count = 0, array = objects; CONSP(array); count++, array = CDR(array))
;
GC_PROTECT(objects);
dimension = CONS(FIXNUM(count), NIL);
array = LispNew(objects, dimension);
array->type = LispArray_t;
array->data.array.list = objects;
array->data.array.dim = dimension;
array->data.array.rank = 1;
array->data.array.type = LispNil_t;
array->data.array.zero = count == 0;
GC_LEAVE();
return (array);
}
LispObj *
LispNewQuote(LispObj *object)
{
LispObj *quote = LispNew(object, NIL);
quote->type = LispQuote_t;
quote->data.quote = object;
return (quote);
}
LispObj *
LispNewBackquote(LispObj *object)
{
LispObj *backquote = LispNew(object, NIL);
backquote->type = LispBackquote_t;
backquote->data.quote = object;
return (backquote);
}
LispObj *
LispNewComma(LispObj *object, int atlist)
{
LispObj *comma = LispNew(object, NIL);
comma->type = LispComma_t;
comma->data.comma.eval = object;
comma->data.comma.atlist = atlist;
return (comma);
}
LispObj *
LispNewCons(LispObj *car, LispObj *cdr)
{
LispObj *cons = objseg.freeobj;
if (cons == NIL)
cons = Lisp__New(car, cdr);
else {
objseg.freeobj = CDR(cons);
--objseg.nfree;
}
CAR(cons) = car;
CDR(cons) = cdr;
return (cons);
}
LispObj *
LispNewLambda(LispObj *name, LispObj *code, LispObj *data, LispFunType type)
{
LispObj *fun = LispNew(data, code);
fun->type = LispLambda_t;
fun->funtype = type;
fun->data.lambda.name = name;
fun->data.lambda.code = code;
fun->data.lambda.data = data;
return (fun);
}
LispObj *
LispNewStruct(LispObj *fields, LispObj *def)
{
LispObj *struc = LispNew(fields, def);
struc->type = LispStruct_t;
struc->data.struc.fields = fields;
struc->data.struc.def = def;
return (struc);
}
LispObj *
LispNewOpaque(void *data, int type)
{
LispObj *opaque = LispNew(NIL, NIL);
opaque->type = LispOpaque_t;
opaque->data.opaque.data = data;
opaque->data.opaque.type = type;
return (opaque);
}
/* string argument must be static, or allocated */
LispObj *
LispNewKeyword(char *string)
{
LispObj *keyword;
if (PACKAGE != lisp__data.keyword) {
LispObj *savepackage;
LispPackage *savepack;
/* Save package environment */
savepackage = PACKAGE;
savepack = lisp__data.pack;
/* Change package environment */
PACKAGE = lisp__data.keyword;
lisp__data.pack = lisp__data.key;
/* Create symbol in keyword package */
keyword = LispNewStaticAtom(string);
/* Restore package environment */
PACKAGE = savepackage;
lisp__data.pack = savepack;
}
else
/* Just create symbol in keyword package */
keyword = LispNewStaticAtom(string);
/* Export keyword symbol */
LispExportSymbol(keyword);
/* All keywords are constants */
keyword->data.atom->constant = 1;
/* XXX maybe should bound the keyword to itself, but that would
* require allocating a LispProperty structure for every keyword */
return (keyword);
}
LispObj *
LispNewPathname(LispObj *obj)
{
LispObj *path = LispNew(obj, NIL);
path->type = LispPathname_t;
path->data.pathname = obj;
return (path);
}
LispObj *
LispNewStringStream(char *string, int flags, long length, int alloced)
{
LispObj *stream = LispNew(NIL, NIL);
SSTREAMP(stream) = LispCalloc(1, sizeof(LispString));
if (alloced)
SSTREAMP(stream)->string = string;
else {
SSTREAMP(stream)->string = LispMalloc(length + 1);
memcpy(SSTREAMP(stream)->string, string, length);
SSTREAMP(stream)->string[length] = '\0';
}
stream->type = LispStream_t;
SSTREAMP(stream)->length = length;
LispMused(SSTREAMP(stream));
LispMused(SSTREAMP(stream)->string);
stream->data.stream.type = LispStreamString;
stream->data.stream.readable = (flags & STREAM_READ) != 0;
stream->data.stream.writable = (flags & STREAM_WRITE) != 0;
SSTREAMP(stream)->space = length + 1;
stream->data.stream.pathname = NIL;
return (stream);
}
LispObj *
LispNewFileStream(LispFile *file, LispObj *path, int flags)
{
LispObj *stream = LispNew(NIL, NIL);
stream->type = LispStream_t;
FSTREAMP(stream) = file;
stream->data.stream.pathname = path;
stream->data.stream.type = LispStreamFile;
stream->data.stream.readable = (flags & STREAM_READ) != 0;
stream->data.stream.writable = (flags & STREAM_WRITE) != 0;
return (stream);
}
LispObj *
LispNewPipeStream(LispPipe *program, LispObj *path, int flags)
{
LispObj *stream = LispNew(NIL, NIL);
stream->type = LispStream_t;
PSTREAMP(stream) = program;
stream->data.stream.pathname = path;
stream->data.stream.type = LispStreamPipe;
stream->data.stream.readable = (flags & STREAM_READ) != 0;
stream->data.stream.writable = (flags & STREAM_WRITE) != 0;
return (stream);
}
LispObj *
LispNewStandardStream(LispFile *file, LispObj *description, int flags)
{
LispObj *stream = LispNew(NIL, NIL);
stream->type = LispStream_t;
FSTREAMP(stream) = file;
stream->data.stream.pathname = description;
stream->data.stream.type = LispStreamStandard;
stream->data.stream.readable = (flags & STREAM_READ) != 0;
stream->data.stream.writable = (flags & STREAM_WRITE) != 0;
return (stream);
}
LispObj *
LispNewBignum(mpi *bignum)
{
LispObj *integer = LispNew(NIL, NIL);
integer->type = LispBignum_t;
integer->data.mp.integer = bignum;
LispMused(bignum->digs);
LispMused(bignum);
return (integer);
}
LispObj *
LispNewBigratio(mpr *bigratio)
{
LispObj *ratio = LispNew(NIL, NIL);
ratio->type = LispBigratio_t;
ratio->data.mp.ratio = bigratio;
LispMused(mpr_num(bigratio)->digs);
LispMused(mpr_den(bigratio)->digs);
LispMused(bigratio);
return (ratio);
}
/* name must be of type LispString_t */
LispObj *
LispNewPackage(LispObj *name, LispObj *nicknames)
{
LispObj *package = LispNew(name, nicknames);
LispPackage *pack = LispCalloc(1, sizeof(LispPackage));
package->type = LispPackage_t;
package->data.package.name = name;
package->data.package.nicknames = nicknames;
package->data.package.package = pack;
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package->data.package.package->atoms = hash_new(STRTBLSZ, NULL);
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LispMused(pack);
return (package);
}
LispObj *
LispSymbolFunction(LispObj *symbol)
{
LispAtom *atom = symbol->data.atom;
if ((atom->a_builtin &&
atom->property->fun.builtin->type == LispFunction) ||
(atom->a_function &&
atom->property->fun.function->funtype == LispFunction) ||
(atom->a_defstruct &&
atom->property->structure.function != STRUCT_NAME) ||
/* XXX currently bytecode is only generated for functions */
atom->a_compiled)
symbol = FUNCTION(symbol);
else
LispDestroy("SYMBOL-FUNCTION: %s is not a function", STROBJ(symbol));
return (symbol);
}
static INLINE LispObj *
LispGetVarPack(LispObj *symbol)
{
LispAtom *atom;
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atom = (LispAtom *)hash_get(lisp__data.pack->atoms,
symbol->data.atom->key);
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return (atom ? atom->object : NULL);
Importing from X.Org 7.2RC2
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}
/* package must be of type LispPackage_t */
void
LispUsePackage(LispObj *package)
{
LispAtom *atom;
LispPackage *pack;
LispObj **pentry, **eentry;
/* Already using its own symbols... */
if (package == PACKAGE)
return;
/* Check if package not already in use-package list */
for (pentry = lisp__data.pack->use.pairs,
eentry = pentry + lisp__data.pack->use.length;
pentry < eentry; pentry++)
if (*pentry == package)
return;
/* Remember this package is in the use-package list */
if (lisp__data.pack->use.length + 1 >= lisp__data.pack->use.space) {
LispObj **pairs = realloc(lisp__data.pack->use.pairs,
(lisp__data.pack->use.space + 1) *
sizeof(LispObj*));
if (pairs == NULL)
LispDestroy("out of memory");
lisp__data.pack->use.pairs = pairs;
++lisp__data.pack->use.space;
}
lisp__data.pack->use.pairs[lisp__data.pack->use.length++] = package;
/* Import all extern symbols from package */
pack = package->data.package.package;
/* Traverse atom list, searching for extern symbols */
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for (atom = (LispAtom *)hash_iter_first(pack->atoms);
atom;
atom = (LispAtom *)hash_iter_next(pack->atoms)) {
if (atom->ext)
LispImportSymbol(atom->object);
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}
}
/* symbol must be of type LispAtom_t */
void
LispImportSymbol(LispObj *symbol)
{
int increment;
LispAtom *atom;
LispObj *current;
current = LispGetVarPack(symbol);
if (current == NULL || current->data.atom->property == NOPROPERTY) {
/* No conflicts */
if (symbol->data.atom->a_object) {
/* If it is a bounded variable */
if (lisp__data.pack->glb.length + 1 >= lisp__data.pack->glb.space)
LispMoreGlobals(lisp__data.pack);
lisp__data.pack->glb.pairs[lisp__data.pack->glb.length++] = symbol;
}
/* Create copy of atom in current package */
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atom = LispDoGetAtom(ATOMID(symbol)->value, 0);
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/* Need to create a copy because if anything new is atached to the
* property, the current package is the owner, not the previous one. */
/* And reference the same properties */
atom->property = symbol->data.atom->property;
increment = 1;
}
else if (current->data.atom->property != symbol->data.atom->property) {
/* Symbol already exists in the current package,
* but does not reference the same variable */
LispContinuable("Symbol %s already defined in package %s. Redefine?",
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ATOMID(symbol)->value, THESTR(PACKAGE->data.package.name));
Importing from X.Org 7.2RC2
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atom = current->data.atom;
/* Continued from error, redefine variable */
LispDecrementAtomReference(atom);
atom->property = symbol->data.atom->property;
atom->a_object = atom->a_function = atom->a_builtin =
atom->a_property = atom->a_defsetf = atom->a_defstruct = 0;
increment = 1;
}
else {
/* Symbol is already available in the current package, just update */
atom = current->data.atom;
increment = 0;
}
/* If importing an important system variable */
atom->watch = symbol->data.atom->watch;
/* Update constant flag */
atom->constant = symbol->data.atom->constant;
/* Set home-package and unique-atom associated with symbol */
atom->package = symbol->data.atom->package;
atom->object = symbol->data.atom->object;
if (symbol->data.atom->a_object)
atom->a_object = 1;
if (symbol->data.atom->a_function)
atom->a_function = 1;
else if (symbol->data.atom->a_builtin)
atom->a_builtin = 1;
else if (symbol->data.atom->a_compiled)
atom->a_compiled = 1;
if (symbol->data.atom->a_property)
atom->a_property = 1;
if (symbol->data.atom->a_defsetf)
atom->a_defsetf = 1;
if (symbol->data.atom->a_defstruct)
atom->a_defstruct = 1;
if (increment)
/* Increase reference count, more than one package using the symbol */
LispIncrementAtomReference(symbol->data.atom);
}
/* symbol must be of type LispAtom_t */
void
LispExportSymbol(LispObj *symbol)
{
/* This does not automatically export symbols to another package using
* the symbols of the current package */
symbol->data.atom->ext = 1;
}
#ifdef __GNUC__
LispObj *
LispGetVar(LispObj *atom)
{
return (LispDoGetVar(atom));
}
static INLINE LispObj *
LispDoGetVar(LispObj *atom)
#else
#define LispDoGetVar LispGetVar
LispObj *
LispGetVar(LispObj *atom)
#endif
{
LispAtom *name;
int i, base, offset;
Atom_id id;
name = atom->data.atom;
if (name->constant && name->package == lisp__data.keyword)
return (atom);
/* XXX offset should be stored elsewhere, it is unique, like the string
* pointer. Unless a multi-thread interface is implemented (where
* multiple stacks would be required, the offset value should be
* stored with the string, so that a few cpu cicles could be saved
* by initializing the value to -1, and only searching for the symbol
* binding if it is not -1, and if no binding is found, because the
* lexical scope was left, reset offset to -1. */
offset = name->offset;
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id = name->key;
Importing from X.Org 7.2RC2
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base = lisp__data.env.lex;
i = lisp__data.env.head - 1;
if (offset <= i && (offset >= base || name->dyn) &&
lisp__data.env.names[offset] == id)
return (lisp__data.env.values[offset]);
for (; i >= base; i--)
if (lisp__data.env.names[i] == id) {
name->offset = i;
return (lisp__data.env.values[i]);
}
if (name->dyn) {
/* Keep searching as maybe a rebound dynamic variable */
for (; i >= 0; i--)
if (lisp__data.env.names[i] == id) {
name->offset = i;
return (lisp__data.env.values[i]);
}
if (name->a_object) {
/* Check for a symbol defined as special, but not yet bound. */
if (name->property->value == UNBOUND)
return (NULL);
return (name->property->value);
}
}
return (name->a_object ? name->property->value : NULL);
}
#ifdef DEBUGGER
/* Same code as LispDoGetVar, but returns the address of the pointer to
* the object value. Used only by the debugger */
void *
LispGetVarAddr(LispObj *atom)
{
LispAtom *name;
int i, base;
Atom_id id;
name = atom->data.atom;
if (name->constant && name->package == lisp__data.keyword)
return (&atom);
id = name->string;
i = lisp__data.env.head - 1;
for (base = lisp__data.env.lex; i >= base; i--)
if (lisp__data.env.names[i] == id)
return (&(lisp__data.env.values[i]));
if (name->dyn) {
for (; i >= 0; i--)
if (lisp__data.env.names[i] == id)
return (&(lisp__data.env.values[i]));
if (name->a_object) {
/* Check for a symbol defined as special, but not yet bound */
if (name->property->value == UNBOUND)
return (NULL);
return (&(name->property->value));
}
}
return (name->a_object ? &(name->property->value) : NULL);
}
#endif
/* Only removes global variables. To be called by makunbound
* Local variables are unbounded once their block is closed anyway.
*/
void
LispUnsetVar(LispObj *atom)
{
LispAtom *name = atom->data.atom;
if (name->package) {
int i;
LispPackage *pack = name->package->data.package.package;
for (i = pack->glb.length - 1; i > 0; i--)
if (pack->glb.pairs[i] == atom) {
LispRemAtomObjectProperty(name);
--pack->glb.length;
if (i < pack->glb.length)
memmove(pack->glb.pairs + i, pack->glb.pairs + i + 1,
sizeof(LispObj*) * (pack->glb.length - i));
/* unset hint about dynamically binded variable */
if (name->dyn)
name->dyn = 0;
break;
}
}
}
LispObj *
LispAddVar(LispObj *atom, LispObj *obj)
{
if (lisp__data.env.length >= lisp__data.env.space)
LispMoreEnvironment();
LispDoAddVar(atom, obj);
return (obj);
}
static INLINE void
LispDoAddVar(LispObj *symbol, LispObj *value)
{
LispAtom *atom = symbol->data.atom;
atom->offset = lisp__data.env.length;
lisp__data.env.values[lisp__data.env.length] = value;
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lisp__data.env.names[lisp__data.env.length++] = atom->key;
Importing from X.Org 7.2RC2
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}
LispObj *
LispSetVar(LispObj *atom, LispObj *obj)
{
LispPackage *pack;
LispAtom *name;
int i, base, offset;
Atom_id id;
name = atom->data.atom;
offset = name->offset;
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id = name->key;
Importing from X.Org 7.2RC2
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base = lisp__data.env.lex;
i = lisp__data.env.head - 1;
if (offset <= i && (offset >= base || name->dyn) &&
lisp__data.env.names[offset] == id)
return (lisp__data.env.values[offset] = obj);
for (; i >= base; i--)
if (lisp__data.env.names[i] == id) {
name->offset = i;
return (lisp__data.env.values[i] = obj);
}
if (name->dyn) {
for (; i >= 0; i--)
if (lisp__data.env.names[i] == id)
return (lisp__data.env.values[i] = obj);
if (name->watch) {
LispSetAtomObjectProperty(name, obj);
return (obj);
}
return (SETVALUE(name, obj));
}
if (name->a_object) {
if (name->watch) {
LispSetAtomObjectProperty(name, obj);
return (obj);
}
return (SETVALUE(name, obj));
}
LispSetAtomObjectProperty(name, obj);
pack = name->package->data.package.package;
if (pack->glb.length >= pack->glb.space)
LispMoreGlobals(pack);
pack->glb.pairs[pack->glb.length++] = atom;
return (obj);
}
void
LispProclaimSpecial(LispObj *atom, LispObj *value, LispObj *doc)
{
int i = 0, dyn, glb;
LispAtom *name;
LispPackage *pack;
glb = 0;
name = atom->data.atom;
pack = name->package->data.package.package;
dyn = name->dyn;
if (!dyn) {
/* Note: don't check if a local variable already is using the symbol */
for (i = pack->glb.length - 1; i >= 0; i--)
if (pack->glb.pairs[i] == atom) {
glb = 1;
break;
}
}
if (dyn) {
if (name->property->value == UNBOUND && value)
/* if variable was just made special, but not bounded */
LispSetAtomObjectProperty(name, value);
}
else if (glb)
/* Already a global variable, but not marked as special.
* Set hint about dynamically binded variable. */
name->dyn = 1;
else {
/* create new special variable */
LispSetAtomObjectProperty(name, value ? value : UNBOUND);
if (pack->glb.length >= pack->glb.space)
LispMoreGlobals(pack);
pack->glb.pairs[pack->glb.length] = atom;
++pack->glb.length;
/* set hint about possibly dynamically binded variable */
name->dyn = 1;
}
if (doc != NIL)
LispAddDocumentation(atom, doc, LispDocVariable);
}
void
LispDefconstant(LispObj *atom, LispObj *value, LispObj *doc)
{
int i;
LispAtom *name = atom->data.atom;
LispPackage *pack = name->package->data.package.package;
/* Unset hint about dynamically binded variable, if set. */
name->dyn = 0;
/* Check if variable is bounded as a global variable */
for (i = pack->glb.length - 1; i >= 0; i--)
if (pack->glb.pairs[i] == atom)
break;
if (i < 0) {
/* Not a global variable */
if (pack->glb.length >= pack->glb.space)
LispMoreGlobals(pack);
pack->glb.pairs[pack->glb.length] = atom;
++pack->glb.length;
}
/* If already a constant variable */
if (name->constant && name->a_object && name->property->value != value)
LispWarning("constant %s is being redefined", STROBJ(atom));
else
name->constant = 1;
/* Set constant value */
LispSetAtomObjectProperty(name, value);
if (doc != NIL)
LispAddDocumentation(atom, doc, LispDocVariable);
}
void
LispAddDocumentation(LispObj *symbol, LispObj *documentation, LispDocType_t type)
{
int length;
char *string;
LispAtom *atom;
LispObj *object;
if (!SYMBOLP(symbol) || !STRINGP(documentation))
LispDestroy("DOCUMENTATION: invalid argument");
atom = symbol->data.atom;
if (atom->documentation[type])
LispRemDocumentation(symbol, type);
/* allocate documentation in atomseg */
if (atomseg.freeobj == NIL)
LispAllocSeg(&atomseg, pagesize);
length = STRLEN(documentation);
string = LispMalloc(length);
memcpy(string, THESTR(documentation), length);
string[length] = '\0';
object = atomseg.freeobj;
atomseg.freeobj = CDR(object);
--atomseg.nfree;
object->type = LispString_t;
THESTR(object) = string;
STRLEN(object) = length;
object->data.string.writable = 0;
atom->documentation[type] = object;
LispMused(string);
}
void
LispRemDocumentation(LispObj *symbol, LispDocType_t type)
{
LispAtom *atom;
if (!SYMBOLP(symbol))
LispDestroy("DOCUMENTATION: invalid argument");
atom = symbol->data.atom;
if (atom->documentation[type]) {
/* reclaim object to atomseg */
free(THESTR(atom->documentation[type]));
CDR(atom->documentation[type]) = atomseg.freeobj;
atomseg.freeobj = atom->documentation[type];
atom->documentation[type] = NULL;
++atomseg.nfree;
}
}
LispObj *
LispGetDocumentation(LispObj *symbol, LispDocType_t type)
{
LispAtom *atom;
if (!SYMBOLP(symbol))
LispDestroy("DOCUMENTATION: invalid argument");
atom = symbol->data.atom;
return (atom->documentation[type] ? atom->documentation[type] : NIL);
}
LispObj *
LispReverse(LispObj *list)
{
LispObj *tmp, *res = NIL;
while (list != NIL) {
tmp = CDR(list);
CDR(list) = res;
res = list;
list = tmp;
}
return (res);
}
LispBlock *
LispBeginBlock(LispObj *tag, LispBlockType type)
{
LispBlock *block;
unsigned blevel = lisp__data.block.block_level + 1;
if (blevel > lisp__data.block.block_size) {
LispBlock **blk;
if (blevel > MAX_STACK_DEPTH)
LispDestroy("stack overflow");
DISABLE_INTERRUPTS();
blk = realloc(lisp__data.block.block, sizeof(LispBlock*) * (blevel + 1));
block = NULL;
if (blk == NULL || (block = malloc(sizeof(LispBlock))) == NULL) {
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
lisp__data.block.block = blk;
lisp__data.block.block[lisp__data.block.block_size] = block;
lisp__data.block.block_size = blevel;
ENABLE_INTERRUPTS();
}
block = lisp__data.block.block[lisp__data.block.block_level];
if (type == LispBlockCatch && !CONSTANTP(tag)) {
tag = EVAL(tag);
lisp__data.protect.objects[lisp__data.protect.length++] = tag;
}
block->type = type;
block->tag = tag;
block->stack = lisp__data.stack.length;
block->protect = lisp__data.protect.length;
block->block_level = lisp__data.block.block_level;
lisp__data.block.block_level = blevel;
#ifdef DEBUGGER
if (lisp__data.debugging) {
block->debug_level = lisp__data.debug_level;
block->debug_step = lisp__data.debug_step;
}
#endif
return (block);
}
void
LispEndBlock(LispBlock *block)
{
lisp__data.protect.length = block->protect;
lisp__data.block.block_level = block->block_level;
#ifdef DEBUGGER
if (lisp__data.debugging) {
if (lisp__data.debug_level >= block->debug_level) {
while (lisp__data.debug_level > block->debug_level) {
DBG = CDR(DBG);
--lisp__data.debug_level;
}
}
lisp__data.debug_step = block->debug_step;
}
#endif
}
void
LispBlockUnwind(LispBlock *block)
{
LispBlock *unwind;
int blevel = lisp__data.block.block_level;
while (blevel > 0) {
unwind = lisp__data.block.block[--blevel];
if (unwind->type == LispBlockProtect) {
BLOCKJUMP(unwind);
}
if (unwind == block)
/* jump above unwind block */
break;
}
}
static LispObj *
LispEvalBackquoteObject(LispObj *argument, int list, int quote)
{
LispObj *result = argument, *object;
if (!POINTERP(argument))
return (argument);
else if (XCOMMAP(argument)) {
/* argument may need to be evaluated */
int atlist;
if (!list && argument->data.comma.atlist)
/* cannot append, not in a list */
LispDestroy("EVAL: ,@ only allowed on lists");
--quote;
if (quote < 0)
LispDestroy("EVAL: comma outside of backquote");
result = object = argument->data.comma.eval;
atlist = COMMAP(object) && object->data.comma.atlist;
if (POINTERP(result) && (XCOMMAP(result) || XBACKQUOTEP(result)))
/* nested commas, reduce 1 level, or backquote,
* don't call LispEval or quote argument will be reset */
result = LispEvalBackquoteObject(object, 0, quote);
else if (quote == 0)
/* just evaluate it */
result = EVAL(result);
if (quote != 0)
result = result == object ? argument : COMMA(result, atlist);
}
else if (XBACKQUOTEP(argument)) {
object = argument->data.quote;
result = LispEvalBackquote(object, quote + 1);
if (quote)
result = result == object ? argument : BACKQUOTE(result);
}
else if (XQUOTEP(argument) && POINTERP(argument->data.quote) &&
(XCOMMAP(argument->data.quote) ||
XBACKQUOTEP(argument->data.quote) ||
XCONSP(argument->data.quote))) {
/* ensures `',sym to be the same as `(quote ,sym) */
object = argument->data.quote;
result = LispEvalBackquote(argument->data.quote, quote);
result = result == object ? argument : QUOTE(result);
}
return (result);
}
LispObj *
LispEvalBackquote(LispObj *argument, int quote)
{
int protect;
LispObj *result, *object, *cons, *cdr;
if (!CONSP(argument))
return (LispEvalBackquoteObject(argument, 0, quote));
result = cdr = NIL;
protect = lisp__data.protect.length;
/* always generate a new list for the result, even if nothing
* is evaluated. It is not expected to use backqoutes when
* not required. */
/* reserve a GC protected slot for the result */
if (protect + 1 >= lisp__data.protect.space)
LispMoreProtects();
lisp__data.protect.objects[lisp__data.protect.length++] = NIL;
for (cons = argument; ; cons = CDR(cons)) {
/* if false, last argument, and if cons is not NIL, a dotted list */
int list = CONSP(cons), insert;
if (list)
object = CAR(cons);
else
object = cons;
if (COMMAP(object))
/* need to insert list elements in result, not just cons it? */
insert = object->data.comma.atlist;
else
insert = 0;
/* evaluate object, if required */
if (CONSP(object))
object = LispEvalBackquote(object, quote);
else
object = LispEvalBackquoteObject(object, insert, quote);
if (result == NIL) {
/* if starting result list */
if (!insert) {
if (list)
result = cdr = CONS(object, NIL);
else
result = cdr = object;
/* gc protect result */
lisp__data.protect.objects[protect] = result;
}
else {
if (!CONSP(object)) {
result = cdr = object;
/* gc protect result */
lisp__data.protect.objects[protect] = result;
}
else {
result = cdr = CONS(CAR(object), NIL);
/* gc protect result */
lisp__data.protect.objects[protect] = result;
/* add remaining elements to result */
for (object = CDR(object);
CONSP(object);
object = CDR(object)) {
RPLACD(cdr, CONS(CAR(object), NIL));
cdr = CDR(cdr);
}
if (object != NIL) {
/* object was a dotted list */
RPLACD(cdr, object);
cdr = CDR(cdr);
}
}
}
}
else {
if (!CONSP(cdr))
LispDestroy("EVAL: cannot append to %s", STROBJ(cdr));
if (!insert) {
if (list) {
RPLACD(cdr, CONS(object, NIL));
cdr = CDR(cdr);
}
else {
RPLACD(cdr, object);
cdr = object;
}
}
else {
if (!CONSP(object)) {
RPLACD(cdr, object);
/* if object is NIL, it is a empty list appended, not
* creating a dotted list. */
if (object != NIL)
cdr = object;
}
else {
for (; CONSP(object); object = CDR(object)) {
RPLACD(cdr, CONS(CAR(object), NIL));
cdr = CDR(cdr);
}
if (object != NIL) {
/* object was a dotted list */
RPLACD(cdr, object);
cdr = CDR(cdr);
}
}
}
}
/* if last argument list element processed */
if (!list)
break;
}
lisp__data.protect.length = protect;
return (result);
}
void
LispMoreEnvironment(void)
{
Atom_id *names;
LispObj **values;
DISABLE_INTERRUPTS();
names = realloc(lisp__data.env.names,
(lisp__data.env.space + 256) * sizeof(Atom_id));
if (names != NULL) {
values = realloc(lisp__data.env.values,
(lisp__data.env.space + 256) * sizeof(LispObj*));
if (values != NULL) {
lisp__data.env.names = names;
lisp__data.env.values = values;
lisp__data.env.space += 256;
ENABLE_INTERRUPTS();
return;
}
else
free(names);
}
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
void
LispMoreStack(void)
{
LispObj **values;
DISABLE_INTERRUPTS();
values = realloc(lisp__data.stack.values,
(lisp__data.stack.space + 256) * sizeof(LispObj*));
if (values == NULL) {
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
lisp__data.stack.values = values;
lisp__data.stack.space += 256;
ENABLE_INTERRUPTS();
}
void
LispMoreGlobals(LispPackage *pack)
{
LispObj **pairs;
DISABLE_INTERRUPTS();
pairs = realloc(pack->glb.pairs,
(pack->glb.space + 256) * sizeof(LispObj*));
if (pairs == NULL) {
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
pack->glb.pairs = pairs;
pack->glb.space += 256;
ENABLE_INTERRUPTS();
}
void
LispMoreProtects(void)
{
LispObj **objects;
DISABLE_INTERRUPTS();
objects = realloc(lisp__data.protect.objects,
(lisp__data.protect.space + 256) * sizeof(LispObj*));
if (objects == NULL) {
ENABLE_INTERRUPTS();
LispDestroy("out of memory");
}
lisp__data.protect.objects = objects;
lisp__data.protect.space += 256;
ENABLE_INTERRUPTS();
}
static int
LispMakeEnvironment(LispArgList *alist, LispObj *values,
LispObj *name, int eval, int builtin)
{
char *desc;
int i, count, base;
LispObj **symbols, **defaults, **sforms;
#define BUILTIN_ARGUMENT(value) \
lisp__data.stack.values[lisp__data.stack.length++] = value
/* If the index value is from register variables, this
* can save some cpu time. Useful for normal arguments
* that are the most common, and thus the ones that
* consume more time in LispMakeEnvironment. */
#define BUILTIN_NO_EVAL_ARGUMENT(index, value) \
lisp__data.stack.values[index] = value
#define NORMAL_ARGUMENT(symbol, value) \
LispDoAddVar(symbol, value)
if (builtin) {
base = lisp__data.stack.length;
if (base + alist->num_arguments > lisp__data.stack.space) {
do
LispMoreStack();
while (base + alist->num_arguments > lisp__data.stack.space);
}
}
else {
base = lisp__data.env.length;
if (base + alist->num_arguments > lisp__data.env.space) {
do
LispMoreEnvironment();
while (base + alist->num_arguments > lisp__data.env.space);
}
}
desc = alist->description;
switch (*desc++) {
case '.':
goto normal_label;
case 'o':
goto optional_label;
case 'k':
goto key_label;
case 'r':
goto rest_label;
case 'a':
goto aux_label;
default:
goto done_label;
}
/* Code below is done in several almost identical loops, to avoid
* checking the value of the arguments eval and builtin too much times */
/* Normal arguments */
normal_label:
i = 0;
count = alist->normals.num_symbols;
if (builtin) {
if (eval) {
for (; i < count && CONSP(values); i++, values = CDR(values)) {
BUILTIN_ARGUMENT(EVAL(CAR(values)));
}
}
else {
for (; i < count && CONSP(values); i++, values = CDR(values)) {
BUILTIN_NO_EVAL_ARGUMENT(base + i, CAR(values));
}
/* macro BUILTIN_NO_EVAL_ARGUMENT does not update
* lisp__data.stack.length, as there is no risk of GC while
* adding the arguments. */
lisp__data.stack.length += i;
}
}
else {
symbols = alist->normals.symbols;
if (eval) {
for (; i < count && CONSP(values); i++, values = CDR(values)) {
NORMAL_ARGUMENT(symbols[i], EVAL(CAR(values)));
}
}
else {
for (; i < count && CONSP(values); i++, values = CDR(values)) {
NORMAL_ARGUMENT(symbols[i], CAR(values));
}
}
}
if (i < count)
LispDestroy("%s: too few arguments", STROBJ(name));
switch (*desc++) {
case 'o':
goto optional_label;
case 'k':
goto key_label;
case 'r':
goto rest_label;
case 'a':
goto aux_label;
default:
goto done_label;
}
/* &OPTIONAL */
optional_label:
i = 0;
count = alist->optionals.num_symbols;
defaults = alist->optionals.defaults;
sforms = alist->optionals.sforms;
if (builtin) {
if (eval) {
for (; i < count && CONSP(values); i++, values = CDR(values))
BUILTIN_ARGUMENT(EVAL(CAR(values)));
for (; i < count; i++)
BUILTIN_ARGUMENT(UNSPEC);
}
else {
for (; i < count && CONSP(values); i++, values = CDR(values))
BUILTIN_ARGUMENT(CAR(values));
for (; i < count; i++)
BUILTIN_ARGUMENT(UNSPEC);
}
}
else {
symbols = alist->optionals.symbols;
if (eval) {
for (; i < count && CONSP(values); i++, values = CDR(values)) {
NORMAL_ARGUMENT(symbols[i], EVAL(CAR(values)));
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], T);
}
}
}
else {
for (; i < count && CONSP(values); i++, values = CDR(values)) {
NORMAL_ARGUMENT(symbols[i], CAR(values));
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], T);
}
}
}
/* default arguments are evaluated for macros */
for (; i < count; i++) {
if (!CONSTANTP(defaults[i])) {
int head = lisp__data.env.head;
int lex = lisp__data.env.lex;
lisp__data.env.lex = base;
lisp__data.env.head = lisp__data.env.length;
NORMAL_ARGUMENT(symbols[i], EVAL(defaults[i]));
lisp__data.env.head = head;
lisp__data.env.lex = lex;
}
else {
NORMAL_ARGUMENT(symbols[i], defaults[i]);
}
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], NIL);
}
}
}
switch (*desc++) {
case 'k':
goto key_label;
case 'r':
goto rest_label;
case 'a':
goto aux_label;
default:
goto done_label;
}
/* &KEY */
key_label:
{
int argc, nused;
LispObj *val, *karg, **keys;
/* Count number of remaining arguments */
for (karg = values, argc = 0; CONSP(karg); karg = CDR(karg), argc++) {
karg = CDR(karg);
if (!CONSP(karg))
LispDestroy("%s: &KEY needs arguments as pairs",
STROBJ(name));
}
/* OPTIMIZATION:
* Builtin functions require that the keyword be in the keyword package.
* User functions don't need the arguments being pushed in the stack
* in the declared order (bytecode expects it...).
* XXX Error checking should be done elsewhere, code may be looping
* and doing error check here may consume too much cpu time.
* XXX Would also be good to already have the arguments specified in
* the correct order.
*/
nused = 0;
val = NIL;
count = alist->keys.num_symbols;
symbols = alist->keys.symbols;
defaults = alist->keys.defaults;
sforms = alist->keys.sforms;
if (builtin) {
/* Arguments must be created in the declared order */
i = 0;
if (eval) {
for (; i < count; i++) {
for (karg = values; CONSP(karg); karg = CDDR(karg)) {
/* This is only true if both point to the
* same symbol in the keyword package. */
if (symbols[i] == CAR(karg)) {
if (karg == values)
values = CDDR(values);
++nused;
BUILTIN_ARGUMENT(EVAL(CADR(karg)));
goto keyword_builtin_eval_used_label;
}
}
BUILTIN_ARGUMENT(UNSPEC);
keyword_builtin_eval_used_label:;
}
}
else {
for (; i < count; i++) {
for (karg = values; CONSP(karg); karg = CDDR(karg)) {
if (symbols[i] == CAR(karg)) {
if (karg == values)
values = CDDR(values);
++nused;
BUILTIN_ARGUMENT(CADR(karg));
goto keyword_builtin_used_label;
}
}
BUILTIN_ARGUMENT(UNSPEC);
keyword_builtin_used_label:;
}
}
if (argc != nused) {
/* Argument(s) may be incorrectly specified, or specified
* twice (what is not an error). */
for (karg = values; CONSP(karg); karg = CDDR(karg)) {
val = CAR(karg);
if (KEYWORDP(val)) {
for (i = 0; i < count; i++)
if (symbols[i] == val)
break;
}
else
/* Just make the error test true */
i = count;
if (i == count)
goto invalid_keyword_label;
}
}
}
#if 0
else {
/* The base offset of the atom in the stack, to check for
* keywords specified twice. */
LispObj *symbol;
int offset = lisp__data.env.length;
keys = alist->keys.keys;
for (karg = values; CONSP(karg); karg = CDDR(karg)) {
symbol = CAR(karg);
if (SYMBOLP(symbol)) {
/* Must be a keyword, but even if it is a keyword, may
* be a typo, so assume it is correct. If it is not
* in the argument list, it is an error. */
for (i = 0; i < count; i++) {
if (!keys[i] && symbols[i] == symbol) {
LispAtom *atom = symbol->data.atom;
/* Symbol found in the argument list. */
if (atom->offset >= offset &&
atom->offset < offset + nused &&
lisp__data.env.names[atom->offset] ==
atom->string)
/* Specified more than once... */
goto keyword_duplicated_label;
break;
}
}
}
else {
Atom_id id;
if (!QUOTEP(symbol) || !SYMBOLP(val = symbol->data.quote)) {
/* Bad argument. */
val = symbol;
goto invalid_keyword_label;
}
id = ATOMID(val);
for (i = 0; i < count; i++) {
if (keys[i] && ATOMID(keys[i]) == id) {
LispAtom *atom = val->data.atom;
/* Symbol found in the argument list. */
if (atom->offset >= offset &&
atom->offset < offset + nused &&
lisp__data.env.names[atom->offset] ==
atom->string)
/* Specified more than once... */
goto keyword_duplicated_label;
break;
}
}
}
if (i == count) {
/* Argument specification not found. */
val = symbol;
goto invalid_keyword_label;
}
++nused;
if (eval) {
NORMAL_ARGUMENT(symbols[i], EVAL(CADR(karg)));
}
else {
NORMAL_ARGUMENT(symbols[i], CADR(karg));
}
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], T);
}
keyword_duplicated_label:;
}
/* Add variables that were not specified in the function call. */
if (nused < count) {
int j;
for (i = 0; i < count; i++) {
Atom_id id = ATOMID(symbols[i]);
for (j = offset + nused - 1; j >= offset; j--) {
if (lisp__data.env.names[j] == id)
break;
}
if (j < offset) {
/* Argument not specified. Use default value */
/* default arguments are evaluated for macros */
if (!CONSTANTP(defaults[i])) {
int head = lisp__data.env.head;
int lex = lisp__data.env.lex;
lisp__data.env.lex = base;
lisp__data.env.head = lisp__data.env.length;
NORMAL_ARGUMENT(symbols[i], EVAL(defaults[i]));
lisp__data.env.head = head;
lisp__data.env.lex = lex;
}
else {
NORMAL_ARGUMENT(symbols[i], defaults[i]);
}
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], NIL);
}
}
}
}
}
#else
else {
int varset;
sforms = alist->keys.sforms;
keys = alist->keys.keys;
/* Add variables */
for (i = 0; i < alist->keys.num_symbols; i++) {
val = defaults[i];
varset = 0;
if (keys[i]) {
Atom_id atom = ATOMID(keys[i]);
/* Special keyword specification, need to compare ATOMID
* and keyword specification must be a quoted object */
for (karg = values; CONSP(karg); karg = CDR(karg)) {
val = CAR(karg);
if (QUOTEP(val) && atom == ATOMID(val->data.quote)) {
val = CADR(karg);
varset = 1;
++nused;
break;
}
karg = CDR(karg);
}
}
else {
/* Normal keyword specification, can compare object pointers,
* as they point to the same object in the keyword package */
for (karg = values; CONSP(karg); karg = CDR(karg)) {
/* Don't check if argument is a valid keyword or
* special quoted keyword */
if (symbols[i] == CAR(karg)) {
val = CADR(karg);
varset = 1;
++nused;
break;
}
karg = CDR(karg);
}
}
/* Add the variable to environment */
if (varset) {
NORMAL_ARGUMENT(symbols[i], eval ? EVAL(val) : val);
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], T);
}
}
else {
/* default arguments are evaluated for macros */
if (!CONSTANTP(val)) {
int head = lisp__data.env.head;
int lex = lisp__data.env.lex;
lisp__data.env.lex = base;
lisp__data.env.head = lisp__data.env.length;
NORMAL_ARGUMENT(symbols[i], EVAL(val));
lisp__data.env.head = head;
lisp__data.env.lex = lex;
}
else {
NORMAL_ARGUMENT(symbols[i], val);
}
if (sforms[i]) {
NORMAL_ARGUMENT(sforms[i], NIL);
}
}
}
if (argc != nused) {
/* Argument(s) may be incorrectly specified, or specified
* twice (what is not an error). */
for (karg = values; CONSP(karg); karg = CDDR(karg)) {
val = CAR(karg);
if (KEYWORDP(val)) {
for (i = 0; i < count; i++)
if (symbols[i] == val)
break;
}
else if (QUOTEP(val) && SYMBOLP(val->data.quote)) {
Atom_id atom = ATOMID(val->data.quote);
for (i = 0; i < count; i++)
if (ATOMID(keys[i]) == atom)
break;
}
else
/* Just make the error test true */
i = count;
if (i == count)
goto invalid_keyword_label;
}
}
}
#endif
goto check_aux_label;
invalid_keyword_label:
{
/* If not in argument specification list... */
char function_name[36];
strcpy(function_name, STROBJ(name));
LispDestroy("%s: %s is an invalid keyword",
function_name, STROBJ(val));
}
}
check_aux_label:
if (*desc == 'a') {
/* &KEY uses all remaining arguments */
values = NIL;
goto aux_label;
}
goto finished_label;
/* &REST */
rest_label:
if (!CONSP(values)) {
if (builtin) {
BUILTIN_ARGUMENT(values);
}
else {
NORMAL_ARGUMENT(alist->rest, values);
}
values = NIL;
}
/* always allocate a new list, don't know if it will be retained */
else if (eval) {
LispObj *cons;
cons = CONS(EVAL(CAR(values)), NIL);
if (builtin) {
BUILTIN_ARGUMENT(cons);
}
else {
NORMAL_ARGUMENT(alist->rest, cons);
}
values = CDR(values);
for (; CONSP(values); values = CDR(values)) {
RPLACD(cons, CONS(EVAL(CAR(values)), NIL));
cons = CDR(cons);
}
}
else {
LispObj *cons;
cons = CONS(CAR(values), NIL);
if (builtin) {
BUILTIN_ARGUMENT(cons);
}
else {
NORMAL_ARGUMENT(alist->rest, cons);
}
values = CDR(values);
for (; CONSP(values); values = CDR(values)) {
RPLACD(cons, CONS(CAR(values), NIL));
cons = CDR(cons);
}
}
if (*desc != 'a')
goto finished_label;
/* &AUX */
aux_label:
i = 0;
count = alist->auxs.num_symbols;
defaults = alist->auxs.initials;
symbols = alist->auxs.symbols;
{
int lex = lisp__data.env.lex;
lisp__data.env.lex = base;
lisp__data.env.head = lisp__data.env.length;
for (; i < count; i++) {
NORMAL_ARGUMENT(symbols[i], EVAL(defaults[i]));
++lisp__data.env.head;
}
lisp__data.env.lex = lex;
}
done_label:
if (CONSP(values))
LispDestroy("%s: too many arguments", STROBJ(name));
finished_label:
if (builtin)
lisp__data.stack.base = base;
else {
lisp__data.env.head = lisp__data.env.length;
}
#undef BULTIN_ARGUMENT
#undef NORMAL_ARGUMENT
#undef BUILTIN_NO_EVAL_ARGUMENT
return (base);
}
LispObj *
LispFuncall(LispObj *function, LispObj *arguments, int eval)
{
LispAtom *atom;
LispArgList *alist;
LispBuiltin *builtin;
LispObj *lambda, *result;
int macro, base;
#ifdef DEBUGGER
if (lisp__data.debugging)
LispDebugger(LispDebugCallBegin, function, arguments);
#endif
switch (OBJECT_TYPE(function)) {
case LispFunction_t:
function = function->data.atom->object;
case LispAtom_t:
atom = function->data.atom;
if (atom->a_builtin) {
builtin = atom->property->fun.builtin;
if (eval)
eval = builtin->type != LispMacro;
base = LispMakeEnvironment(atom->property->alist,
arguments, function, eval, 1);
if (builtin->multiple_values) {
RETURN_COUNT = 0;
result = builtin->function(builtin);
}
else {
result = builtin->function(builtin);
RETURN_COUNT = 0;
}
lisp__data.stack.base = lisp__data.stack.length = base;
}
else if (atom->a_compiled) {
int lex = lisp__data.env.lex;
lambda = atom->property->fun.function;
alist = atom->property->alist;
base = LispMakeEnvironment(alist, arguments, function, eval, 0);
lisp__data.env.lex = base;
result = LispExecuteBytecode(lambda);
lisp__data.env.lex = lex;
lisp__data.env.head = lisp__data.env.length = base;
}
else if (atom->a_function) {
lambda = atom->property->fun.function;
macro = lambda->funtype == LispMacro;
alist = atom->property->alist;
lambda = lambda->data.lambda.code;
if (eval)
eval = !macro;
base = LispMakeEnvironment(alist, arguments, function, eval, 0);
result = LispRunFunMac(function, lambda, macro, base);
}
else if (atom->a_defstruct &&
atom->property->structure.function != STRUCT_NAME) {
LispObj cons;
if (atom->property->structure.function == STRUCT_CONSTRUCTOR)
atom = Omake_struct->data.atom;
else if (atom->property->structure.function == STRUCT_CHECK)
atom = Ostruct_type->data.atom;
else
atom = Ostruct_access->data.atom;
builtin = atom->property->fun.builtin;
cons.type = LispCons_t;
cons.data.cons.cdr = arguments;
if (eval) {
LispObj quote;
quote.type = LispQuote_t;
quote.data.quote = function;
cons.data.cons.car = &quote;
base = LispMakeEnvironment(atom->property->alist,
&cons, function, 1, 1);
}
else {
cons.data.cons.car = function;
base = LispMakeEnvironment(atom->property->alist,
&cons, function, 0, 1);
}
result = builtin->function(builtin);
RETURN_COUNT = 0;
lisp__data.stack.length = base;
}
else {
LispDestroy("EVAL: the function %s is not defined",
STROBJ(function));
/*NOTREACHED*/
result = NIL;
}
break;
case LispLambda_t:
lambda = function->data.lambda.code;
alist = (LispArgList*)function->data.lambda.name->data.opaque.data;
base = LispMakeEnvironment(alist, arguments, function, eval, 0);
result = LispRunFunMac(function, lambda, 0, base);
break;
case LispCons_t:
if (CAR(function) == Olambda) {
function = EVAL(function);
if (LAMBDAP(function)) {
GC_ENTER();
GC_PROTECT(function);
lambda = function->data.lambda.code;
alist = (LispArgList*)function->data.lambda.name->data.opaque.data;
base = LispMakeEnvironment(alist, arguments, NIL, eval, 0);
result = LispRunFunMac(NIL, lambda, 0, base);
GC_LEAVE();
break;
}
}
default:
LispDestroy("EVAL: %s is invalid as a function",
STROBJ(function));
/*NOTREACHED*/
result = NIL;
break;
}
#ifdef DEBUGGER
if (lisp__data.debugging)
LispDebugger(LispDebugCallEnd, function, result);
#endif
return (result);
}
LispObj *
LispEval(LispObj *object)
{
LispObj *result;
switch (OBJECT_TYPE(object)) {
case LispAtom_t:
if ((result = LispDoGetVar(object)) == NULL)
LispDestroy("EVAL: the variable %s is unbound", STROBJ(object));
break;
case LispCons_t:
result = LispFuncall(CAR(object), CDR(object), 1);
break;
case LispQuote_t:
result = object->data.quote;
break;
case LispFunctionQuote_t:
result = object->data.quote;
if (SYMBOLP(result))
result = LispSymbolFunction(result);
else if (CONSP(result) && CAR(result) == Olambda)
result = EVAL(result);
else
LispDestroy("FUNCTION: %s is not a function", STROBJ(result));
break;
case LispBackquote_t:
result = LispEvalBackquote(object->data.quote, 1);
break;
case LispComma_t:
LispDestroy("EVAL: comma outside of backquote");
default:
result = object;
break;
}
return (result);
}
LispObj *
LispApply1(LispObj *function, LispObj *argument)
{
LispObj arguments;
arguments.type = LispCons_t;
arguments.data.cons.car = argument;
arguments.data.cons.cdr = NIL;
return (LispFuncall(function, &arguments, 0));
}
LispObj *
LispApply2(LispObj *function, LispObj *argument1, LispObj *argument2)
{
LispObj arguments, cdr;
arguments.type = cdr.type = LispCons_t;
arguments.data.cons.car = argument1;
arguments.data.cons.cdr = &cdr;
cdr.data.cons.car = argument2;
cdr.data.cons.cdr = NIL;
return (LispFuncall(function, &arguments, 0));
}
LispObj *
LispApply3(LispObj *function, LispObj *arg1, LispObj *arg2, LispObj *arg3)
{
LispObj arguments, car, cdr;
arguments.type = car.type = cdr.type = LispCons_t;
arguments.data.cons.car = arg1;
arguments.data.cons.cdr = &car;
car.data.cons.car = arg2;
car.data.cons.cdr = &cdr;
cdr.data.cons.car = arg3;
cdr.data.cons.cdr = NIL;
return (LispFuncall(function, &arguments, 0));
}
static LispObj *
LispRunFunMac(LispObj *name, LispObj *code, int macro, int base)
{
LispObj *result = NIL;
if (!macro) {
int lex = lisp__data.env.lex;
int did_jump = 1;
LispBlock *block;
block = LispBeginBlock(name, LispBlockClosure);
lisp__data.env.lex = base;
if (setjmp(block->jmp) == 0) {
for (; CONSP(code); code = CDR(code))
result = EVAL(CAR(code));
did_jump = 0;
}
LispEndBlock(block);
if (did_jump)
result = lisp__data.block.block_ret;
lisp__data.env.lex = lex;
lisp__data.env.head = lisp__data.env.length = base;
}
else {
GC_ENTER();
for (; CONSP(code); code = CDR(code))
result = EVAL(CAR(code));
/* FIXME this does not work if macro has &aux variables,
* but there are several other missing features, like
* destructuring and more lambda list keywords still missing.
* TODO later.
*/
lisp__data.env.head = lisp__data.env.length = base;
GC_PROTECT(result);
result = EVAL(result);
GC_LEAVE();
}
return (result);
}
LispObj *
LispRunSetf(LispArgList *alist, LispObj *setf, LispObj *place, LispObj *value)
{
GC_ENTER();
LispObj *store, *code, *expression, *result, quote;
int base;
code = setf->data.lambda.code;
store = setf->data.lambda.data;
quote.type = LispQuote_t;
quote.data.quote = value;
LispDoAddVar(CAR(store), &quote);
++lisp__data.env.head;
base = LispMakeEnvironment(alist, place, Oexpand_setf_method, 0, 0);
/* build expansion macro */
expression = NIL;
for (; CONSP(code); code = CDR(code))
expression = EVAL(CAR(code));
/* Minus 1 to pop the added variable */
lisp__data.env.head = lisp__data.env.length = base - 1;
/* protect expansion, and executes it */
GC_PROTECT(expression);
result = EVAL(expression);
GC_LEAVE();
return (result);
}
LispObj *
LispRunSetfMacro(LispAtom *atom, LispObj *arguments, LispObj *value)
{
int base;
GC_ENTER();
LispObj *place, *body, *result, quote;
place = NIL;
base = LispMakeEnvironment(atom->property->alist,
arguments, atom->object, 0, 0);
body = atom->property->fun.function->data.lambda.code;
/* expand macro body */
for (; CONSP(body); body = CDR(body))
place = EVAL(CAR(body));
/* protect expansion */
GC_PROTECT(place);
/* restore environment */
lisp__data.env.head = lisp__data.env.length = base;
/* value is already evaluated */
quote.type = LispQuote_t;
quote.data.quote = value;
/* call setf again */
result = APPLY2(Osetf, place, &quote);
GC_LEAVE();
return (result);
}
char *
LispStrObj(LispObj *object)
{
static int first = 1;
static char buffer[34];
static LispObj stream;
static LispString string;
if (first) {
stream.type = LispStream_t;
stream.data.stream.source.string = &string;
stream.data.stream.pathname = NIL;
stream.data.stream.type = LispStreamString;
stream.data.stream.readable = 0;
stream.data.stream.writable = 1;
string.string = buffer;
string.fixed = 1;
string.space = sizeof(buffer) - 1;
first = 0;
}
string.length = string.output = 0;
LispWriteObject(&stream, object);
/* make sure string is nul terminated */
string.string[string.length] = '\0';
if (string.length >= 32) {
if (buffer[0] == '(')
strcpy(buffer + 27, "...)");
else
strcpy(buffer + 28, "...");
}
return (buffer);
}
void
LispPrint(LispObj *object, LispObj *stream, int newline)
{
if (stream != NIL && !STREAMP(stream)) {
LispDestroy("PRINT: %s is not a stream", STROBJ(stream));
}
if (newline && LispGetColumn(stream))
LispWriteChar(stream, '\n');
LispWriteObject(stream, object);
if (stream == NIL || (stream->data.stream.type == LispStreamStandard &&
stream->data.stream.source.file == Stdout))
LispFflush(Stdout);
}
void
LispUpdateResults(LispObj *cod, LispObj *res)
{
LispSetVar(RUN[2], LispGetVar(RUN[1]));
LispSetVar(RUN[1], LispGetVar(RUN[0]));
LispSetVar(RUN[0], cod);
LispSetVar(RES[2], LispGetVar(RES[1]));
LispSetVar(RES[1], LispGetVar(RES[0]));
LispSetVar(RES[0], res);
}
#ifdef SIGNALRETURNSINT
int
#else
void
#endif
LispSignalHandler(int signum)
{
LispSignal(signum);
#ifdef SIGNALRETURNSINT
return (0);
#endif
}
void
LispSignal(int signum)
{
char *errstr;
char buffer[32];
if (lisp__disable_int) {
lisp__interrupted = signum;
return;
}
switch (signum) {
case SIGINT:
errstr = "interrupted";
break;
case SIGFPE:
errstr = "floating point exception";
break;
default:
sprintf(buffer, "signal %d received", signum);
errstr = buffer;
break;
}
LispDestroy(errstr);
}
void
LispDisableInterrupts(void)
{
++lisp__disable_int;
}
void
LispEnableInterrupts(void)
{
--lisp__disable_int;
if (lisp__disable_int <= 0 && lisp__interrupted)
LispSignal(lisp__interrupted);
}
void
LispMachine(void)
{
LispObj *cod, *obj;
lisp__data.sigint = signal(SIGINT, LispSignalHandler);
lisp__data.sigfpe = signal(SIGFPE, LispSignalHandler);
/*CONSTCOND*/
while (1) {
if (sigsetjmp(lisp__data.jmp, 1) == 0) {
lisp__data.running = 1;
if (lisp__data.interactive && lisp__data.prompt) {
LispFputs(Stdout, lisp__data.prompt);
LispFflush(Stdout);
}
if ((cod = LispRead()) != NULL) {
obj = EVAL(cod);
if (lisp__data.interactive) {
if (RETURN_COUNT >= 0)
LispPrint(obj, NIL, 1);
if (RETURN_COUNT > 0) {
int i;
for (i = 0; i < RETURN_COUNT; i++)
LispPrint(RETURN(i), NIL, 1);
}
LispUpdateResults(cod, obj);
if (LispGetColumn(NIL))
LispWriteChar(NIL, '\n');
}
}
LispTopLevel();
}
if (lisp__data.eof)
break;
}
signal(SIGINT, lisp__data.sigint);
signal(SIGFPE, lisp__data.sigfpe);
lisp__data.running = 0;
}
void *
LispExecute(char *str)
{
static LispObj stream;
static LispString string;
static int first = 1;
int running = lisp__data.running;
LispObj *result, *cod, *obj, **presult = &result;
if (str == NULL || *str == '\0')
return (NIL);
*presult = NIL;
if (first) {
stream.type = LispStream_t;
stream.data.stream.source.string = &string;
stream.data.stream.pathname = NIL;
stream.data.stream.type = LispStreamString;
stream.data.stream.readable = 1;
stream.data.stream.writable = 0;
string.output = 0;
first = 0;
}
string.string = str;
string.length = strlen(str);
string.input = 0;
LispPushInput(&stream);
if (!running) {
lisp__data.running = 1;
if (sigsetjmp(lisp__data.jmp, 1) != 0)
return (NULL);
}
cod = COD;
/*CONSTCOND*/
while (1) {
if ((obj = LispRead()) != NULL) {
result = EVAL(obj);
COD = cod;
}
if (lisp__data.eof)
break;
}
LispPopInput(&stream);
lisp__data.running = running;
return (result);
}
void
LispBegin(void)
{
int i;
LispAtom *atom;
char results[4];
LispObj *object, *path, *ext;
pagesize = LispGetPageSize();
segsize = pagesize / sizeof(LispObj);
xedit 1.1.1
2008-10-13 14:53:31 -06:00
lisp__data.strings = hash_new(STRTBLSZ, NULL);
lisp__data.opqs = hash_new(STRTBLSZ, NULL);
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
/* Initialize memory management */
lisp__data.mem.mem = (void**)calloc(lisp__data.mem.space = 16,
sizeof(void*));
lisp__data.mem.index = lisp__data.mem.level = 0;
/* Allow LispGetVar to check ATOMID() of unbound symbols */
UNBOUND->data.atom = (LispAtom*)LispCalloc(1, sizeof(LispAtom));
LispMused(UNBOUND->data.atom);
noproperty.value = UNBOUND;
if (Stdin == NULL)
Stdin = LispFdopen(0, FILE_READ);
if (Stdout == NULL)
Stdout = LispFdopen(1, FILE_WRITE | FILE_BUFFERED);
if (Stderr == NULL)
Stderr = LispFdopen(2, FILE_WRITE);
/* minimum number of free cells after GC
* if sizeof(LispObj) == 16, than a minfree of 1024 would try to keep
* at least 16Kb of free cells.
*/
minfree = 1024;
MOD = COD = PRO = NIL;
#ifdef DEBUGGER
DBG = BRK = NIL;
#endif
/* allocate initial object cells */
LispAllocSeg(&objseg, minfree);
LispAllocSeg(&atomseg, pagesize);
lisp__data.gc.average = segsize;
/* Don't allow gc in initialization */
GCDisable();
/* Initialize package system, the current package is LISP. Order of
* initialization is very important here */
lisp__data.lisp = LispNewPackage(STRING("LISP"),
CONS(STRING("COMMON-LISP"), NIL));
/* Make LISP package the current one */
lisp__data.pack = lisp__data.savepack =
lisp__data.lisp->data.package.package;
/* Allocate space in LISP package */
LispMoreGlobals(lisp__data.pack);
/* Allocate space for multiple value return values */
lisp__data.returns.values = malloc(MULTIPLE_VALUES_LIMIT *
(sizeof(LispObj*)));
/* Create the first atom, do it "by hand" because macro "PACKAGE"
* cannot yet be used. */
atom = LispGetPermAtom("*PACKAGE*");
lisp__data.package = atomseg.freeobj;
atomseg.freeobj = CDR(atomseg.freeobj);
--atomseg.nfree;
lisp__data.package->type = LispAtom_t;
lisp__data.package->data.atom = atom;
atom->object = lisp__data.package;
atom->package = lisp__data.lisp;
/* Set package list, to be used by (gc) and (list-all-packages) */
PACK = CONS(lisp__data.lisp, NIL);
/* Make *PACKAGE* a special variable */
LispProclaimSpecial(lisp__data.package, lisp__data.lisp, NIL);
/* Value of macro "PACKAGE" is now properly available */
/* Changing *PACKAGE* is like calling (in-package) */
lisp__data.package->data.atom->watch = 1;
/* And available to other packages */
LispExportSymbol(lisp__data.package);
/* Initialize stacks */
LispMoreEnvironment();
LispMoreStack();
/* Create the KEYWORD package */
Skeyword = GETATOMID("KEYWORD");
xedit 1.1.1
2008-10-13 14:53:31 -06:00
object = LispNewPackage(STRING(Skeyword->value),
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
CONS(STRING(""), NIL));
/* Update list of packages */
PACK = CONS(object, PACK);
/* Allow easy access to the keyword package */
lisp__data.keyword = object;
lisp__data.key = object->data.package.package;
/* Initialize some static important symbols */
Olambda = STATIC_ATOM("LAMBDA");
LispExportSymbol(Olambda);
Okey = STATIC_ATOM("&KEY");
LispExportSymbol(Okey);
Orest = STATIC_ATOM("&REST");
LispExportSymbol(Orest);
Ooptional = STATIC_ATOM("&OPTIONAL");
LispExportSymbol(Ooptional);
Oaux = STATIC_ATOM("&AUX");
LispExportSymbol(Oaux);
Kunspecific = KEYWORD("UNSPECIFIC");
Oformat = STATIC_ATOM("FORMAT");
Oexpand_setf_method = STATIC_ATOM("EXPAND-SETF-METHOD");
Omake_struct = STATIC_ATOM("MAKE-STRUCT");
Ostruct_access = STATIC_ATOM("STRUCT-ACCESS");
Ostruct_store = STATIC_ATOM("STRUCT-STORE");
Ostruct_type = STATIC_ATOM("STRUCT-TYPE");
Smake_struct = ATOMID(Omake_struct);
Sstruct_access = ATOMID(Ostruct_access);
Sstruct_store = ATOMID(Ostruct_store);
Sstruct_type = ATOMID(Ostruct_type);
/* Initialize some static atom ids */
Snil = GETATOMID("NIL");
St = GETATOMID("T");
Saux = ATOMID(Oaux);
Skey = ATOMID(Okey);
Soptional = ATOMID(Ooptional);
Srest = ATOMID(Orest);
Sand = GETATOMID("AND");
Sor = GETATOMID("OR");
Snot = GETATOMID("NOT");
Satom = GETATOMID("ATOM");
Ssymbol = GETATOMID("SYMBOL");
Sinteger = GETATOMID("INTEGER");
Scharacter = GETATOMID("CHARACTER");
Sstring = GETATOMID("STRING");
Slist = GETATOMID("LIST");
Scons = GETATOMID("CONS");
Svector = GETATOMID("VECTOR");
Sarray = GETATOMID("ARRAY");
Sstruct = GETATOMID("STRUCT");
Sfunction = GETATOMID("FUNCTION");
Spathname = GETATOMID("PATHNAME");
Srational = GETATOMID("RATIONAL");
Sfloat = GETATOMID("FLOAT");
Scomplex = GETATOMID("COMPLEX");
Sopaque = GETATOMID("OPAQUE");
Sdefault = GETATOMID("DEFAULT");
LispArgList_t = LispRegisterOpaqueType("LispArgList*");
lisp__data.unget = malloc(sizeof(LispUngetInfo*));
lisp__data.unget[0] = calloc(1, sizeof(LispUngetInfo));
lisp__data.nunget = 1;
lisp__data.standard_input = ATOM2("*STANDARD-INPUT*");
SINPUT = STANDARDSTREAM(Stdin, lisp__data.standard_input, STREAM_READ);
lisp__data.interactive = 1;
LispProclaimSpecial(lisp__data.standard_input,
lisp__data.input_list = SINPUT, NIL);
LispExportSymbol(lisp__data.standard_input);
lisp__data.standard_output = ATOM2("*STANDARD-OUTPUT*");
SOUTPUT = STANDARDSTREAM(Stdout, lisp__data.standard_output, STREAM_WRITE);
LispProclaimSpecial(lisp__data.standard_output,
lisp__data.output_list = SOUTPUT, NIL);
LispExportSymbol(lisp__data.standard_output);
object = ATOM2("*STANDARD-ERROR*");
lisp__data.error_stream = STANDARDSTREAM(Stderr, object, STREAM_WRITE);
LispProclaimSpecial(object, lisp__data.error_stream, NIL);
LispExportSymbol(object);
lisp__data.modules = ATOM2("*MODULES*");
LispProclaimSpecial(lisp__data.modules, MOD, NIL);
LispExportSymbol(lisp__data.modules);
object = CONS(KEYWORD("UNIX"), CONS(KEYWORD("XEDIT"), NIL));
lisp__data.features = ATOM2("*FEATURES*");
LispProclaimSpecial(lisp__data.features, object, NIL);
LispExportSymbol(lisp__data.features);
object = ATOM2("MULTIPLE-VALUES-LIMIT");
LispDefconstant(object, FIXNUM(MULTIPLE_VALUES_LIMIT + 1), NIL);
LispExportSymbol(object);
/* Reenable gc */
GCEnable();
LispBytecodeInit();
LispPackageInit();
LispCoreInit();
LispMathInit();
LispPathnameInit();
LispStreamInit();
LispRegexInit();
LispWriteInit();
lisp__data.prompt = isatty(0) ? "> " : NULL;
lisp__data.errexit = !lisp__data.interactive;
if (lisp__data.interactive) {
/* add +, ++, +++, *, **, and *** */
for (i = 0; i < 3; i++) {
results[i] = '+';
results[i + 1] = '\0';
RUN[i] = ATOM(results);
LispSetVar(RUN[i], NIL);
LispExportSymbol(RUN[i]);
}
for (i = 0; i < 3; i++) {
results[i] = '*';
results[i + 1] = '\0';
RES[i] = ATOM(results);
LispSetVar(RES[i], NIL);
LispExportSymbol(RES[i]);
}
}
else
RUN[0] = RUN[1] = RUN[2] = RES[0] = RES[1] = RES[2] = NIL;
/* Add LISP builtin functions */
for (i = 0; i < sizeof(lispbuiltins) / sizeof(lispbuiltins[0]); i++)
LispAddBuiltinFunction(&lispbuiltins[i]);
EXECUTE("(require \"lisp\")");
object = ATOM2("*DEFAULT-PATHNAME-DEFAULTS*");
#ifdef LISPDIR
{
int length;
char *pathname = LISPDIR;
length = strlen(pathname);
if (length && pathname[length - 1] != '/') {
pathname = LispMalloc(length + 2);
strcpy(pathname, LISPDIR);
strcpy(pathname + length, "/");
path = LSTRING2(pathname, length + 1);
}
else
path = LSTRING(pathname, length);
}
#else
path = STRING("");
#endif
GCDisable();
LispProclaimSpecial(object, APPLY1(Oparse_namestring, path), NIL);
LispExportSymbol(object);
GCEnable();
/* Create and make EXT the current package */
PACKAGE = ext = LispNewPackage(STRING("EXT"), NIL);
lisp__data.pack = lisp__data.savepack = PACKAGE->data.package.package;
/* Update list of packages */
PACK = CONS(ext, PACK);
/* Import LISP external symbols in EXT package */
LispUsePackage(lisp__data.lisp);
/* Add EXT non standard builtin functions */
for (i = 0; i < sizeof(extbuiltins) / sizeof(extbuiltins[0]); i++)
LispAddBuiltinFunction(&extbuiltins[i]);
/* Create and make USER the current package */
GCDisable();
PACKAGE = LispNewPackage(STRING("USER"),
CONS(STRING("COMMON-LISP-USER"), NIL));
GCEnable();
lisp__data.pack = lisp__data.savepack = PACKAGE->data.package.package;
/* Update list of packages */
PACK = CONS(PACKAGE, PACK);
/* USER package inherits all LISP external symbols */
LispUsePackage(lisp__data.lisp);
/* And all EXT external symbols */
LispUsePackage(ext);
LispTopLevel();
}
void
xedit 1.1.1
2008-10-13 14:53:31 -06:00
LispEnd(void)
Importing from X.Org 7.2RC2
2006-11-25 13:07:29 -07:00
{
/* XXX needs to free all used memory, not just close file descriptors */
}
void
LispSetPrompt(char *prompt)
{
lisp__data.prompt = prompt;
}
void
LispSetInteractive(int interactive)
{
lisp__data.interactive = !!interactive;
}
void
LispSetExitOnError(int errexit)
{
lisp__data.errexit = !!errexit;
}
void
LispDebug(int enable)
{
lisp__data.debugging = !!enable;
#ifdef DEBUGGER
/* assumes we are at the toplevel */
DBG = BRK = NIL;
lisp__data.debug_level = -1;
lisp__data.debug_step = 0;
#endif
}
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