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/*************************************************************************
* *
* YAP Prolog *
* *
* Yap Prolog was developed at NCCUP - Universidade do Porto *
* *
* Copyright L . Damas , V . S . Costa and Universidade do Porto 1985 - 1997 *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* *
* File : save . c *
* Last rev : *
* mods : *
* comments : saving and restoring a Prolog computation *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifdef SCCS
static char SccsId [ ] = " @(#)save.c 1.3 3/15/90 " ;
# endif
# include "absmi.h"
# include "alloc.h"
# include "yapio.h"
# include "sshift.h"
# include "Foreign.h"
# if HAVE_STRING_H
# include <string.h>
# endif
# if !HAVE_STRNCAT
# define strncat(X,Y,Z) strcat(X,Y)
# endif
# if !HAVE_STRNCPY
# define strncpy(X,Y,Z) strcpy(X,Y)
# endif
# if HAVE_FCNTL_H
# include <fcntl.h>
# endif
# ifdef HAVE_UNISTD_H
# include <unistd.h>
# endif
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# ifdef HAVE_SYS_TYPES_H
# include <sys/types.h>
# endif
# ifdef HAVE_SYS_STAT_H
# include <sys/stat.h>
# endif
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/********* hack for accesing several kinds of terms. Should be cleaned **/
# define AbsTerm(V) ((Term) (V))
extern char StartUpFile [ ] ;
static char end_msg [ 256 ] = " *** End of YAP saved state ***** " ;
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# ifdef DEBUG
/*
* FOR DEBUGGING define DEBUG_RESTORE0 to check the file stuff ,
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define DEBUG_RESTORE1 to see if it is able to prepare the chain ,
define DEBUG_RESTORE2 to see how things are going ,
define DEBUG_RESTORE3 to check if the atom chain is still a working
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* chain ,
* define DEBUG_RESTORE4 if you want to set the output for some
* particular file ,
* define DEBUG_RESTORE5 if you want to see how the stacks are being
* cleaned up ,
* define DEBUG_RESTORE6 if you want to follow the execution in
*
* Also a file is defined where you can write things , by default stderr
*
* Good Luck
*/
# endif
STATIC_PROTO ( void myread , ( int , char * , Int ) ) ;
STATIC_PROTO ( void mywrite , ( int , char * , Int ) ) ;
STATIC_PROTO ( int open_file , ( char * , int ) ) ;
STATIC_PROTO ( void close_file , ( void ) ) ;
STATIC_PROTO ( void putout , ( CELL ) ) ;
STATIC_PROTO ( void putcellptr , ( CELL * ) ) ;
STATIC_PROTO ( CELL get_cell , ( void ) ) ;
STATIC_PROTO ( CELL * get_cellptr , ( /* CELL * */ void ) ) ;
STATIC_PROTO ( void put_info , ( int , int ) ) ;
STATIC_PROTO ( void save_regs , ( int ) ) ;
STATIC_PROTO ( void save_code_info , ( void ) ) ;
STATIC_PROTO ( void save_heap , ( void ) ) ;
STATIC_PROTO ( void save_stacks , ( int ) ) ;
STATIC_PROTO ( void save_crc , ( void ) ) ;
STATIC_PROTO ( Int do_save , ( int ) ) ;
STATIC_PROTO ( Int p_save , ( void ) ) ;
STATIC_PROTO ( Int p_save_program , ( void ) ) ;
STATIC_PROTO ( int check_header , ( void ) ) ;
STATIC_PROTO ( void get_heap_info , ( void ) ) ;
STATIC_PROTO ( void get_regs , ( int ) ) ;
STATIC_PROTO ( void get_insts , ( OPCODE [ ] ) ) ;
STATIC_PROTO ( void get_hash , ( void ) ) ;
STATIC_PROTO ( void CopyCode , ( void ) ) ;
STATIC_PROTO ( void CopyStacks , ( void ) ) ;
STATIC_PROTO ( int get_coded , ( int , OPCODE [ ] ) ) ;
STATIC_PROTO ( void restore_codes , ( void ) ) ;
STATIC_PROTO ( void ConvDBList , ( Term , char * , CELL ) ) ;
STATIC_PROTO ( Term AdjustDBTerm , ( Term ) ) ;
STATIC_PROTO ( void RestoreDB , ( DBEntry * ) ) ;
STATIC_PROTO ( void RestoreClause , ( Clause * ) ) ;
STATIC_PROTO ( void CleanClauses , ( CODEADDR , CODEADDR ) ) ;
STATIC_PROTO ( void rehash , ( CELL * , int , int ) ) ;
STATIC_PROTO ( void CleanCode , ( PredEntry * ) ) ;
STATIC_PROTO ( void RestoreEntries , ( PropEntry * ) ) ;
STATIC_PROTO ( void RestoreInvisibleAtoms , ( void ) ) ;
STATIC_PROTO ( void RestoreFreeSpace , ( void ) ) ;
STATIC_PROTO ( void restore_heap , ( void ) ) ;
# ifdef DEBUG_RESTORE3
STATIC_PROTO ( void ShowAtoms , ( void ) ) ;
STATIC_PROTO ( void ShowEntries , ( PropEntry * ) ) ;
# endif
STATIC_PROTO ( int OpenRestore , ( char * ) ) ;
STATIC_PROTO ( void CloseRestore , ( void ) ) ;
STATIC_PROTO ( int check_opcodes , ( OPCODE [ ] ) ) ;
STATIC_PROTO ( void RestoreHeap , ( OPCODE [ ] , int ) ) ;
STATIC_PROTO ( Int p_restore , ( void ) ) ;
STATIC_PROTO ( void restore_heap_regs , ( void ) ) ;
STATIC_PROTO ( void restore_regs , ( int ) ) ;
STATIC_PROTO ( void ConvDBStruct , ( Term , char * , CELL ) ) ;
# ifdef MACYAP
STATIC_PROTO ( void NewFileInfo , ( long , long ) ) ;
extern int DefVol ;
# endif
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# if HAVE_IO_H
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# include <io.h>
# endif
# ifdef LIGHT
# include <unix.h>
# include <strings.h>
void
LightBug ( char * ) ;
static void
LightBug ( s )
char * s ;
{
}
# endif /* LIGHT */
# if SHORT_INTS
# ifdef M_WILLIAMS
# include <fcntl.h>
# endif
static void
myread ( int fd , char * buff , Int len )
{
while ( len > 16000 ) {
int nchars = read ( fd , buff , 16000 ) ;
if ( nchars < = 0 )
Error ( FATAL_ERROR , TermNil , " bad saved state, system corrupted " ) ;
len - = 16000 ;
buff + = 16000 ;
}
read ( fd , buff , ( unsigned ) len ) ;
}
static void
mywrite ( int fd , char * buff , Int len )
{
while ( len > 16000 ) {
write ( fd , buff , 16000 ) ;
len - = 16000 ;
buff + = 16000 ;
}
write ( fd , buff , ( unsigned ) len ) ;
}
# else /* SHORT_INTS */
inline static
void myread ( int fd , char * buffer , Int len ) {
int nread ;
while ( len > 0 ) {
nread = read ( fd , buffer , ( int ) len ) ;
if ( nread < 1 ) {
Error ( FATAL_ERROR , TermNil , " bad saved state, system corrupted " ) ;
}
buffer + = nread ;
len - = nread ;
}
}
inline static
void mywrite ( int fd , char * buff , Int len ) {
Int nwritten ;
while ( len > 0 ) {
nwritten = ( Int ) write ( fd , buff , ( int ) len ) ;
if ( nwritten = = - 1 ) {
Error ( SYSTEM_ERROR , TermNil , " write error while saving " ) ;
}
buff + = nwritten ;
len - = nwritten ;
}
}
# endif /* SHORT_INTS */
# define FullSaved 1
# define Atomics 0
# define Funcs 1
/* Where the code was before */
typedef CELL * CELLPOINTER ;
int splfild = 0 ;
# ifdef DEBUG
# ifdef DEBUG_RESTORE4
static FILE * errout ;
# else
# define errout YP_stderr
# endif
# endif /* DEBUG */
static Int OldHeapUsed ;
static CELL which_save ;
/* Open a file to read or to write */
static int
open_file ( char * ss , int flag )
{
int splfild ;
# ifdef M_WILLIAMS
if ( flag & O_CREAT )
splfild = creat ( ss , flag ) ;
else
splfild = open ( ss , flag ) ;
if ( splfild < 0 ) {
# else
# ifdef O_BINARY
# if _MSC_VER
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if ( ( splfild = _open ( ss , flag | O_BINARY ) , _S_IREAD | _S_IWRITE ) < 0 )
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# else
if ( ( splfild = open ( ss , flag | O_BINARY ) , 0755 ) < 0 )
# endif
# else /* O_BINARY */
if ( ( splfild = open ( ss , flag , 0755 ) ) < 0 )
# endif /* O_BINARY */
# endif /* M_WILLIAMS */
{
splfild = 0 ; /* We do not have an open file */
return ( - 1 ) ;
}
# ifdef undf0
YP_fprintf ( errout , " Opened file %s \n " , ss ) ;
# endif
return ( splfild ) ;
}
static void
close_file ( void )
{
close ( splfild ) ;
splfild = 0 ;
}
/* stores a cell in a file */
static void
putout ( CELL l )
{
mywrite ( splfild , ( char * ) & l , sizeof ( CELL ) ) ;
}
/* stores a pointer to a cell in a file */
static void
putcellptr ( CELL * l )
{
mywrite ( splfild , ( char * ) & l , sizeof ( CELLPOINTER ) ) ;
}
/* gets a cell from a file */
static CELL
get_cell ( void )
{
CELL l ;
myread ( splfild , ( char * ) & l , Unsigned ( sizeof ( CELL ) ) ) ;
return ( l ) ;
}
/* gets a pointer to cell from a file */
static CELL *
get_cellptr ( void )
{
CELL * l ;
myread ( splfild , ( char * ) & l , Unsigned ( sizeof ( CELLPOINTER ) ) ) ;
return ( l ) ;
}
/*
* writes the header ( at the moment YAPV * ) , info about what kind of saved
* set , the work size , and the space ocuppied
*/
static void
put_info ( int info , int mode )
{
char msg [ 256 ] ;
sprintf ( msg , " #!/bin/sh \n exec_dir=${YAPBINDIR:-%s} \n exec $exec_dir/yap $0 \" $@ \" \n %cYAPV%s " , BIN_DIR , 1 , version_number ) ;
mywrite ( splfild , msg , strlen ( msg ) + 1 ) ;
putout ( Unsigned ( info ) ) ;
/* say whether we just saved the heap or everything */
putout ( mode ) ;
/* current state of stacks, to be used by SavedInfo */
# if defined(YAPOR) || defined(TABLING)
/* space available in heap area */
putout ( Unsigned ( GlobalBase ) - Unsigned ( HeapBase ) ) ;
/* space available for stacks */
putout ( Unsigned ( LocalBase ) - Unsigned ( GlobalBase ) + CellSize ) ;
# else
/* space available in heap area */
putout ( Unsigned ( GlobalBase ) - Unsigned ( HeapBase ) ) ;
/* space available for stacks */
putout ( Unsigned ( LocalBase ) - Unsigned ( GlobalBase ) ) ;
# endif /* YAPOR || TABLING */
/* space available for trail */
putout ( Unsigned ( TrailTop ) - Unsigned ( TrailBase ) ) ;
/* Space used in heap area */
putout ( Unsigned ( HeapTop ) - Unsigned ( HeapBase ) ) ;
/* Space used for local stack */
putout ( Unsigned ( LCL0 ) - Unsigned ( ASP ) ) ;
/* Space used for global stack */
putout ( Unsigned ( H ) - Unsigned ( GlobalBase ) ) ;
/* Space used for trail */
putout ( Unsigned ( TR ) - Unsigned ( TrailBase ) ) ;
}
static void
save_regs ( int mode )
{
/* save all registers */
putout ( ( CELL ) compile_arrays ) ;
if ( mode = = DO_EVERYTHING ) {
putcellptr ( ( CELL * ) CP ) ;
putcellptr ( ENV ) ;
putcellptr ( ASP ) ;
/* putout((CELL)N); */
putcellptr ( H0 ) ;
putcellptr ( LCL0 ) ;
putcellptr ( H ) ;
putcellptr ( HB ) ;
putcellptr ( ( CELL * ) B ) ;
putcellptr ( ( CELL * ) TR ) ;
putcellptr ( YENV ) ;
putcellptr ( S ) ;
putcellptr ( ( CELL * ) P ) ;
putcellptr ( ( CELL * ) MyTR ) ;
putout ( CreepFlag ) ;
putout ( FlipFlop ) ;
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putout ( EX ) ;
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# ifdef COROUTINING
putout ( DelayedVars ) ;
# endif
}
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putout ( CurrentModule ) ;
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putcellptr ( ( CELL * ) HeapPlus ) ;
if ( mode = = DO_EVERYTHING ) {
# ifdef COROUTINING
putout ( WokenGoals ) ;
# endif
# ifdef DEPTH_LIMIT
putout ( DEPTH ) ;
# endif
}
/* The operand base */
putcellptr ( CellPtr ( XREGS ) ) ;
putout ( which_save ) ;
/* Now start by saving the code */
/* the heap boundaries */
putcellptr ( CellPtr ( HeapBase ) ) ;
putcellptr ( CellPtr ( HeapTop ) ) ;
/* and the space it ocuppies */
putout ( Unsigned ( HeapUsed ) ) ;
/* Then the start of the free code */
putcellptr ( CellPtr ( FreeBlocks ) ) ;
if ( mode = = DO_EVERYTHING ) {
/* put the old trail base, just in case it moves again */
putout ( ARG1 ) ;
if ( which_save = = 2 ) {
putout ( ARG2 ) ;
}
putcellptr ( CellPtr ( TrailBase ) ) ;
}
}
static void
save_code_info ( void )
{
/* First the instructions */
{
op_numbers i ;
OPCODE my_ops [ _std_top + 1 ] ;
for ( i = _Ystop ; i < = _std_top ; + + i )
my_ops [ i ] = opcode ( i ) ;
mywrite ( splfild , ( char * ) my_ops , sizeof ( OPCODE ) * ( _std_top + 1 ) ) ;
}
/* Then the c-functions */
putout ( NUMBER_OF_CPREDS ) ;
{
UInt i ;
for ( i = 0 ; i < NUMBER_OF_CPREDS ; + + i )
putcellptr ( CellPtr ( c_predicates [ i ] ) ) ;
}
/* Then the cmp-functions */
putout ( NUMBER_OF_CMPFUNCS ) ;
{
UInt i ;
for ( i = 0 ; i < NUMBER_OF_CMPFUNCS ; + + i ) {
putcellptr ( CellPtr ( cmp_funcs [ i ] . p ) ) ;
putcellptr ( CellPtr ( cmp_funcs [ i ] . f ) ) ;
}
}
/* and the current character codes */
mywrite ( splfild , chtype , NUMBER_OF_CHARS ) ;
}
static void
save_heap ( void )
{
int j ;
/* Then save the whole heap */
# if defined(YAPOR) || defined(TABLING)
/* skip the local and global data structures */
j = Unsigned ( & GLOBAL ) - Unsigned ( HeapBase ) ;
putout ( j ) ;
mywrite ( splfild , ( char * ) HeapBase , j ) ;
# ifdef USE_HEAP
j = Unsigned ( HeapTop ) - Unsigned ( & HashChain ) ;
putout ( j ) ;
mywrite ( splfild , ( char * ) & HashChain , j ) ;
# else
j = Unsigned ( BaseAllocArea ) - Unsigned ( & HashChain ) ;
putout ( j ) ;
mywrite ( splfild , ( char * ) & HashChain , j ) ;
j = Unsigned ( HeapTop ) - Unsigned ( TopAllocBlockArea ) ;
putout ( j ) ;
mywrite ( splfild , ( char * ) TopAllocBlockArea , j ) ;
# endif
# else
j = Unsigned ( HeapTop ) - Unsigned ( HeapBase ) ;
/* store 10 more cells because of the memory manager */
mywrite ( splfild , ( char * ) HeapBase , j ) ;
# endif
}
static void
save_stacks ( int mode )
{
int j ;
switch ( mode ) {
case DO_EVERYTHING :
/* Now, go and save the state */
/* Save the local stack */
j = Unsigned ( LCL0 ) - Unsigned ( ASP ) ;
mywrite ( splfild , ( char * ) ASP , j ) ;
/* Save the global stack */
j = Unsigned ( H ) - Unsigned ( GlobalBase ) ;
mywrite ( splfild , ( char * ) GlobalBase , j ) ;
/* Save the trail */
j = Unsigned ( TR ) - Unsigned ( TrailBase ) ;
mywrite ( splfild , ( char * ) TrailBase , j ) ;
break ;
case DO_ONLY_CODE :
{
tr_fr_ptr tr_ptr = TR ;
while ( tr_ptr ! = ( tr_fr_ptr ) TrailBase ) {
CELL val = TrailTerm ( tr_ptr - 1 ) ;
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if ( IsVarTerm ( val ) ) {
CELL * d1 = VarOfTerm ( val ) ;
if ( d1 < ( CELL * ) HeapTop )
putout ( val ) ;
} else if ( IsPairTerm ( val ) ) {
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CELL * d1 = RepPair ( val ) ;
if ( d1 < ( CELL * ) HeapTop )
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putout ( val ) ;
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}
tr_ptr - - ;
}
}
putcellptr ( NULL ) ;
break ;
}
}
static void
save_crc ( void )
{
/* Save a CRC */
mywrite ( splfild , end_msg , 256 ) ;
# ifdef MACYAP
NewFileInfo ( ' TEXT ' , ' MYap ' ) ;
if ( DefVol )
SetVol ( 0l , DefVol ) ;
DefVol = 0 ;
# endif
}
static Int
do_save ( int mode ) {
# ifdef MACYAP
NewFileInfo ( ' YAPS ' , ' MYap ' ) ;
# endif
Term t1 = Deref ( ARG1 ) ;
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if ( ! GetName ( FileNameBuf , YAP_FILENAME_MAX , t1 ) ) {
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Error ( TYPE_ERROR_LIST , t1 , " save/1 " ) ;
return ( FALSE ) ;
}
CloseStreams ( TRUE ) ;
if ( ( splfild = open_file ( FileNameBuf , O_WRONLY | O_CREAT ) ) < 0 ) {
Error ( SYSTEM_ERROR , MkAtomTerm ( LookupAtom ( FileNameBuf ) ) ,
" restore/1, open(%s) " , strerror ( errno ) ) ;
return ( FALSE ) ;
}
put_info ( FullSaved , mode ) ;
save_regs ( mode ) ;
save_code_info ( ) ;
save_heap ( ) ;
save_stacks ( mode ) ;
save_crc ( ) ;
close_file ( ) ;
return ( TRUE ) ;
}
/* Saves a complete prolog environment */
static Int
p_save ( void )
{
which_save = 1 ;
return ( do_save ( DO_EVERYTHING ) ) ;
}
/* Saves a complete prolog environment */
static Int
p_save2 ( void )
{
which_save = 2 ;
return ( do_save ( DO_EVERYTHING ) & & unify ( ARG2 , MkIntTerm ( 1 ) ) ) ;
}
/* Just save the program, not the stacks */
static Int
p_save_program ( void )
{
which_save = 0 ;
return ( do_save ( DO_ONLY_CODE ) ) ;
}
/* Now, to restore the saved code */
/* First check out if we are dealing with a valid file */
static int
check_header ( void )
{
char pp [ 80 ] ;
char msg [ 256 ] ;
CELL hp_size , gb_size , lc_size , tr_size , mode ;
/* skip the first line */
do {
myread ( splfild , pp , 1 ) ;
} while ( pp [ 0 ] ! = 1 ) ;
/* now check the version */
sprintf ( msg , " YAPV%s " , version_number ) ;
myread ( splfild , pp , Unsigned ( strlen ( msg ) + 1 ) ) ;
if ( strcmp ( pp , msg ) ! = 0 ) {
Error ( SYSTEM_ERROR , TermNil , " not a saved Prolog state " ) ;
return ( FAIL_RESTORE ) ;
}
/* check info on header */
/* ignore info on saved state */
get_cell ( ) ;
/* check the restore mode */
if ( ( mode = get_cell ( ) ) ! = DO_EVERYTHING & & mode ! = DO_ONLY_CODE ) {
Error ( SYSTEM_ERROR , TermNil , " corrupted saved state " ) ;
return ( FAIL_RESTORE ) ;
}
/* ignore info on stacks size */
get_cell ( ) ;
get_cell ( ) ;
get_cell ( ) ;
/* now, check whether we got enough enough space to load the
saved space */
if ( ( hp_size = get_cell ( ) ) > Unsigned ( AuxTop ) - Unsigned ( HeapBase ) ) {
Error ( SYSTEM_ERROR , TermNil , " out of heap space, Yap needs %d " , hp_size ) ;
return ( FAIL_RESTORE ) ;
}
if ( mode = = DO_EVERYTHING ) {
if ( ( lc_size = get_cell ( ) ) + ( gb_size = get_cell ( ) ) > Unsigned ( LocalBase ) - Unsigned ( GlobalBase ) ) {
Error ( SYSTEM_ERROR , TermNil , " out of stack space, Yap needs %d " , lc_size + gb_size ) ;
return ( FALSE ) ;
}
if ( ( tr_size = get_cell ( ) ) > Unsigned ( TrailTop ) - Unsigned ( TrailBase ) ) {
Error ( SYSTEM_ERROR , TermNil , " out of trail space, Yap needs %d " , tr_size ) ;
return ( FAIL_RESTORE ) ;
}
} else {
/* skip cell size */
get_cell ( ) ;
get_cell ( ) ;
get_cell ( ) ;
}
return ( mode ) ;
}
/* Gets the state of the heap, and evaluates the related variables */
static void
get_heap_info ( void )
{
OldHeapBase = ( ADDR ) get_cellptr ( ) ;
OldHeapTop = ( ADDR ) get_cellptr ( ) ;
OldHeapUsed = ( Int ) get_cell ( ) ;
FreeBlocks = ( BlockHeader * ) get_cellptr ( ) ;
HDiff = Unsigned ( HeapBase ) - Unsigned ( OldHeapBase ) ;
}
/* Gets the register array */
/* Saves the old bases for the work areas */
/* and evaluates the difference from the old areas to the new ones */
static void
get_regs ( int flag )
{
CELL * NewGlobalBase = ( CELL * ) GlobalBase ;
CELL * NewLCL0 = LCL0 ;
CELL * OldXREGS ;
/* Get regs */
compile_arrays = ( int ) get_cell ( ) ;
if ( flag = = DO_EVERYTHING ) {
CP = ( yamop * ) get_cellptr ( ) ;
ENV = get_cellptr ( ) ;
ASP = get_cellptr ( ) ;
/* N = get_cell(); */
H0 = get_cellptr ( ) ;
LCL0 = get_cellptr ( ) ;
H = get_cellptr ( ) ;
HB = get_cellptr ( ) ;
B = ( choiceptr ) get_cellptr ( ) ;
TR = ( tr_fr_ptr ) get_cellptr ( ) ;
YENV = get_cellptr ( ) ;
S = get_cellptr ( ) ;
P = ( yamop * ) get_cellptr ( ) ;
MyTR = ( tr_fr_ptr ) get_cellptr ( ) ;
CreepFlag = get_cell ( ) ;
FlipFlop = get_cell ( ) ;
# ifdef COROUTINING
DelayedVars = get_cell ( ) ;
# endif
}
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CurrentModule = get_cell ( ) ;
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HeapPlus = ( ADDR ) get_cellptr ( ) ;
if ( flag = = DO_EVERYTHING ) {
# ifdef COROUTINING
WokenGoals = get_cell ( ) ;
# endif
# ifdef DEPTH_LIMIT
DEPTH = get_cell ( ) ;
# endif
}
/* Get the old bases */
OldXREGS = get_cellptr ( ) ;
which_save = get_cell ( ) ;
XDiff = ( CELL ) XREGS - ( CELL ) OldXREGS ;
get_heap_info ( ) ;
if ( flag = = DO_EVERYTHING ) {
ARG1 = get_cell ( ) ;
if ( which_save = = 2 ) {
ARG2 = get_cell ( ) ;
}
/* get old trail base */
OldTrailBase = ( ADDR ) get_cellptr ( ) ;
/* Save the old register where we can easily access them */
OldASP = ASP ;
OldLCL0 = LCL0 ;
OldGlobalBase = ( CELL * ) GlobalBase ;
OldH = H ;
OldTR = TR ;
GDiff = Unsigned ( NewGlobalBase ) - Unsigned ( GlobalBase ) ;
LDiff = Unsigned ( NewLCL0 ) - Unsigned ( LCL0 ) ;
TrDiff = LDiff ;
GlobalBase = ( ADDR ) NewGlobalBase ;
LCL0 = NewLCL0 ;
}
}
/* Get the old opcodes and place them in a hash table */
static void
get_insts ( OPCODE old_ops [ ] )
{
myread ( splfild , ( char * ) old_ops , sizeof ( OPCODE ) * ( _std_top + 1 ) ) ;
}
/* check if the old functions are the same as the new ones, or if they
have moved around . Note that we don ' t need these functions afterwards */
static int
check_funcs ( void )
{
UInt old_NUMBER_OF_CPREDS , old_NUMBER_OF_CMPFUNCS ;
int out = FALSE ;
if ( ( old_NUMBER_OF_CPREDS = get_cell ( ) ) ! = NUMBER_OF_CPREDS ) {
Error ( SYSTEM_ERROR , TermNil , " bad saved state, different number of functions (%d vs %d), system corrupted, old_NUMBER_OF_CPREDS, NUMBER_OF_CPREDS " ) ;
}
{
unsigned int i ;
for ( i = 0 ; i < old_NUMBER_OF_CPREDS ; + + i ) {
CELL * old_pred = get_cellptr ( ) ;
out = ( out | | old_pred ! = CellPtr ( c_predicates [ i ] ) ) ;
}
}
if ( ( old_NUMBER_OF_CMPFUNCS = get_cell ( ) ) ! = NUMBER_OF_CMPFUNCS ) {
Error ( SYSTEM_ERROR , TermNil , " bad saved state, different number of comparison functions (%d vs %d), system corrupted " , old_NUMBER_OF_CMPFUNCS , NUMBER_OF_CMPFUNCS ) ;
}
{
unsigned int i ;
for ( i = 0 ; i < old_NUMBER_OF_CMPFUNCS ; + + i ) {
CELL * old_p = get_cellptr ( ) ;
CELL * old_f = get_cellptr ( ) ;
/* if (AddrAdjust((ADDR)old_p) != cmp_funcs[i].p) {
Error ( SYSTEM_ERROR , TermNil , " bad saved state, comparison function is in wrong place (%p vs %p), system corrupted " , AddrAdjust ( ( ADDR ) old_p ) , cmp_funcs [ i ] . p ) ;
} */
cmp_funcs [ i ] . p = ( PredEntry * ) AddrAdjust ( ( ADDR ) old_p ) ;
out = ( out | |
old_f ! = CellPtr ( cmp_funcs [ i ] . f ) ) ;
}
}
return ( out ) ;
}
/* Get the old atoms hash table */
static void
get_hash ( void )
{
myread ( splfild , chtype , NUMBER_OF_CHARS ) ;
}
/* Copy all of the old code to the new Heap */
static void
CopyCode ( void )
{
# if defined(YAPOR) || defined(TABLING)
/* skip the local and global data structures */
CELL j = get_cell ( ) ;
if ( j ! = Unsigned ( & GLOBAL ) - Unsigned ( HeapBase ) ) {
Error ( FATAL_ERROR , TermNil , " bad saved state, system corrupted " ) ;
}
myread ( splfild , ( char * ) HeapBase , j ) ;
# ifdef USE_HEAP
j = get_cell ( ) ;
myread ( splfild , ( char * ) & HashChain , j ) ;
# else
j = get_cell ( ) ;
if ( j ! = Unsigned ( BaseAllocArea ) - Unsigned ( & HashChain ) ) {
Error ( FATAL_ERROR , TermNil , " bad saved state, system corrupted " ) ;
}
myread ( splfild , ( char * ) & HashChain , j ) ;
j = get_cell ( ) ;
myread ( splfild , ( char * ) TopAllocBlockArea , j ) ;
# endif
# else
myread ( splfild , ( char * ) HeapBase ,
( Unsigned ( OldHeapTop ) - Unsigned ( OldHeapBase ) ) ) ;
# endif
}
/* Copy the local and global stack and also the trail to their new home */
/* In REGS we still have nonadjusted values !! */
static void
CopyStacks ( void )
{
Int j ;
char * NewASP ;
j = Unsigned ( OldLCL0 ) - Unsigned ( ASP ) ;
NewASP = ( char * ) ( Unsigned ( ASP ) + ( Unsigned ( LCL0 ) - Unsigned ( OldLCL0 ) ) ) ;
myread ( splfild , ( char * ) NewASP , j ) ;
j = Unsigned ( H ) - Unsigned ( OldGlobalBase ) ;
myread ( splfild , ( char * ) GlobalBase , j ) ;
j = Unsigned ( TR ) - Unsigned ( OldTrailBase ) ;
myread ( splfild , TrailBase , j ) ;
}
/* Copy the local and global stack and also the trail to their new home */
/* In REGS we still have nonadjusted values !! */
static void
CopyTrailEntries ( void )
{
CELL entry , * Entries ;
Entries = ( CELL * ) TrailBase ;
do {
* Entries + + = entry = get_cell ( ) ;
} while ( ( CODEADDR ) entry ! = NULL ) ;
}
/* get things which are saved in the file */
static int
get_coded ( int flag , OPCODE old_ops [ ] )
{
char my_end_msg [ 256 ] ;
int funcs_moved = FALSE ;
get_regs ( flag ) ;
get_insts ( old_ops ) ;
funcs_moved = check_funcs ( ) ;
get_hash ( ) ;
CopyCode ( ) ;
switch ( flag ) {
case DO_EVERYTHING :
CopyStacks ( ) ;
break ;
case DO_ONLY_CODE :
CopyTrailEntries ( ) ;
break ;
}
/* Check CRC */
myread ( splfild , my_end_msg , 256 ) ;
if ( strcmp ( end_msg , my_end_msg ) ! = 0 )
Error ( FATAL_ERROR , TermNil , " bad saved state, system corrupted " ) ;
return ( funcs_moved ) ;
}
/* Now, everything on its place so you must adjust the pointers */
/* restore the failcodes */
static void
restore_codes ( void )
{
heap_regs - > heap_top = AddrAdjust ( OldHeapTop ) ;
# ifdef YAPOR
heap_regs - > getworkfirsttimecode . opc = opcode ( _getwork_first_time ) ;
heap_regs - > getworkcode . opc = opcode ( _getwork ) ;
INIT_YAMOP_LTT ( & ( heap_regs - > getworkcode ) , 0 ) ;
heap_regs - > getworkcode_seq . opc = opcode ( _getwork_seq ) ;
INIT_YAMOP_LTT ( & ( heap_regs - > getworkcode_seq ) , 0 ) ;
# endif /* YAPOR */
# ifdef TABLING
heap_regs - > tablecompletioncode . opc = opcode ( _table_completion ) ;
heap_regs - > tableanswerresolutioncode . opc = opcode ( _table_answer_resolution ) ;
# ifdef YAPOR
INIT_YAMOP_LTT ( & ( heap_regs - > tablecompletioncode ) , 0 ) ;
INIT_YAMOP_LTT ( & ( heap_regs - > tableanswerresolutioncode ) , 0 ) ;
# endif /* YAPOR */
# endif /* TABLING */
heap_regs - > failcode = opcode ( _op_fail ) ;
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heap_regs - > failcode_1 = opcode ( _op_fail ) ;
heap_regs - > failcode_2 = opcode ( _op_fail ) ;
heap_regs - > failcode_3 = opcode ( _op_fail ) ;
heap_regs - > failcode_4 = opcode ( _op_fail ) ;
heap_regs - > failcode_5 = opcode ( _op_fail ) ;
heap_regs - > failcode_6 = opcode ( _op_fail ) ;
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heap_regs - > env_for_trustfail_code . op = opcode ( _call ) ;
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heap_regs - > trustfailcode = opcode ( _trust_fail ) ;
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heap_regs - > env_for_yes_code . op = opcode ( _call ) ;
heap_regs - > yescode . opc = opcode ( _Ystop ) ;
heap_regs - > undef_op = opcode ( _undef_p ) ;
heap_regs - > index_op = opcode ( _index_pred ) ;
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heap_regs - > nocode . opc = opcode ( _Nstop ) ;
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# ifdef YAPOR
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INIT_YAMOP_LTT ( & ( heap_regs - > nocode ) , 1 ) ;
# endif /* YAPOR */
# ifdef YAPOR
INIT_YAMOP_LTT ( & ( heap_regs - > rtrycode ) , 1 ) ;
# endif /* YAPOR */
( ( yamop * ) ( & heap_regs - > rtrycode ) ) - > opc = opcode ( _retry_and_mark ) ;
if ( ( ( yamop * ) ( & heap_regs - > rtrycode ) ) - > u . ld . d ! = NIL )
( ( yamop * ) ( & heap_regs - > rtrycode ) ) - > u . ld . d =
CodeAddrAdjust ( ( ( yamop * ) ( & heap_regs - > rtrycode ) ) - > u . ld . d ) ;
{
int arity ;
arity = heap_regs - > clausecode . arity ;
if ( heap_regs - > clausecode . clause ! = NIL )
heap_regs - > clausecode . clause =
CodeAddrAdjust ( heap_regs - > clausecode . clause ) ;
if ( arity ) {
heap_regs - > clausecode . func =
FuncAdjust ( heap_regs - > clausecode . func ) ;
} else {
/* an atom */
heap_regs - > clausecode . func =
( Functor ) AtomAdjust ( ( Atom ) ( heap_regs - > clausecode . func ) ) ;
}
}
/* restore consult stack. It consists of heap pointers, so it
is easy to fix .
*/
heap_regs - > consultlow =
ConsultObjAdjust ( heap_regs - > consultlow ) ;
heap_regs - > consultbase =
ConsultObjAdjust ( heap_regs - > consultbase ) ;
heap_regs - > consultsp =
ConsultObjAdjust ( heap_regs - > consultsp ) ;
{
/* we assume all pointers have the same size */
register consult_obj * pt = heap_regs - > consultsp ;
while ( pt <
heap_regs - > consultlow + heap_regs - > consultcapacity ) {
pt - > p = PropAdjust ( pt - > p ) ;
pt + + ;
}
}
# if USE_THREADED_CODE
heap_regs - > op_rtable = ( opentry * )
CodeAddrAdjust ( ( CODEADDR ) ( heap_regs - > op_rtable ) ) ;
# endif
if ( heap_regs - > atprompt ! = NIL ) {
heap_regs - > atprompt =
AtomAdjust ( heap_regs - > atprompt ) ;
}
if ( heap_regs - > char_conversion_table ! = NULL ) {
heap_regs - > char_conversion_table = ( char * )
AddrAdjust ( ( ADDR ) heap_regs - > char_conversion_table ) ;
}
if ( heap_regs - > char_conversion_table2 ! = NULL ) {
heap_regs - > char_conversion_table2 = ( char * )
AddrAdjust ( ( ADDR ) heap_regs - > char_conversion_table2 ) ;
}
if ( heap_regs - > dead_clauses ! = NULL ) {
heap_regs - > dead_clauses = ( Clause * )
AddrAdjust ( ( ADDR ) ( heap_regs - > dead_clauses ) ) ;
}
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/* vsc: FIXME !!!!! */
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if ( heap_regs - > db_queues ! = NULL ) {
heap_regs - > db_queues = ( struct idb_queue * )
AddrAdjust ( ( ADDR ) ( heap_regs - > db_queues ) ) ;
}
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if ( heap_regs - > db_queues_cache ! = NULL ) {
heap_regs - > db_queues_cache = ( struct idb_queue * )
AddrAdjust ( ( ADDR ) ( heap_regs - > db_queues_cache ) ) ;
}
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heap_regs - > retry_recorded_code =
PtoOpAdjust ( heap_regs - > retry_recorded_code ) ;
heap_regs - > retry_recorded_k_code =
PtoOpAdjust ( heap_regs - > retry_recorded_k_code ) ;
heap_regs - > retry_drecorded_code =
PtoOpAdjust ( heap_regs - > retry_drecorded_code ) ;
heap_regs - > retry_c_recordedp_code =
PtoOpAdjust ( heap_regs - > retry_c_recordedp_code ) ;
if ( heap_regs - > IntKeys ! = NULL ) {
heap_regs - > IntKeys = ( Prop * ) AddrAdjust ( ( ADDR ) ( heap_regs - > IntKeys ) ) ;
{
UInt i ;
for ( i = 0 ; i < heap_regs - > int_keys_size ; i + + ) {
if ( heap_regs - > IntKeys [ i ] ! = NIL ) {
Prop p0 = heap_regs - > IntKeys [ i ] = PropAdjust ( heap_regs - > IntKeys [ i ] ) ;
RestoreEntries ( RepProp ( p0 ) ) ;
}
}
}
}
if ( heap_regs - > IntBBKeys ! = NULL ) {
heap_regs - > IntBBKeys = ( Prop * ) AddrAdjust ( ( ADDR ) ( heap_regs - > IntBBKeys ) ) ;
{
UInt i ;
for ( i = 0 ; i < heap_regs - > int_bb_keys_size ; i + + ) {
if ( heap_regs - > IntBBKeys [ i ] ! = NIL ) {
Prop p0 = heap_regs - > IntBBKeys [ i ] = PropAdjust ( heap_regs - > IntBBKeys [ i ] ) ;
RestoreEntries ( RepProp ( p0 ) ) ;
}
}
}
}
{
/* adjust atoms in atom table */
unsigned int i = 0 ;
for ( i = 0 ; i < heap_regs - > no_of_modules ; i + + ) {
heap_regs - > module_name [ i ] = AtomTermAdjust ( heap_regs - > module_name [ i ] ) ;
}
}
heap_regs - > atom_abol = AtomAdjust ( heap_regs - > atom_abol ) ;
heap_regs - > atom_append = AtomAdjust ( heap_regs - > atom_append ) ;
heap_regs - > atom_array = AtomAdjust ( heap_regs - > atom_array ) ;
heap_regs - > atom_assert = AtomAdjust ( heap_regs - > atom_assert ) ;
heap_regs - > atom_alarm = AtomAdjust ( heap_regs - > atom_alarm ) ;
heap_regs - > atom_b = AtomAdjust ( heap_regs - > atom_b ) ;
heap_regs - > atom_break = AtomAdjust ( heap_regs - > atom_break ) ;
heap_regs - > atom_call = AtomAdjust ( heap_regs - > atom_call ) ;
heap_regs - > atom_catch = AtomAdjust ( heap_regs - > atom_catch ) ;
heap_regs - > atom_comma = AtomAdjust ( heap_regs - > atom_comma ) ;
heap_regs - > atom_cpu_time = AtomAdjust ( heap_regs - > atom_cpu_time ) ;
heap_regs - > atom_csult = AtomAdjust ( heap_regs - > atom_csult ) ;
heap_regs - > atom_cut = AtomAdjust ( heap_regs - > atom_cut ) ;
heap_regs - > atom_cut_by = AtomAdjust ( heap_regs - > atom_cut_by ) ;
# ifdef EUROTRA
# ifdef SFUNC
heap_regs - > atom_dollar_undef = AtomAdjust ( heap_regs - > atom_dollar_undef ) ;
# endif
# endif
heap_regs - > atom_e = AtomAdjust ( heap_regs - > atom_e ) ;
heap_regs - > atom_e_q = AtomAdjust ( heap_regs - > atom_e_q ) ;
heap_regs - > atom_eof = AtomAdjust ( heap_regs - > atom_eof ) ;
# ifdef EUROTRA
heap_regs - > atom_f_b = AtomAdjust ( heap_regs - > atom_f_b ) ;
# endif
heap_regs - > atom_fail = AtomAdjust ( heap_regs - > atom_fail ) ;
heap_regs - > atom_false = AtomAdjust ( heap_regs - > atom_false ) ;
heap_regs - > atom_fast = AtomAdjust ( heap_regs - > atom_fast ) ;
heap_regs - > atom_g_t = AtomAdjust ( heap_regs - > atom_g_t ) ;
heap_regs - > atom_gc = AtomAdjust ( heap_regs - > atom_gc ) ;
heap_regs - > atom_gc_margin = AtomAdjust ( heap_regs - > atom_gc_margin ) ;
heap_regs - > atom_gc_trace = AtomAdjust ( heap_regs - > atom_gc_trace ) ;
heap_regs - > atom_gc_verbose = AtomAdjust ( heap_regs - > atom_gc_verbose ) ;
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heap_regs - > atom_gc_very_verbose = AtomAdjust ( heap_regs - > atom_gc_very_verbose ) ;
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heap_regs - > atom_global = AtomAdjust ( heap_regs - > atom_global ) ;
heap_regs - > atom_heap_used = AtomAdjust ( heap_regs - > atom_heap_used ) ;
heap_regs - > atom_index = AtomAdjust ( heap_regs - > atom_index ) ;
heap_regs - > atom_inf = AtomAdjust ( heap_regs - > atom_inf ) ;
heap_regs - > atom_l_t = AtomAdjust ( heap_regs - > atom_l_t ) ;
heap_regs - > atom_local = AtomAdjust ( heap_regs - > atom_local ) ;
heap_regs - > atom_meta_call = AtomAdjust ( heap_regs - > atom_meta_call ) ;
heap_regs - > atom_minus = AtomAdjust ( heap_regs - > atom_minus ) ;
heap_regs - > atom_nan = AtomAdjust ( heap_regs - > atom_nan ) ;
heap_regs - > atom_otherwise = AtomAdjust ( heap_regs - > atom_otherwise ) ;
heap_regs - > atom_pi = AtomAdjust ( heap_regs - > atom_pi ) ;
heap_regs - > atom_plus = AtomAdjust ( heap_regs - > atom_plus ) ;
heap_regs - > atom_portray = AtomAdjust ( heap_regs - > atom_portray ) ;
heap_regs - > atom_profile = AtomAdjust ( heap_regs - > atom_profile ) ;
heap_regs - > atom_random = AtomAdjust ( heap_regs - > atom_random ) ;
heap_regs - > atom_read = AtomAdjust ( heap_regs - > atom_read ) ;
heap_regs - > atom_repeat = AtomAdjust ( heap_regs - > atom_repeat ) ;
heap_regs - > atom_restore_regs = AtomAdjust ( heap_regs - > atom_restore_regs ) ;
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# if HAVE_SIGACTION
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heap_regs - > atom_sig_pending = AtomAdjust ( heap_regs - > atom_sig_pending ) ;
# endif
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heap_regs - > atom_stack_free = AtomAdjust ( heap_regs - > atom_stack_free ) ;
heap_regs - > atom_true = AtomAdjust ( heap_regs - > atom_true ) ;
heap_regs - > atom_user = AtomAdjust ( heap_regs - > atom_user ) ;
heap_regs - > atom_usr_err = AtomAdjust ( heap_regs - > atom_usr_err ) ;
heap_regs - > atom_usr_in = AtomAdjust ( heap_regs - > atom_usr_in ) ;
heap_regs - > atom_usr_out = AtomAdjust ( heap_regs - > atom_usr_out ) ;
heap_regs - > atom_version_number = AtomAdjust ( heap_regs - > atom_version_number ) ;
heap_regs - > atom_write = AtomAdjust ( heap_regs - > atom_write ) ;
# ifdef USE_SOCKET
heap_regs - > functor_af_inet = FuncAdjust ( heap_regs - > functor_af_inet ) ;
heap_regs - > functor_af_local = FuncAdjust ( heap_regs - > functor_af_local ) ;
heap_regs - > functor_af_unix = FuncAdjust ( heap_regs - > functor_af_unix ) ;
# endif
heap_regs - > functor_alt_not = FuncAdjust ( heap_regs - > functor_alt_not ) ;
heap_regs - > functor_arrow = FuncAdjust ( heap_regs - > functor_arrow ) ;
heap_regs - > functor_assert = FuncAdjust ( heap_regs - > functor_assert ) ;
# ifdef COROUTINING
heap_regs - > functor_att_goal = FuncAdjust ( heap_regs - > functor_att_goal ) ;
# endif
heap_regs - > functor_braces = FuncAdjust ( heap_regs - > functor_braces ) ;
heap_regs - > functor_call = FuncAdjust ( heap_regs - > functor_call ) ;
heap_regs - > functor_cut_by = FuncAdjust ( heap_regs - > functor_cut_by ) ;
heap_regs - > functor_comma = FuncAdjust ( heap_regs - > functor_comma ) ;
heap_regs - > functor_csult = FuncAdjust ( heap_regs - > functor_csult ) ;
heap_regs - > functor_eq = FuncAdjust ( heap_regs - > functor_eq ) ;
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heap_regs - > functor_execute_in_mod = FuncAdjust ( heap_regs - > functor_execute_in_mod ) ;
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heap_regs - > functor_execute_within = FuncAdjust ( heap_regs - > functor_execute_within ) ;
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heap_regs - > functor_g_atom = FuncAdjust ( heap_regs - > functor_g_atom ) ;
heap_regs - > functor_g_atomic = FuncAdjust ( heap_regs - > functor_g_atomic ) ;
heap_regs - > functor_g_compound = FuncAdjust ( heap_regs - > functor_g_compound ) ;
heap_regs - > functor_g_float = FuncAdjust ( heap_regs - > functor_g_float ) ;
heap_regs - > functor_g_integer = FuncAdjust ( heap_regs - > functor_g_integer ) ;
heap_regs - > functor_g_number = FuncAdjust ( heap_regs - > functor_g_number ) ;
heap_regs - > functor_g_primitive = FuncAdjust ( heap_regs - > functor_g_primitive ) ;
heap_regs - > functor_g_var = FuncAdjust ( heap_regs - > functor_g_var ) ;
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heap_regs - > functor_last_execute_within = FuncAdjust ( heap_regs - > functor_last_execute_within ) ;
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heap_regs - > functor_list = FuncAdjust ( heap_regs - > functor_list ) ;
heap_regs - > functor_module = FuncAdjust ( heap_regs - > functor_module ) ;
# ifdef MULTI_ASSIGNMENT_VARIABLES
heap_regs - > functor_mutable = FuncAdjust ( heap_regs - > functor_mutable ) ;
# endif
heap_regs - > functor_not = FuncAdjust ( heap_regs - > functor_not ) ;
heap_regs - > functor_or = FuncAdjust ( heap_regs - > functor_or ) ;
heap_regs - > functor_portray = FuncAdjust ( heap_regs - > functor_portray ) ;
heap_regs - > functor_query = FuncAdjust ( heap_regs - > functor_query ) ;
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heap_regs - > functor_spy = FuncAdjust ( heap_regs - > functor_spy ) ;
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heap_regs - > functor_stream = FuncAdjust ( heap_regs - > functor_stream ) ;
heap_regs - > functor_stream_pos = FuncAdjust ( heap_regs - > functor_stream_pos ) ;
heap_regs - > functor_stream_eOS = FuncAdjust ( heap_regs - > functor_stream_eOS ) ;
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heap_regs - > functor_change_module = FuncAdjust ( heap_regs - > functor_change_module ) ;
heap_regs - > functor_current_module = FuncAdjust ( heap_regs - > functor_current_module ) ;
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heap_regs - > functor_u_minus = FuncAdjust ( heap_regs - > functor_u_minus ) ;
heap_regs - > functor_u_plus = FuncAdjust ( heap_regs - > functor_u_plus ) ;
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heap_regs - > functor_v_bar = FuncAdjust ( heap_regs - > functor_v_bar ) ;
heap_regs - > functor_var = FuncAdjust ( heap_regs - > functor_var ) ;
# ifdef EUROTRA
heap_regs - > term_dollar_u = AtomTermAdjust ( heap_regs - > term_dollar_u ) ;
# endif
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heap_regs - > term_prolog = AtomTermAdjust ( heap_regs - > term_prolog ) ;
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heap_regs - > term_refound_var = AtomTermAdjust ( heap_regs - > term_refound_var ) ;
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heap_regs - > file_aliases =
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( struct AliasDescS * ) AddrAdjust ( ( ADDR ) heap_regs - > file_aliases ) ;
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heap_regs - > yap_lib_dir =
( char * ) AddrAdjust ( ( ADDR ) heap_regs - > yap_lib_dir ) ;
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heap_regs - > pred_goal_expansion =
( PredEntry * ) AddrAdjust ( ( ADDR ) heap_regs - > pred_goal_expansion ) ;
heap_regs - > pred_meta_call =
( PredEntry * ) AddrAdjust ( ( ADDR ) heap_regs - > pred_meta_call ) ;
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heap_regs - > pred_dollar_catch =
( PredEntry * ) AddrAdjust ( ( ADDR ) heap_regs - > pred_dollar_catch ) ;
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heap_regs - > pred_throw =
( PredEntry * ) AddrAdjust ( ( ADDR ) heap_regs - > pred_throw ) ;
heap_regs - > pred_handle_throw =
( PredEntry * ) AddrAdjust ( ( ADDR ) heap_regs - > pred_handle_throw ) ;
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if ( heap_regs - > undef_code ! = NULL )
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heap_regs - > undef_code = ( PredEntry * ) PtoHeapCellAdjust ( ( CELL * ) ( heap_regs - > undef_code ) ) ;
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if ( heap_regs - > creep_code ! = NULL )
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heap_regs - > creep_code = ( PredEntry * ) PtoHeapCellAdjust ( ( CELL * ) ( heap_regs - > creep_code ) ) ;
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if ( heap_regs - > spy_code ! = NULL )
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heap_regs - > spy_code = ( PredEntry * ) PtoHeapCellAdjust ( ( CELL * ) ( heap_regs - > spy_code ) ) ;
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# ifdef COROUTINING
# ifdef MULTI_ASSIGNMENT_VARIABLES
if ( heap_regs - > wake_up_code ! = NULL )
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heap_regs - > wake_up_code = ( PredEntry * ) PtoHeapCellAdjust ( ( CELL * ) ( heap_regs - > wake_up_code ) ) ;
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heap_regs - > mutable_list =
AbsAppl ( PtoGloAdjust ( RepAppl ( heap_regs - > mutable_list ) ) ) ;
heap_regs - > atts_mutable_list =
AbsAppl ( PtoGloAdjust ( RepAppl ( heap_regs - > atts_mutable_list ) ) ) ;
# endif
# endif
if ( heap_regs - > last_wtime ! = NULL )
heap_regs - > last_wtime = ( void * ) PtoHeapCellAdjust ( ( CELL * ) ( heap_regs - > last_wtime ) ) ;
}
/* restore some heap registers */
static void
restore_heap_regs ( void )
{
HeapPlus = AddrAdjust ( HeapPlus ) ;
* ( ( YAP_SEG_SIZE * ) HeapTop ) = InUseFlag ;
HeapMax = HeapUsed = OldHeapUsed ;
restore_codes ( ) ;
}
/* adjust abstract machine registers */
static void
restore_regs ( int flag )
{
restore_heap_regs ( ) ;
if ( flag = = DO_EVERYTHING ) {
CP = PtoOpAdjust ( CP ) ;
ENV = PtoLocAdjust ( ENV ) ;
ASP = PtoLocAdjust ( ASP ) ;
H = PtoGloAdjust ( H ) ;
B = ( choiceptr ) PtoLocAdjust ( CellPtr ( B ) ) ;
TR = PtoTRAdjust ( TR ) ;
P = PtoOpAdjust ( P ) ;
HB = PtoLocAdjust ( HB ) ;
YENV = PtoLocAdjust ( YENV ) ;
S = PtoGloAdjust ( S ) ;
HeapPlus = AddrAdjust ( HeapPlus ) ;
if ( MyTR )
MyTR = PtoTRAdjust ( MyTR ) ;
# ifdef COROUTINING
DelayedVars = AbsAppl ( PtoGloAdjust ( RepAppl ( DelayedVars ) ) ) ;
# ifdef MULTI_ASSIGNMENT_VARIABLES
WokenGoals = AbsAppl ( PtoGloAdjust ( RepAppl ( WokenGoals ) ) ) ;
# endif
# endif
}
}
/* Restoring the heap */
/* Converts a structure of the DB, as it was saved in the heap */
/* uses a variable base */
static void
ConvDBStruct ( Term Struct , char * tbase , CELL size )
{
CELL * TermP ;
Functor f ;
int Arity , i ;
TermP = ( CELL * ) ( tbase + ( CELL ) RepAppl ( Struct ) ) ;
f = FuncAdjust ( ( Functor ) ( * TermP ) ) ;
* ( Functor * ) TermP = f ;
Arity = ArityOfFunctor ( f ) ;
TermP + + ;
for ( i = 0 ; i < Arity ; i + + ) {
register Term t = * TermP ;
if ( IsVarTerm ( t ) ) {
/* do nothing */
} else if ( IsAtomTerm ( t ) ) {
/* these are the only ones that may actually need to be changed */
* TermP = AtomTermAdjust ( t ) ;
} else if ( IsApplTerm ( t ) ) {
CELL offset = ( CELL ) RepAppl ( Struct ) ;
if ( offset > size ) {
* TermP = AbsAppl ( CellPtoHeapAdjust ( RepAppl ( t ) ) ) ;
}
ConvDBStruct ( t , tbase , size ) ;
} else if ( IsPairTerm ( t ) ) {
ConvDBList ( t , tbase , size ) ;
}
TermP + + ;
}
}
/* Converts a list of the DB, as it was saved in the heap */
/* uses a variable base */
static void
ConvDBList ( Term List , char * tbase , CELL size )
{
CELL * TermP ;
int i ;
TermP = ( CELL * ) ( tbase + ( CELL ) RepPair ( List ) ) ;
for ( i = 0 ; i < 2 ; i + + ) {
register Term t = * TermP ;
if ( IsVarTerm ( t ) ) {
/* do nothing */
} else if ( IsAtomTerm ( t ) )
* TermP = AtomTermAdjust ( t ) ;
else if ( IsApplTerm ( t ) )
ConvDBStruct ( t , tbase , size ) ;
else if ( IsPairTerm ( t ) )
ConvDBList ( t , tbase , size ) ;
TermP + + ;
}
}
/* adjusts terms stored in the data base, when they have no variables */
static Term
AdjustDBTerm ( Term trm )
{
Term * p ;
if ( IsAtomTerm ( trm ) )
return ( AtomTermAdjust ( trm ) ) ;
if ( IsPairTerm ( trm ) ) {
p = PtoHeapCellAdjust ( RepPair ( trm ) ) ;
* p = AdjustDBTerm ( * p ) ;
+ + p ;
* p = AdjustDBTerm ( * p ) ;
return ( AbsPair ( p - 1 ) ) ;
}
if ( IsApplTerm ( trm ) ) {
int Arity , i ;
Functor f ;
Term * p0 = p = PtoHeapCellAdjust ( RepAppl ( trm ) ) ;
f = FuncAdjust ( ( Functor ) ( * p ) ) ;
* p = ( Term ) f ;
Arity = ArityOfFunctor ( f ) ;
p + + ;
for ( i = 0 ; i < Arity ; + + i ) {
* p = AdjustDBTerm ( * p ) ;
p + + ;
}
return ( AbsAppl ( p0 ) ) ;
}
return ( trm ) ;
}
static void
recompute_mask ( DBRef dbr )
{
CELL * x = ( CELL * ) HeapTop , * tp ;
unsigned int Arity , i ;
Term out ;
char * tbase = CharP ( dbr - > Contents - 1 ) ;
if ( IsPairTerm ( dbr - > Entry ) ) {
out = AbsPair ( x ) ;
Arity = 2 ;
tp = ( CELL * ) ( tbase + ( CELL ) RepPair ( dbr - > Entry ) ) ;
} else {
Functor f ;
tp = ( CELL * ) ( tbase + ( CELL ) RepAppl ( dbr - > Entry ) ) ;
f = ( Functor ) ( * tp + + ) ;
out = AbsAppl ( x ) ;
Arity = ArityOfFunctor ( f ) ;
* x + + = ( CELL ) f ;
if ( Arity > 3 ) Arity = 3 ;
}
for ( i = 0 ; i < Arity ; i + + ) {
register Term tw = * tp + + ;
if ( IsVarTerm ( tw ) ) {
RESET_VARIABLE ( x ) ;
} else if ( IsApplTerm ( tw ) ) {
/* just fetch the functor from where it is in the data-base.
This guarantees we have access to references and friends . */
CELL offset = ( CELL ) RepAppl ( tw ) ;
if ( offset > dbr - > NOfCells * sizeof ( CELL ) )
* x = tw ;
else
* x = AbsAppl ( ( CELL * ) ( tbase + offset ) ) ;
} else if ( IsAtomicTerm ( tw ) ) {
* x = tw ;
} else if ( IsPairTerm ( tw ) ) {
* x = AbsPair ( x ) ;
}
x + + ;
}
dbr - > Mask = EvalMasks ( out , & ( dbr - > Key ) ) ;
}
static void
RestoreDBEntry ( DBRef dbr )
{
# ifdef DEBUG_RESTORE
YP_fprintf ( errout , " Restoring at %x " , dbr ) ;
if ( dbr - > Flags & DBAtomic )
YP_fprintf ( errout , " an atomic term \n " ) ;
else if ( dbr - > Flags & DBNoVars )
YP_fprintf ( errout , " with no vars \n " ) ;
else if ( dbr - > Flags & DBComplex )
YP_fprintf ( errout , " complex term \n " ) ;
else if ( dbr - > Flags & DBIsRef )
YP_fprintf ( errout , " a ref \n " ) ;
else
YP_fprintf ( errout , " a var \n " ) ;
# endif
dbr - > Parent = ( DBProp ) AddrAdjust ( ( ADDR ) ( dbr - > Parent ) ) ;
if ( dbr - > Code ! = NIL )
dbr - > Code = CodeAddrAdjust ( dbr - > Code ) ;
if ( dbr - > Flags & DBAtomic ) {
if ( IsAtomTerm ( dbr - > Entry ) )
dbr - > Entry = AtomTermAdjust ( dbr - > Entry ) ;
} else if ( dbr - > Flags & DBNoVars )
dbr - > Entry = ( CELL ) AdjustDBTerm ( ( Term ) dbr - > Entry ) ;
else if ( dbr - > Flags & DBComplex ) {
if ( IsApplTerm ( ( Term ) dbr - > Entry ) )
ConvDBStruct ( ( Term ) dbr - > Entry , CharP ( dbr - > Contents - 1 ) , dbr - > NOfCells * sizeof ( CELL ) ) ;
else
ConvDBList ( ( Term ) dbr - > Entry , CharP ( dbr - > Contents - 1 ) , dbr - > NOfCells * sizeof ( CELL ) ) ;
}
if ( dbr - > Prev ! = NULL )
dbr - > Prev = DBRefAdjust ( dbr - > Prev ) ;
if ( dbr - > Next ! = NULL )
dbr - > Next = DBRefAdjust ( dbr - > Next ) ;
if ( dbr - > Flags & DBWithRefs ) {
DBRef * cp ;
DBRef tm ;
cp = ( DBRef * ) ( ( CODEADDR ) dbr + SizeOfBlock ( CodePtr ( dbr ) ) ) ;
while ( ( tm = * - - cp ) ! = 0 )
* cp = DBRefAdjust ( tm ) ;
}
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " Recomputing masks \n " ) ;
# endif
if ( dbr - > Flags & DBNoVars ) {
dbr - > Mask = EvalMasks ( ( Term ) dbr - > Entry , & ( dbr - > Key ) ) ;
} else if ( dbr - > Flags & DBComplex ) {
/* This is quite nasty, we want to recalculate the mask but
we don ' t want to rebuild the whole term . We ' ll just build whatever we
need to recompute the mask .
*/
recompute_mask ( dbr ) ;
}
}
/* Restores a DB structure, as it was saved in the heap */
static void
RestoreDB ( DBEntry * pp )
{
register DBRef dbr ;
if ( pp - > First ! = NULL )
pp - > First = DBRefAdjust ( pp - > First ) ;
if ( pp - > Last ! = NULL )
pp - > Last = DBRefAdjust ( pp - > Last ) ;
# ifndef KEEP_ENTRY_AGE
if ( pp - > FirstNEr ! = NULL )
pp - > FirstNEr = DBRefAdjust ( pp - > FirstNEr ) ;
# endif
if ( pp - > ArityOfDB )
pp - > FunctorOfDB = FuncAdjust ( pp - > FunctorOfDB ) ;
else
pp - > FunctorOfDB = ( Functor ) AtomAdjust ( ( Atom ) ( pp - > FunctorOfDB ) ) ;
dbr = pp - > First ;
/* While we have something in the data base, restore it */
while ( dbr ) {
RestoreDBEntry ( dbr ) ;
dbr = dbr - > Next ;
}
}
/* Restores a DB structure, as it was saved in the heap */
static void
RestoreBB ( BlackBoardEntry * pp )
{
if ( pp - > Element ) {
register DBRef dbr ;
pp - > Element = DBRefAdjust ( pp - > Element ) ;
# ifdef DEBUG_RESTORE
YP_fprintf ( errout , " Restoring at %x " , dbr ) ;
if ( dbr - > Flags & DBAtomic )
YP_fprintf ( errout , " an atomic term \n " ) ;
else if ( dbr - > Flags & DBNoVars )
YP_fprintf ( errout , " with no vars \n " ) ;
else if ( dbr - > Flags & DBComplex )
YP_fprintf ( errout , " complex term \n " ) ;
else if ( dbr - > Flags & DBIsRef )
YP_fprintf ( errout , " a ref \n " ) ;
else
YP_fprintf ( errout , " a var \n " ) ;
# endif
dbr = pp - > Element ;
RestoreDBEntry ( dbr ) ;
}
pp - > KeyOfBB = AtomAdjust ( pp - > KeyOfBB ) ;
}
# define HASH_SHIFT 6
/*
* This is used to make an hash table correct , after displacing its elements ,
* HCEnd should point to an area of free space , usually in the heap . The
* routine is very dependent on the hash function used , and it destroys the
* previous " hit " order
*/
static void
rehash ( CELL * oldcode , int NOfE , int KindOfEntries )
{
register CELL * savep , * basep ;
CELL * oldp = oldcode ;
int TableSize = NOfE - 1 , NOfEntries ;
register int i ;
int hash ;
CELL WorkTerm , failplace = 0 ;
CELL * Base = oldcode ;
if ( HDiff = = 0 )
return ;
basep = H ;
if ( H + ( NOfE * 2 ) > ASP ) {
basep = ( CELL * ) TR ;
if ( basep + ( NOfE * 2 ) > ( CELL * ) TrailTop ) {
if ( ! growtrail ( ( ADDR ) ( basep + ( NOfE * 2 ) ) - TrailTop ) ) {
Error ( SYSTEM_ERROR , TermNil ,
" not enough space to restore hash tables for indexing " ) ;
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exit_yap ( 1 ) ;
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}
}
}
for ( i = 0 ; i < NOfE ; + + i ) {
if ( * oldp = = 0 ) {
failplace = oldp [ 1 ] ;
break ;
}
oldp + = 2 ;
}
savep = basep ;
oldp = oldcode ;
for ( i = 0 ; i < NOfE ; + + i ) {
if ( * oldp ! = 0 ) {
savep [ 0 ] = oldp [ 0 ] ;
savep [ 1 ] = oldp [ 1 ] ;
oldp [ 0 ] = 0 ;
oldp [ 1 ] = failplace ;
savep + = 2 ;
}
oldp + = 2 ;
}
NOfEntries = ( savep - basep ) / 2 ;
savep = basep ;
for ( i = 0 ; i < NOfEntries ; + + i ) {
register Int d ;
CELL * hentry ;
WorkTerm = savep [ i * 2 ] ;
hash = ( Unsigned ( WorkTerm ) > > HASH_SHIFT ) & TableSize ;
hentry = Base + hash * 2 ;
d = TableSize & ( Unsigned ( WorkTerm ) | 1 ) ;
while ( * hentry ) {
# ifdef DEBUG
# ifdef CLASHES
+ + clashes ;
# endif /* CLASHES */
# endif /* DEBUG */
hash = ( hash + d ) & TableSize ;
hentry = Base + hash * 2 ;
}
hentry [ 0 ] = WorkTerm ;
hentry [ 1 ] = savep [ i * 2 + 1 ] ;
}
}
static CODEADDR
CCodeAdjust ( PredEntry * pe )
{
/* add this code to a list of ccalls that must be adjusted */
return ( ( CODEADDR ) ( c_predicates [ pe - > StateOfPred ] ) ) ;
}
static CODEADDR
NextCCodeAdjust ( PredEntry * pe )
{
/* add this code to a list of ccalls that must be adjusted */
return ( ( CODEADDR ) ( c_predicates [ pe - > StateOfPred + 1 ] ) ) ;
}
static CODEADDR
DirectCCodeAdjust ( PredEntry * pe )
{
/* add this code to a list of ccalls that must be adjusted */
unsigned int i ;
for ( i = 0 ; i < NUMBER_OF_CMPFUNCS ; i + + ) {
if ( cmp_funcs [ i ] . p = = pe ) {
return ( ( CODEADDR ) ( cmp_funcs [ i ] . f ) ) ;
}
}
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Error ( FATAL_ERROR , TermNil , " bad saved state, ccalls corrupted " ) ;
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return ( NULL ) ;
}
/* Restores a prolog clause, in its compiled form */
static void
RestoreClause ( Clause * Cl )
/*
* Cl points to the start of the code , IsolFlag tells if we have a single
* clause for this predicate or not
*/
{
yamop * pc ;
OPREG cl_type = Cl - > ClFlags ;
if ( cl_type = = ApplCl | |
( cl_type = = ListCl & & HeadOfClType ( cl_type ) = = ApplCl ) )
Cl - > u . ClValue = ( CELL ) FuncAdjust ( ( Functor ) ( Cl - > u . ClValue ) ) ;
else if ( ( cl_type = = AtCl | |
( cl_type = = ListCl & & HeadOfClType ( cl_type ) = = AtCl ) ) & &
IsAtomTerm ( Cl - > u . ClValue ) )
Cl - > u . ClValue = AtomTermAdjust ( Cl - > u . ClValue ) ;
/* TO DO: log update semantics */
/* Get the stored operator */
pc = Cl - > ClCode ;
do {
op_numbers op = op_from_opcode ( pc - > opc ) ;
pc - > opc = opcode ( op ) ;
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " %d " , op ) ;
# endif
switch ( op ) {
case _Ystop :
case _Nstop :
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " left OK \n " ) ;
# endif
return ;
/* instructions type ld */
case _try_me :
case _retry_me :
case _trust_me :
case _profiled_retry_me :
case _profiled_trust_me :
case _try_me0 :
case _retry_me0 :
case _trust_me0 :
case _try_me1 :
case _retry_me1 :
case _trust_me1 :
case _try_me2 :
case _retry_me2 :
case _trust_me2 :
case _try_me3 :
case _retry_me3 :
case _trust_me3 :
case _try_me4 :
case _retry_me4 :
case _trust_me4 :
case _spy_or_trymark :
case _try_and_mark :
case _profiled_retry_and_mark :
case _retry_and_mark :
case _try_clause :
case _retry :
case _trust :
case _retry_first :
case _trust_first :
case _retry_tail :
case _trust_tail :
case _retry_head :
case _trust_head :
# ifdef YAPOR
case _getwork :
case _getwork_seq :
case _sync :
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# endif
# ifdef TABLING
case _table_try_me_single :
case _table_try_me :
case _table_retry_me :
case _table_trust_me :
case _table_answer_resolution :
case _table_completion :
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# endif
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pc - > u . ld . p = PtoPredAdjust ( pc - > u . ld . p ) ;
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pc - > u . ld . d = CodeAddrAdjust ( pc - > u . ld . d ) ;
pc = NEXTOP ( pc , ld ) ;
break ;
/* instructions type l */
case _enter_profiling :
case _retry_profiled :
case _try_logical_pred :
case _trust_logical_pred :
case _dealloc_for_logical_pred :
case _execute :
case _dexecute :
case _jump :
case _move_back :
case _skip :
case _try_in :
case _jump_if_var :
pc - > u . l . l = CodeAddrAdjust ( pc - > u . l . l ) ;
pc = NEXTOP ( pc , l ) ;
break ;
/* instructions type EC */
case _alloc_for_logical_pred :
pc - > u . EC . ClBase = CodeAddrAdjust ( pc - > u . EC . ClBase ) ;
pc = NEXTOP ( pc , EC ) ;
break ;
/* instructions type e */
case _trust_fail :
case _op_fail :
case _cut :
case _cut_t :
case _cut_e :
case _procceed :
case _allocate :
case _deallocate :
case _write_void :
case _write_list :
case _write_l_list :
# if !defined(YAPOR)
case _or_last :
# endif
case _pop :
case _index_pred :
case _undef_p :
case _spy_pred :
case _p_equal :
case _p_dif :
case _p_eq :
case _p_functor :
# ifdef YAPOR
case _getwork_first_time :
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# endif
# ifdef TABLING
case _trie_do_var :
case _trie_trust_var :
case _trie_try_var :
case _trie_retry_var :
case _trie_do_val :
case _trie_trust_val :
case _trie_try_val :
case _trie_retry_val :
case _trie_do_atom :
case _trie_trust_atom :
case _trie_try_atom :
case _trie_retry_atom :
case _trie_do_list :
case _trie_trust_list :
case _trie_try_list :
case _trie_retry_list :
case _trie_do_struct :
case _trie_trust_struct :
case _trie_try_struct :
case _trie_retry_struct :
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# endif
pc = NEXTOP ( pc , e ) ;
break ;
/* instructions type x */
case _save_b_x :
case _comit_b_x :
case _get_list :
case _put_list :
case _write_x_var :
case _write_x_val :
case _write_x_loc :
case _p_atom_x :
case _p_atomic_x :
case _p_integer_x :
case _p_nonvar_x :
case _p_number_x :
case _p_var_x :
case _p_db_ref_x :
case _p_primitive_x :
case _p_compound_x :
case _p_float_x :
case _p_cut_by_x :
pc - > u . x . x = XAdjust ( pc - > u . x . x ) ;
pc = NEXTOP ( pc , x ) ;
break ;
/* instructions type y */
case _save_b_y :
case _comit_b_y :
case _write_y_var :
case _write_y_val :
case _write_y_loc :
case _p_atom_y :
case _p_atomic_y :
case _p_integer_y :
case _p_nonvar_y :
case _p_number_y :
case _p_var_y :
case _p_db_ref_y :
case _p_primitive_y :
case _p_compound_y :
case _p_float_y :
case _p_cut_by_y :
pc - > u . y . y = YAdjust ( pc - > u . y . y ) ;
pc = NEXTOP ( pc , y ) ;
break ;
/* instructions type sla */
case _fcall :
case _call :
case _either :
case _or_else :
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case _p_execute :
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case _p_execute_within :
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case _p_last_execute_within :
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# ifdef YAPOR
case _or_last :
# endif
pc - > u . sla . l = CodeAddrAdjust ( pc - > u . sla . l ) ;
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if ( pc - > u . sla . l2 ! = NULL ) {
pc - > u . sla . l2 = CellPtoHeapAdjust ( pc - > u . sla . l2 ) ;
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}
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pc - > u . sla . p = PtoPredAdjust ( pc - > u . sla . p ) ;
pc - > u . sla . p0 = PtoPredAdjust ( pc - > u . sla . p0 ) ;
2001-04-09 20:54:03 +01:00
pc = NEXTOP ( pc , sla ) ;
break ;
/* instructions type sla, but for functions */
case _call_cpred :
case _call_usercpred :
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pc - > u . sla . p = PtoPredAdjust ( pc - > u . sla . p ) ;
pc - > u . sla . p0 = PtoPredAdjust ( pc - > u . sla . p0 ) ;
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pc - > u . sla . l = CCodeAdjust ( ( PredEntry * ) ( pc - > u . sla . p ) ) ;
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if ( pc - > u . sla . l2 ! = NULL ) {
pc - > u . sla . l2 = CellPtoHeapAdjust ( pc - > u . sla . l2 ) ;
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}
pc = NEXTOP ( pc , sla ) ;
break ;
/* instructions type xx */
case _get_x_var :
case _get_x_val :
case _glist_valx :
case _gl_void_varx :
case _gl_void_valx :
case _put_x_var :
case _put_x_val :
pc - > u . xx . xr = XAdjust ( pc - > u . xx . xr ) ;
pc - > u . xx . xl = XAdjust ( pc - > u . xx . xl ) ;
pc = NEXTOP ( pc , xx ) ;
break ;
/* instructions type yx */
case _get_y_var :
case _get_y_val :
case _put_y_var :
case _put_y_val :
case _put_unsafe :
pc - > u . yx . x = XAdjust ( pc - > u . yx . x ) ;
pc - > u . yx . y = YAdjust ( pc - > u . yx . y ) ;
pc = NEXTOP ( pc , yx ) ;
break ;
/* instructions type xc */
case _get_atom :
case _put_atom :
case _get_float :
case _get_longint :
case _get_bigint :
pc - > u . xc . x = XAdjust ( pc - > u . xc . x ) ;
{
Term t = pc - > u . xc . c ;
if ( IsAtomTerm ( t ) )
pc - > u . xc . c = AtomTermAdjust ( t ) ;
else if ( IsApplTerm ( t ) )
pc - > u . xc . c = BlobTermAdjust ( t ) ;
}
pc = NEXTOP ( pc , xc ) ;
break ;
/* instructions type xf */
case _get_struct :
case _put_struct :
pc - > u . xf . x = XAdjust ( pc - > u . xf . x ) ;
pc - > u . xf . f = FuncAdjust ( pc - > u . xf . f ) ;
pc = NEXTOP ( pc , xf ) ;
break ;
/* instructions type xy */
case _glist_valy :
case _gl_void_vary :
case _gl_void_valy :
pc - > u . xy . x = XAdjust ( pc - > u . xy . x ) ;
pc - > u . xy . y = YAdjust ( pc - > u . xy . y ) ;
pc = NEXTOP ( pc , xy ) ;
break ;
/* instructions type ox */
case _unify_x_var :
case _unify_x_var_write :
case _unify_l_x_var :
case _unify_l_x_var_write :
case _unify_x_val_write :
case _unify_x_val :
case _unify_l_x_val_write :
case _unify_l_x_val :
case _unify_x_loc_write :
case _unify_x_loc :
case _unify_l_x_loc_write :
case _unify_l_x_loc :
case _save_pair_x_write :
case _save_pair_x :
case _save_appl_x_write :
case _save_appl_x :
pc - > u . ox . opcw = opcode ( op_from_opcode ( pc - > u . ox . opcw ) ) ;
pc - > u . ox . x = XAdjust ( pc - > u . ox . x ) ;
pc = NEXTOP ( pc , ox ) ;
break ;
/* instructions type oxx */
case _unify_x_var2 :
case _unify_x_var2_write :
case _unify_l_x_var2 :
case _unify_l_x_var2_write :
pc - > u . oxx . opcw = opcode ( op_from_opcode ( pc - > u . oxx . opcw ) ) ;
pc - > u . oxx . xl = XAdjust ( pc - > u . oxx . xl ) ;
pc - > u . oxx . xr = XAdjust ( pc - > u . oxx . xr ) ;
pc = NEXTOP ( pc , oxx ) ;
break ;
/* instructions type oy */
case _unify_y_var :
case _unify_y_var_write :
case _unify_l_y_var :
case _unify_l_y_var_write :
case _unify_y_val_write :
case _unify_y_val :
case _unify_l_y_val_write :
case _unify_l_y_val :
case _unify_y_loc_write :
case _unify_y_loc :
case _unify_l_y_loc_write :
case _unify_l_y_loc :
case _save_pair_y_write :
case _save_pair_y :
case _save_appl_y_write :
case _save_appl_y :
pc - > u . oy . opcw = opcode ( op_from_opcode ( pc - > u . oy . opcw ) ) ;
pc - > u . oy . y = YAdjust ( pc - > u . oy . y ) ;
pc = NEXTOP ( pc , oy ) ;
break ;
/* instructions type o */
case _unify_void_write :
case _unify_void :
case _unify_l_void_write :
case _unify_l_void :
case _unify_list_write :
case _unify_list :
case _unify_l_list_write :
case _unify_l_list :
pc - > u . o . opcw = opcode ( op_from_opcode ( pc - > u . o . opcw ) ) ;
pc = NEXTOP ( pc , o ) ;
break ;
/* instructions type os */
case _unify_n_voids_write :
case _unify_n_voids :
case _unify_l_n_voids_write :
case _unify_l_n_voids :
pc - > u . os . opcw = opcode ( op_from_opcode ( pc - > u . os . opcw ) ) ;
pc = NEXTOP ( pc , os ) ;
break ;
/* instructions type oc */
case _unify_atom_write :
case _unify_atom :
case _unify_l_atom_write :
case _unify_l_atom :
case _unify_float :
case _unify_l_float :
case _unify_longint :
case _unify_l_longint :
case _unify_bigint :
case _unify_l_bigint :
pc - > u . oc . opcw = opcode ( op_from_opcode ( pc - > u . oc . opcw ) ) ;
{
Term t = pc - > u . oc . c ;
if ( IsAtomTerm ( t ) )
pc - > u . oc . c = AtomTermAdjust ( t ) ;
else if ( IsApplTerm ( t ) )
pc - > u . oc . c = BlobTermAdjust ( t ) ;
}
pc = NEXTOP ( pc , oc ) ;
break ;
/* instructions type osc */
case _unify_n_atoms_write :
case _unify_n_atoms :
pc - > u . osc . opcw = opcode ( op_from_opcode ( pc - > u . osc . opcw ) ) ;
{
Term t = pc - > u . osc . c ;
if ( IsAtomTerm ( t ) )
pc - > u . osc . c = AtomTermAdjust ( t ) ;
}
pc = NEXTOP ( pc , osc ) ;
break ;
/* instructions type of */
case _unify_struct_write :
case _unify_struct :
case _unify_l_struc_write :
case _unify_l_struc :
pc - > u . of . opcw = opcode ( op_from_opcode ( pc - > u . of . opcw ) ) ;
pc - > u . of . f = FuncAdjust ( pc - > u . of . f ) ;
pc = NEXTOP ( pc , of ) ;
break ;
/* instructions type s */
case _write_n_voids :
case _pop_n :
2001-07-16 16:26:14 +01:00
# ifdef TABLING
case _table_new_answer :
# endif
2001-04-09 20:54:03 +01:00
pc = NEXTOP ( pc , s ) ;
break ;
/* instructions type c */
case _write_atom :
{
Term t = pc - > u . c . c ;
if ( IsAtomTerm ( t ) )
pc - > u . c . c = AtomTermAdjust ( t ) ;
else if ( IsApplTerm ( t ) )
pc - > u . c . c = BlobTermAdjust ( t ) ;
}
pc = NEXTOP ( pc , c ) ;
break ;
/* instructions type sc */
case _write_n_atoms :
{
Term t = pc - > u . sc . c ;
if ( IsAtomTerm ( t ) )
pc - > u . sc . c = AtomTermAdjust ( t ) ;
}
pc = NEXTOP ( pc , sc ) ;
break ;
/* instructions type f */
case _write_struct :
case _write_l_struc :
pc - > u . f . f = FuncAdjust ( pc - > u . f . f ) ;
pc = NEXTOP ( pc , f ) ;
break ;
/* instructions type sdl */
case _call_c_wfail :
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pc - > u . sdl . p = PtoPredAdjust ( pc - > u . sdl . p ) ;
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pc - > u . sdl . l = CodeAddrAdjust ( pc - > u . sdl . l ) ;
pc - > u . sdl . d = CCodeAdjust ( ( PredEntry * ) ( pc - > u . sdl . p ) ) ;
pc = NEXTOP ( pc , sdl ) ;
break ;
/* instructions type lds */
case _try_c :
case _try_userc :
/* don't need to do no nothing here, initstaff will do it for us
*/
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pc - > u . lds . p = PtoPredAdjust ( pc - > u . lds . p ) ;
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pc - > u . lds . d = CCodeAdjust ( ( PredEntry * ) ( pc - > u . lds . p ) ) ;
pc = NEXTOP ( pc , lds ) ;
break ;
case _retry_c :
case _retry_userc :
/* don't need to do no nothing here, initstaff will do it for us
pc - > u . lds . d = CCodeAdjust ( pc - > u . lds . d ) ; */
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pc - > u . lds . p = PtoPredAdjust ( pc - > u . lds . p ) ;
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pc - > u . lds . d = NextCCodeAdjust ( ( PredEntry * ) ( pc - > u . lds . p ) ) ;
pc = NEXTOP ( pc , lds ) ;
break ;
/* instructions type ldl */
case _trust_in :
case _trust_first_in :
case _trust_tail_in :
case _trust_head_in :
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pc - > u . ldl . p = PtoPredAdjust ( pc - > u . ldl . p ) ;
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pc - > u . ldl . d = CodeAddrAdjust ( pc - > u . ldl . d ) ;
pc - > u . ldl . bl = CodeAddrAdjust ( pc - > u . ldl . bl ) ;
pc = NEXTOP ( pc , ldl ) ;
break ;
/* instructions type llll */
case _switch_on_type :
case _switch_list_nl :
case _switch_on_head :
pc - > u . llll . l1 = CodeAddrAdjust ( pc - > u . llll . l1 ) ;
pc - > u . llll . l2 = CodeAddrAdjust ( pc - > u . llll . l2 ) ;
pc - > u . llll . l3 = CodeAddrAdjust ( pc - > u . llll . l3 ) ;
pc - > u . llll . l4 = CodeAddrAdjust ( pc - > u . llll . l4 ) ;
pc = NEXTOP ( pc , llll ) ;
break ;
/* instructions type lll */
case _switch_on_nonv :
case _switch_nv_list :
pc - > u . lll . l1 = CodeAddrAdjust ( pc - > u . lll . l1 ) ;
pc - > u . lll . l2 = CodeAddrAdjust ( pc - > u . lll . l2 ) ;
pc - > u . lll . l3 = CodeAddrAdjust ( pc - > u . lll . l3 ) ;
pc = NEXTOP ( pc , lll ) ;
break ;
/* instructions type cll */
case _if_not_then :
{
Term t = pc - > u . cll . c ;
if ( IsAtomTerm ( t ) )
pc - > u . cll . c = AtomTermAdjust ( t ) ;
}
pc - > u . cll . l1 = CodeAddrAdjust ( pc - > u . cll . l1 ) ;
pc - > u . cll . l2 = CodeAddrAdjust ( pc - > u . cll . l2 ) ;
pc = NEXTOP ( pc , cll ) ;
break ;
/* instructions type ollll */
case _switch_list_nl_prefetch :
pc - > u . ollll . pop = opcode ( op_from_opcode ( pc - > u . ollll . pop ) ) ;
pc - > u . ollll . l1 = CodeAddrAdjust ( pc - > u . ollll . l1 ) ;
pc - > u . ollll . l2 = CodeAddrAdjust ( pc - > u . ollll . l2 ) ;
pc - > u . ollll . l3 = CodeAddrAdjust ( pc - > u . ollll . l3 ) ;
pc - > u . ollll . l4 = CodeAddrAdjust ( pc - > u . ollll . l4 ) ;
pc = NEXTOP ( pc , ollll ) ;
break ;
/* switch_on_func */
case _switch_on_func :
{
int i , j ;
CELL * oldcode , * startcode ;
i = pc - > u . s . s ;
startcode = oldcode = ( CELL * ) NEXTOP ( pc , s ) ;
for ( j = 0 ; j < i ; + + j ) {
Functor oldfunc = ( Functor ) ( oldcode [ 0 ] ) ;
CODEADDR oldjmp = ( CODEADDR ) ( oldcode [ 1 ] ) ;
if ( oldfunc ! = NULL ) {
oldcode [ 0 ] = ( CELL ) FuncAdjust ( oldfunc ) ;
}
oldcode [ 1 ] = ( CELL ) CodeAddrAdjust ( oldjmp ) ;
oldcode + = 2 ;
}
rehash ( startcode , i , Funcs ) ;
pc = ( yamop * ) oldcode ;
}
break ;
/* switch_on_cons */
case _switch_on_cons :
{
int i , j ;
CELL * oldcode ;
# if !USE_OFFSETS
CELL * startcode ;
# endif
i = pc - > u . s . s ;
# if !USE_OFFSETS
startcode =
# endif
oldcode = ( CELL * ) NEXTOP ( pc , s ) ;
for ( j = 0 ; j < i ; + + j ) {
# if !USE_OFFSETS
Term oldatom = oldcode [ 0 ] ;
# endif
CODEADDR oldjmp = ( CODEADDR ) ( oldcode [ 1 ] ) ;
# if !USE_OFFSETS
if ( oldatom ! = 0x0 ) {
oldcode [ 0 ] = AtomTermAdjust ( oldatom ) ;
}
# endif
oldcode [ 1 ] = ( CELL ) CodeAddrAdjust ( oldjmp ) ;
oldcode + = 2 ;
}
# if !USE_OFFSETS
rehash ( startcode , i , Atomics ) ;
# endif
pc = ( yamop * ) oldcode ;
}
break ;
/* instructions type fll */
case _go_on_func :
pc - > u . fll . f = FuncAdjust ( pc - > u . fll . f ) ;
pc - > u . fll . l1 = CodeAddrAdjust ( pc - > u . fll . l1 ) ;
pc - > u . fll . l2 = CodeAddrAdjust ( pc - > u . fll . l2 ) ;
pc = NEXTOP ( pc , fll ) ;
break ;
/* instructions type cll */
case _go_on_cons :
if ( IsAtomTerm ( pc - > u . cll . c ) )
pc - > u . cll . c = AtomTermAdjust ( pc - > u . cll . c ) ;
pc - > u . cll . l1 = CodeAddrAdjust ( pc - > u . cll . l1 ) ;
pc - > u . cll . l2 = CodeAddrAdjust ( pc - > u . cll . l2 ) ;
pc = NEXTOP ( pc , cll ) ;
break ;
/* instructions type sl */
case _if_func :
{
int i , j ;
CELL * oldcode ;
i = pc - > u . s . s ;
pc - > u . sl . l = CodeAddrAdjust ( pc - > u . sl . l ) ;
oldcode = ( CELL * ) NEXTOP ( pc , sl ) ;
for ( j = 0 ; j < i ; + + j ) {
Functor oldfunc = ( Functor ) ( oldcode [ 0 ] ) ;
CODEADDR oldjmp = ( CODEADDR ) ( oldcode [ 1 ] ) ;
if ( oldfunc ! = NULL ) {
oldcode [ 0 ] = ( CELL ) FuncAdjust ( oldfunc ) ;
}
oldcode [ 1 ] = ( CELL ) CodeAddrAdjust ( oldjmp ) ;
oldcode + = 2 ;
pc = ( yamop * ) oldcode ;
}
}
break ;
case _if_cons :
{
int i , j ;
CELL * oldcode ;
i = pc - > u . sl . s ;
pc - > u . sl . l = CodeAddrAdjust ( pc - > u . sl . l ) ;
oldcode = ( CELL * ) NEXTOP ( pc , sl ) ;
for ( j = 0 ; j < i ; + + j ) {
# if !USE_OFFSETS
Term oldatom = oldcode [ 0 ] ;
# endif
CODEADDR oldjmp = ( CODEADDR ) ( oldcode [ 1 ] ) ;
# if !USE_OFFSETS
if ( oldatom ! = 0x0 ) {
oldcode [ 0 ] = AtomTermAdjust ( oldatom ) ;
}
# endif
oldcode [ 1 ] = ( CELL ) CodeAddrAdjust ( oldjmp ) ;
oldcode + = 2 ;
}
pc = ( yamop * ) oldcode ;
}
break ;
/* instructions type slll */
case _switch_last :
case _switch_l_list :
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pc - > u . slll . p = PtoPredAdjust ( pc - > u . slll . p ) ;
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pc - > u . slll . l1 = CodeAddrAdjust ( pc - > u . slll . l1 ) ;
pc - > u . slll . l2 = CodeAddrAdjust ( pc - > u . slll . l2 ) ;
pc - > u . slll . l3 = CodeAddrAdjust ( pc - > u . slll . l3 ) ;
pc = NEXTOP ( pc , slll ) ;
break ;
/* instructions type xxx */
case _p_plus_vv :
case _p_minus_vv :
case _p_times_vv :
case _p_div_vv :
case _p_and_vv :
case _p_or_vv :
case _p_sll_vv :
case _p_slr_vv :
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case _p_arg_vv :
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case _p_func2s_vv :
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case _p_func2f_xx :
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pc - > u . xxx . x = XAdjust ( pc - > u . xxx . x ) ;
pc - > u . xxx . x1 = XAdjust ( pc - > u . xxx . x1 ) ;
pc - > u . xxx . x2 = XAdjust ( pc - > u . xxx . x2 ) ;
pc = NEXTOP ( pc , xxx ) ;
break ;
/* instructions type xxc */
case _p_plus_vc :
case _p_minus_cv :
case _p_times_vc :
case _p_div_cv :
case _p_and_vc :
case _p_or_vc :
case _p_sll_vc :
case _p_slr_vc :
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case _p_func2s_vc :
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pc - > u . xxc . x = XAdjust ( pc - > u . xxc . x ) ;
if ( IsAtomTerm ( pc - > u . xxc . c ) )
pc - > u . xxc . c = AtomTermAdjust ( pc - > u . xxc . c ) ;
pc - > u . xxc . xi = XAdjust ( pc - > u . xxc . xi ) ;
pc = NEXTOP ( pc , xxc ) ;
break ;
case _p_div_vc :
case _p_sll_cv :
case _p_slr_cv :
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case _p_arg_cv :
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pc - > u . xcx . x = XAdjust ( pc - > u . xcx . x ) ;
pc - > u . xcx . xi = XAdjust ( pc - > u . xcx . xi ) ;
pc = NEXTOP ( pc , xcx ) ;
break ;
case _p_func2s_cv :
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pc - > u . xcx . x = XAdjust ( pc - > u . xcx . x ) ;
if ( IsAtomTerm ( pc - > u . xcx . c ) )
pc - > u . xcx . c = AtomTermAdjust ( pc - > u . xcx . c ) ;
pc - > u . xcx . xi = XAdjust ( pc - > u . xcx . xi ) ;
pc = NEXTOP ( pc , xcx ) ;
break ;
2001-04-25 21:31:00 +01:00
/* instructions type xyx */
case _p_func2f_xy :
pc - > u . xyx . x = XAdjust ( pc - > u . xyx . x ) ;
pc - > u . xyx . x1 = XAdjust ( pc - > u . xyx . x1 ) ;
pc - > u . xyx . y2 = YAdjust ( pc - > u . xyx . y2 ) ;
pc = NEXTOP ( pc , xyx ) ;
break ;
2001-04-09 20:54:03 +01:00
/* instructions type yxx */
case _p_plus_y_vv :
case _p_minus_y_vv :
case _p_times_y_vv :
case _p_div_y_vv :
case _p_and_y_vv :
case _p_or_y_vv :
case _p_sll_y_vv :
case _p_slr_y_vv :
2001-04-20 16:48:04 +01:00
case _p_arg_y_vv :
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case _p_func2s_y_vv :
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case _p_func2f_yx :
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pc - > u . yxx . y = YAdjust ( pc - > u . yxx . y ) ;
pc - > u . yxx . x1 = XAdjust ( pc - > u . yxx . x1 ) ;
pc - > u . yxx . x2 = XAdjust ( pc - > u . yxx . x2 ) ;
pc = NEXTOP ( pc , yxx ) ;
break ;
2001-04-25 21:31:00 +01:00
/* instructions type yyx */
case _p_func2f_yy :
pc - > u . yyx . y1 = YAdjust ( pc - > u . yyx . y1 ) ;
pc - > u . yyx . y2 = YAdjust ( pc - > u . yyx . y2 ) ;
pc - > u . yyx . x = XAdjust ( pc - > u . yyx . x ) ;
pc = NEXTOP ( pc , yyx ) ;
break ;
2001-04-09 20:54:03 +01:00
/* instructions type yxc */
case _p_plus_y_vc :
case _p_minus_y_cv :
case _p_times_y_vc :
case _p_div_y_vc :
case _p_div_y_cv :
case _p_and_y_vc :
case _p_or_y_vc :
case _p_sll_y_vc :
case _p_slr_y_vc :
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case _p_func2s_y_vc :
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pc - > u . yxc . y = YAdjust ( pc - > u . yxc . y ) ;
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pc - > u . yxc . c = AtomTermAdjust ( pc - > u . yxc . c ) ;
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pc - > u . yxc . xi = XAdjust ( pc - > u . yxc . xi ) ;
pc = NEXTOP ( pc , yxc ) ;
break ;
/* instructions type ycx */
case _p_sll_y_cv :
case _p_slr_y_cv :
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case _p_arg_y_cv :
2001-04-23 21:41:58 +01:00
pc - > u . ycx . y = YAdjust ( pc - > u . ycx . y ) ;
pc - > u . ycx . xi = XAdjust ( pc - > u . ycx . xi ) ;
pc = NEXTOP ( pc , ycx ) ;
break ;
/* instructions type lxx */
case _p_func2s_y_cv :
2001-04-09 20:54:03 +01:00
pc - > u . ycx . y = YAdjust ( pc - > u . ycx . y ) ;
if ( IsAtomTerm ( pc - > u . ycx . c ) )
pc - > u . ycx . c = AtomTermAdjust ( pc - > u . ycx . c ) ;
pc - > u . ycx . xi = XAdjust ( pc - > u . ycx . xi ) ;
pc = NEXTOP ( pc , ycx ) ;
break ;
/* instructions type lxx */
case _call_bfunc_xx :
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pc - > u . lxx . p = PtoPredAdjust ( pc - > u . lxx . p ) ;
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pc - > u . lxx . l = DirectCCodeAdjust ( ( PredEntry * ) ( pc - > u . lxx . p ) ) ;
pc - > u . lxx . x1 = XAdjust ( pc - > u . lxx . x1 ) ;
pc - > u . lxx . x2 = XAdjust ( pc - > u . lxx . x2 ) ;
pc = NEXTOP ( pc , lxx ) ;
break ;
/* instructions type lxy */
case _call_bfunc_yx :
case _call_bfunc_xy :
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pc - > u . lxy . p = PtoPredAdjust ( pc - > u . lxy . p ) ;
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pc - > u . lxy . l = DirectCCodeAdjust ( ( PredEntry * ) ( pc - > u . lxy . p ) ) ;
pc - > u . lxy . x = XAdjust ( pc - > u . lxy . x ) ;
pc - > u . lxy . y = YAdjust ( pc - > u . lxy . y ) ;
pc = NEXTOP ( pc , lxy ) ;
break ;
case _call_bfunc_yy :
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pc - > u . lyy . p = PtoPredAdjust ( pc - > u . lyy . p ) ;
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pc - > u . lyy . l = DirectCCodeAdjust ( ( PredEntry * ) ( pc - > u . lyy . p ) ) ;
pc - > u . lyy . y1 = YAdjust ( pc - > u . lyy . y1 ) ;
pc - > u . lyy . y2 = YAdjust ( pc - > u . lyy . y2 ) ;
pc = NEXTOP ( pc , lyy ) ;
break ;
}
} while ( TRUE ) ;
}
/*
* Restores a group of clauses for the same predicate , starting with First
* and ending with Last , First may be equal to Last
*/
static void
CleanClauses ( CODEADDR First , CODEADDR Last )
{
CODEADDR cl = First ;
do {
RestoreClause ( ClauseCodeToClause ( cl ) ) ;
if ( cl = = Last ) return ;
cl = NextClause ( cl ) ;
} while ( TRUE ) ;
}
static void
restore_static_array ( StaticArrayEntry * ae )
{
Int sz = - ae - > ArrayEArity ;
switch ( ae - > ArrayType ) {
case array_of_ints :
case array_of_doubles :
case array_of_chars :
case array_of_uchars :
return ;
case array_of_ptrs :
{
AtomEntry * * base = ( AtomEntry * * ) AddrAdjust ( ( ADDR ) ( ae - > ValueOfVE . ptrs ) ) ;
Int i ;
ae - > ValueOfVE . ptrs = base ;
if ( ae ! = NULL ) {
for ( i = 0 ; i < sz ; i + + ) {
AtomEntry * reg = * base ;
if ( reg = = NULL ) {
base + + ;
} else if ( IsOldCode ( ( CELL ) reg ) ) {
* base + + = AtomEntryAdjust ( reg ) ;
} else if ( IsOldLocalInTR ( ( CELL ) reg ) ) {
* base + + = ( AtomEntry * ) LocalAddrAdjust ( ( ADDR ) reg ) ;
} else if ( IsOldGlobal ( ( CELL ) reg ) ) {
* base + + = ( AtomEntry * ) GlobalAddrAdjust ( ( ADDR ) reg ) ;
} else if ( IsOldDelay ( ( CELL ) reg ) ) {
* base + + = ( AtomEntry * ) DelayAddrAdjust ( ( ADDR ) reg ) ;
} else if ( IsOldTrail ( ( CELL ) reg ) ) {
* base + + = ( AtomEntry * ) TrailAddrAdjust ( ( ADDR ) reg ) ;
} else {
/* oops */
base + + ;
}
}
}
}
return ;
case array_of_atoms :
{
Term * base = ( Term * ) AddrAdjust ( ( ADDR ) ( ae - > ValueOfVE . atoms ) ) ;
Int i ;
ae - > ValueOfVE . atoms = base ;
if ( ae ! = 0L ) {
for ( i = 0 ; i < sz ; i + + ) {
Term reg = * base ;
if ( reg = = 0L ) {
base + + ;
} else {
* base + + = AtomTermAdjust ( reg ) ;
}
}
}
}
return ;
case array_of_dbrefs :
{
Term * base = ( Term * ) AddrAdjust ( ( ADDR ) ( ae - > ValueOfVE . dbrefs ) ) ;
Int i ;
ae - > ValueOfVE . dbrefs = base ;
if ( ae ! = 0L ) {
for ( i = 0 ; i < sz ; i + + ) {
Term reg = * base ;
if ( reg = = 0L ) {
base + + ;
} else {
* base + + = AbsAppl ( PtoHeapCellAdjust ( RepAppl ( reg ) ) ) ;
}
}
}
}
return ;
case array_of_terms :
{
DBRef * base = ( DBRef * ) AddrAdjust ( ( ADDR ) ( ae - > ValueOfVE . terms ) ) ;
Int i ;
ae - > ValueOfVE . terms = base ;
if ( ae ! = 0L ) {
for ( i = 0 ; i < sz ; i + + ) {
DBRef reg = * base ;
if ( reg = = NULL ) {
base + + ;
} else {
* base + + = reg = DBRefAdjust ( reg ) ;
RestoreDBEntry ( reg ) ;
}
}
}
}
return ;
}
}
/*
* Clean all the code for a particular predicate , this can get a bit tricky ,
* because of the indexing code
*/
static void
CleanCode ( PredEntry * pp )
{
CELL flag ;
CODEADDR FirstC , LastC ;
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2001-04-09 20:54:03 +01:00
/* Init takes care of the first 2 cases */
2001-10-30 16:42:05 +00:00
if ( pp - > ArityOfPE )
pp - > FunctorOfPred = FuncAdjust ( pp - > FunctorOfPred ) ;
else
pp - > FunctorOfPred = ( Functor ) AtomAdjust ( ( Atom ) ( pp - > FunctorOfPred ) ) ;
2001-04-09 20:54:03 +01:00
if ( pp - > OwnerFile )
pp - > OwnerFile = AtomAdjust ( pp - > OwnerFile ) ;
pp - > OpcodeOfPred = opcode ( op_from_opcode ( pp - > OpcodeOfPred ) ) ;
if ( pp - > PredFlags & ( CPredFlag | BasicPredFlag ) ) {
if ( pp - > CodeOfPred ! = NULL ) {
if ( pp - > CodeOfPred = = pp - > TrueCodeOfPred ) {
if ( pp - > PredFlags & CPredFlag )
/* C, assembly + C */
pp - > CodeOfPred = pp - > TrueCodeOfPred = CCodeAdjust ( pp ) ;
else
/* assembly */
pp - > CodeOfPred = ( CODEADDR ) AddrAdjust ( ( ADDR ) ( pp - > CodeOfPred ) ) ;
} else {
/* comparison */
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if ( pp - > PredFlags & BinaryTestPredFlag ) {
pp - > CodeOfPred = CCodeAdjust ( pp ) ;
pp - > TrueCodeOfPred = DirectCCodeAdjust ( pp ) ;
}
2001-04-09 20:54:03 +01:00
}
}
} else {
if ( pp - > FirstClause )
pp - > FirstClause = CodeAddrAdjust ( pp - > FirstClause ) ;
if ( pp - > LastClause )
pp - > LastClause = CodeAddrAdjust ( pp - > LastClause ) ;
pp - > CodeOfPred = CodeAddrAdjust ( pp - > CodeOfPred ) ;
pp - > TrueCodeOfPred = CodeAddrAdjust ( pp - > TrueCodeOfPred ) ;
flag = pp - > PredFlags ;
FirstC = pp - > FirstClause ;
LastC = pp - > LastClause ;
/* We just have a fail here */
if ( FirstC = = NIL & & LastC = = NIL ) {
return ;
}
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " at %lx Correcting clauses from %lx to %lx \n " , * ( OPCODE * ) FirstC , FirstC , LastC ) ;
# endif
CleanClauses ( FirstC , LastC ) ;
if ( flag & ( DynamicPredFlag | IndexedPredFlag ) ) {
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " Correcting dynamic/indexed code \n " ) ;
# endif
RestoreClause ( ClauseCodeToClause ( pp - > TrueCodeOfPred ) ) ;
}
}
/* we are pointing at ourselves */
}
/*
* Restores all of the entries , for a particular atom , we only have problems
* if we find code or data bases
*/
static void
RestoreEntries ( PropEntry * pp )
{
while ( ! EndOfPAEntr ( pp ) ) {
switch ( pp - > KindOfPE ) {
case FunctorProperty :
{
FunctorEntry * fe = ( FunctorEntry * ) pp ;
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Prop p0 ;
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fe - > NameOfFE =
AtomAdjust ( fe - > NameOfFE ) ;
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p0 = fe - > PropsOfFE ;
while ( ! EndOfPAEntr ( p0 ) ) {
CleanCode ( RepPredProp ( p0 ) ) ;
p0 = RepPredProp ( p0 ) - > NextOfPE ;
}
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}
break ;
case ValProperty :
{
ValEntry * ve = ( ValEntry * ) pp ;
Term tv = ve - > ValueOfVE ;
if ( IsAtomTerm ( tv ) )
ve - > ValueOfVE = AtomTermAdjust ( tv ) ;
}
break ;
case ArrayProperty :
{
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ArrayEntry * ae = ( ArrayEntry * ) pp ;
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if ( ae - > ArrayEArity < 0 ) {
restore_static_array ( ( StaticArrayEntry * ) ae ) ;
} else {
if ( IsVarTerm ( ae - > ValueOfVE ) )
RESET_VARIABLE ( & ( ae - > ValueOfVE ) ) ;
else {
CELL * ptr = RepAppl ( ae - > ValueOfVE ) ;
/* in fact it should just be a pointer to the global,
but we ' ll be conservative .
Notice that the variable should have been reset in restore_program mode .
*/
if ( IsOldGlobalPtr ( ptr ) ) {
ae - > ValueOfVE = AbsAppl ( PtoGloAdjust ( ptr ) ) ;
} else if ( IsOldCodeCellPtr ( ptr ) ) {
ae - > ValueOfVE = AbsAppl ( PtoHeapCellAdjust ( ptr ) ) ;
} else if ( IsOldLocalInTRPtr ( ptr ) ) {
ae - > ValueOfVE = AbsAppl ( PtoLocAdjust ( ptr ) ) ;
} else if ( IsOldDelayPtr ( ptr ) ) {
ae - > ValueOfVE = AbsAppl ( PtoDelayAdjust ( ptr ) ) ;
} else if ( IsOldTrailPtr ( ptr ) ) {
ae - > ValueOfVE = AbsAppl ( CellPtoTRAdjust ( ptr ) ) ;
}
}
}
}
break ;
case PEProp :
CleanCode ( ( PredEntry * ) pp ) ;
break ;
case DBProperty :
case LogUpdDBProperty :
case CodeLogUpdDBProperty :
case CodeDBProperty :
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " Correcting data base clause at %p \n " , pp ) ;
# endif
if ( HDiff )
RestoreDB ( ( DBEntry * ) pp ) ;
break ;
case BBProperty :
if ( HDiff )
RestoreBB ( ( BlackBoardEntry * ) pp ) ;
break ;
case ExpProperty :
case OpProperty :
case ModProperty :
/* do nothing */
break ;
default :
/* OOPS */
Error ( SYSTEM_ERROR , TermNil ,
" Invalid Atom Property at %p " , pp ) ;
return ;
}
pp = RepProp ( pp - > NextOfPE ) ;
}
}
/* restore the atom entries which are invisible for the user */
static void
RestoreInvisibleAtoms ( void )
{
AtomEntry * at ;
Atom atm = INVISIBLECHAIN . Entry ;
INVISIBLECHAIN . Entry = atm = AtomAdjust ( atm ) ;
at = RepAtom ( atm ) ;
if ( EndOfPAEntr ( at ) )
return ;
do {
# ifdef DEBUG_RESTORE2 /* useful during debug */
YP_fprintf ( errout , " Restoring %s \n " , at - > StrOfAE ) ;
# endif
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RestoreEntries ( RepProp ( at - > PropsOfAE ) ) ;
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atm = at - > NextOfAE ;
at - > NextOfAE = atm = AtomAdjust ( atm ) ;
at = RepAtom ( atm ) ;
}
while ( ! EndOfPAEntr ( at ) ) ;
}
/* restore the atom entries which are invisible for the user */
static void
RestoreForeignCodeStructure ( void )
{
ForeignObj * f_code ;
if ( ForeignCodeLoaded ! = NULL )
ForeignCodeLoaded = ( void * ) AddrAdjust ( ( ADDR ) ForeignCodeLoaded ) ;
f_code = ForeignCodeLoaded ;
while ( f_code ! = NULL ) {
StringList objs , libs ;
if ( f_code - > objs ! = NULL )
f_code - > objs = ( StringList ) AddrAdjust ( ( ADDR ) f_code - > objs ) ;
objs = f_code - > objs ;
while ( objs ! = NULL ) {
if ( objs - > next ! = NULL )
objs - > next = ( StringList ) AddrAdjust ( ( ADDR ) objs - > next ) ;
if ( objs - > s ! = NULL )
objs - > s = ( char * ) AddrAdjust ( ( ADDR ) objs - > s ) ;
objs = objs - > next ;
}
if ( f_code - > libs ! = NULL )
f_code - > libs = ( StringList ) AddrAdjust ( ( ADDR ) f_code - > libs ) ;
libs = f_code - > libs ;
while ( libs ! = NULL ) {
if ( libs - > next ! = NULL )
libs - > next = ( StringList ) AddrAdjust ( ( ADDR ) libs - > next ) ;
if ( libs - > s ! = NULL )
libs - > s = ( char * ) AddrAdjust ( ( ADDR ) libs - > s ) ;
libs = libs - > next ;
}
if ( f_code - > f ! = NULL )
f_code - > f = ( char * ) AddrAdjust ( ( ADDR ) f_code - > f ) ;
if ( f_code - > next ! = NULL )
f_code - > next = ( ForeignObj * ) AddrAdjust ( ( ADDR ) f_code - > f ) ;
f_code = f_code - > next ;
}
}
/* restores the list of free space, with its curious structure */
static void
RestoreFreeSpace ( void )
{
register BlockHeader * bpt , * bsz ;
if ( FreeBlocks ! = NULL )
FreeBlocks = BlockAdjust ( FreeBlocks ) ;
bpt = FreeBlocks ;
while ( bpt ! = NULL ) {
if ( bpt - > b_next ! = NULL ) {
bsz = bpt - > b_next = BlockAdjust ( bpt - > b_next ) ;
while ( bsz ! = NULL ) {
if ( bsz - > b_next_size ! = NULL )
bsz - > b_next_size = BlockAdjust ( bsz - > b_next_size ) ;
if ( bsz - > b_next ! = NULL )
bsz - > b_next = BlockAdjust ( bsz - > b_next ) ;
bsz = bsz - > b_next ;
}
}
if ( bpt - > b_next_size ! = NULL )
bpt - > b_next_size = BlockAdjust ( bpt - > b_next_size ) ;
bpt = bpt - > b_next_size ;
}
* ( ( YAP_SEG_SIZE * ) HeapTop ) = InUseFlag ;
}
/*
* This is the really tough part , to restore the whole of the heap
*/
static void
restore_heap ( void )
{
AtomHashEntry * HashPtr = HashChain ;
register int i ;
for ( i = 0 ; i < MaxHash ; + + i ) {
Atom atm = HashPtr - > Entry ;
if ( atm ) {
AtomEntry * at ;
HashPtr - > Entry = atm = AtomAdjust ( atm ) ;
at = RepAtom ( atm ) ;
do {
# ifdef DEBUG_RESTORE2 /* useful during debug */
YP_fprintf ( errout , " Restoring %s \n " , at - > StrOfAE ) ;
# endif
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RestoreEntries ( RepProp ( at - > PropsOfAE ) ) ;
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atm = at - > NextOfAE = AtomAdjust ( at - > NextOfAE ) ;
at = RepAtom ( atm ) ;
} while ( ! EndOfPAEntr ( at ) ) ;
}
HashPtr + + ;
}
RestoreInvisibleAtoms ( ) ;
RestoreForeignCodeStructure ( ) ;
}
# ifdef DEBUG_RESTORE3
static void
ShowEntries ( pp )
PropEntry * pp ;
{
while ( ! EndOfPAEntr ( pp ) ) {
YP_fprintf ( YP_stderr , " Estou a ver a prop %x em %x \n " , pp - > KindOfPE , pp ) ;
pp = RepProp ( pp - > NextOfPE ) ;
}
}
static void
ShowAtoms ( )
{
AtomHashEntry * HashPtr = HashChain ;
register int i ;
for ( i = 0 ; i < MaxHash ; + + i ) {
if ( HashPtr - > Entry ! = NIL ) {
AtomEntry * at ;
at = RepAtom ( HashPtr - > Entry ) ;
do {
YP_fprintf ( YP_stderr , " Passei ao %s em %x \n " , at - > StrOfAE , at ) ;
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ShowEntries ( RepProp ( at - > PropsOfAE ) ) ;
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} while ( ! EndOfPAEntr ( at = RepAtom ( at - > NextOfAE ) ) ) ;
}
HashPtr + + ;
}
}
# endif /* DEBUG_RESTORE3 */
# include <stdio.h>
static int
OpenRestore ( char * s )
{
int mode ;
/* if (strcmp(s, StartUpFile) == 0)
YP_fprintf ( YP_stderr , " [ YAP version %s ] \n \n " , version_number ) ; */
CloseStreams ( TRUE ) ;
if ( ( splfild = open_file ( s , O_RDONLY ) ) < 0 ) {
if ( ! dir_separator ( s [ 0 ] ) & & ! volume_header ( s ) ) {
/*
we have a relative path for the file , try to do somewhat better
using YAPLIBDIR or friends .
*/
if ( Yap_LibDir ! = NULL ) {
strncpy ( FileNameBuf , Yap_LibDir , YAP_FILENAME_MAX ) ;
# if HAVE_GETENV
} else {
char * yap_env = getenv ( " YAPLIBDIR " ) ;
if ( yap_env ! = NULL ) {
strncpy ( FileNameBuf , yap_env , YAP_FILENAME_MAX ) ;
# endif
} else {
strncpy ( FileNameBuf , LIB_DIR , YAP_FILENAME_MAX ) ;
}
# if HAVE_GETENV
}
# endif
# if _MSC_VER || defined(__MINGW32__)
strncat ( FileNameBuf , " \\ " , YAP_FILENAME_MAX ) ;
# else
strncat ( FileNameBuf , " / " , YAP_FILENAME_MAX ) ;
# endif
strncat ( FileNameBuf , s , YAP_FILENAME_MAX ) ;
if ( ( splfild = open_file ( FileNameBuf , O_RDONLY ) ) < 0 ) {
if ( PrologMode ! = BootMode ) {
Error ( SYSTEM_ERROR , MkAtomTerm ( LookupAtom ( s ) ) ,
" save/1, open(%s) " , strerror ( errno ) ) ;
}
return ( FAIL_RESTORE ) ;
}
} else {
return ( FAIL_RESTORE ) ;
}
}
PrologMode = BootMode ;
if ( ( mode = check_header ( ) ) = = FAIL_RESTORE )
return ( FAIL_RESTORE ) ;
if ( ! yap_flags [ HALT_AFTER_CONSULT_FLAG ] ) {
YP_fprintf ( YP_stderr , " [ Restoring file %s ] \n " , s ) ;
}
# ifdef DEBUG_RESTORE4
/*
* This should be another file , like the log file
*/
errout = YP_stderr ;
# endif
return ( mode ) ;
}
static void
CloseRestore ( void )
{
# ifdef DEBUG_RESTORE3
ShowAtoms ( ) ;
# endif
close_file ( ) ;
PrologMode = UserMode ;
}
static int
check_opcodes ( OPCODE old_ops [ ] )
{
# if USE_THREADED_CODE
int have_shifted = FALSE ;
op_numbers op = _Ystop ;
for ( op = _Ystop ; op < _std_top ; op + + ) {
if ( opcode ( op ) ! = old_ops [ op ] ) {
have_shifted = TRUE ;
break ;
}
}
return ( have_shifted ) ;
# else
return ( FALSE ) ;
# endif
}
static void
RestoreHeap ( OPCODE old_ops [ ] , int functions_moved )
{
int heap_moved = ( OldHeapBase ! = HeapBase ) , opcodes_moved ;
opcodes_moved = check_opcodes ( old_ops ) ;
/* opcodes_moved has side-effects and should be tried first */
if ( heap_moved | | opcodes_moved | | functions_moved ) {
restore_heap ( ) ;
}
/* This must be done after restore_heap */
if ( heap_moved ) {
RestoreFreeSpace ( ) ;
}
InitAbsmi ( ) ;
if ( ! ( ReInitConstExps ( ) & & ReInitUnaryExps ( ) & & ReInitBinaryExps ( ) ) )
Error ( SYSTEM_ERROR , TermNil , " arithmetic operator not in saved state " ) ;
# ifdef DEBUG_RESTORE1
YP_fprintf ( errout , " phase 1 done \n " ) ;
# endif
}
/*
* This function is called to know about the parameters of the last saved
* state
*/
int
SavedInfo ( char * FileName , int * ATrail , int * AStack , int * AHeap , char * YapLibDir )
{
char pp [ 80 ] ;
char msg [ 256 ] ;
char NameBuf [ YAP_FILENAME_MAX ] ;
int result , mode ;
if ( ( splfild = open_file ( FileName , O_RDONLY ) ) < 0 ) {
if ( ! dir_separator ( FileName [ 0 ] ) & & ! volume_header ( FileName ) ) {
/* we have a relative path for the file, try to do somewhat better */
if ( YapLibDir ! = NULL ) {
strncpy ( FileNameBuf , YapLibDir , YAP_FILENAME_MAX ) ;
# if HAVE_GETENV
} else {
char * my_env = getenv ( " YAPLIBDIR " ) ;
if ( my_env ! = NULL ) {
strncpy ( NameBuf , my_env , YAP_FILENAME_MAX ) ;
# endif
} else {
strncpy ( NameBuf , LIB_DIR , YAP_FILENAME_MAX ) ;
}
# if HAVE_GETENV
}
# endif
# if _MSC_VER || defined(__MINGW32__)
strncat ( NameBuf , " \\ " , YAP_FILENAME_MAX ) ;
# else
strncat ( NameBuf , " / " , YAP_FILENAME_MAX ) ;
# endif
strncat ( NameBuf , FileName , YAP_FILENAME_MAX ) ;
if ( ( splfild = open_file ( NameBuf , O_RDONLY ) ) < 0 ) {
return ( FALSE ) ;
}
} else {
return ( FALSE ) ;
}
}
/* skip the first line */
do {
myread ( splfild , pp , 1 ) ;
} while ( pp [ 0 ] ! = 1 ) ;
sprintf ( msg , " YAPV%s " , version_number ) ;
myread ( splfild , pp , Unsigned ( strlen ( msg ) + 1 ) ) ;
if ( strcmp ( pp , msg ) ! = 0 ) {
if ( PrologMode ! = BootMode )
Error ( SYSTEM_ERROR , TermNil ,
" file %s is not a saved Prolog state " , FileName ) ;
return ( 0 ) ;
}
result = get_cell ( ) ;
mode = get_cell ( ) ;
if ( mode ! = DO_ONLY_CODE & & mode ! = DO_EVERYTHING ) {
Error ( SYSTEM_ERROR , TermNil ,
" file %s is not a saved Prolog state " , FileName ) ;
return ( 0 ) ;
}
if ( * AHeap )
get_cell ( ) ;
else
* AHeap = get_cell ( ) / 1024 ;
if ( mode = = DO_ONLY_CODE | | * AStack )
get_cell ( ) ;
else
* AStack = get_cell ( ) / 1024 ;
if ( mode = = DO_ONLY_CODE | | * ATrail )
get_cell ( ) ;
else
* ATrail = get_cell ( ) / 1024 ;
close_file ( ) ;
return ( result ) ;
}
static void
UnmarkTrEntries ( void )
{
CELL entry , * Entries ;
/* initialise a choice point */
B = ( choiceptr ) LCL0 ;
B - - ;
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B - > cp_ap = NOCODE ;
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Entries = ( CELL * ) TrailBase ;
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while ( ( entry = * Entries + + ) ! = ( CELL ) NULL ) {
if ( IsVarTerm ( entry ) ) {
RESET_VARIABLE ( ( CELL * ) entry ) ;
} else if ( IsPairTerm ( entry ) ) {
CODEADDR ent = ( CODEADDR ) RepPair ( entry ) ;
register CELL flags ;
flags = Flags ( ent ) ;
ResetFlag ( InUseMask , flags ) ;
Flags ( ent ) = flags ;
if ( FlagOn ( ErasedMask , flags ) ) {
if ( FlagOn ( DBClMask , flags ) ) {
ErDBE ( ( DBRef ) ( ent - ( CELL ) & ( ( ( DBRef ) NIL ) - > Flags ) ) ) ;
} else {
ErCl ( ClauseFlagsToClause ( ent ) ) ;
}
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}
}
}
B = NULL ;
}
int in_limbo = FALSE ;
/*
* This function is called when wanting only to restore the heap and
* associated registers
*/
int
Restore ( char * s )
{
int restore_mode ;
int funcs_moved ;
OPCODE old_ops [ _std_top + 1 ] ;
if ( ( restore_mode = OpenRestore ( s ) ) = = FAIL_RESTORE )
return ( FALSE ) ;
ShutdownLoadForeign ( ) ;
in_limbo = TRUE ;
funcs_moved = get_coded ( restore_mode , old_ops ) ;
restore_regs ( restore_mode ) ;
in_limbo = FALSE ;
/*#endif*/
RestoreHeap ( old_ops , funcs_moved ) ;
switch ( restore_mode ) {
case DO_EVERYTHING :
if ( OldHeapBase ! = HeapBase | |
OldLCL0 ! = LCL0 | |
OldGlobalBase ! = ( CELL * ) GlobalBase | |
OldTrailBase ! = TrailBase ) {
AdjustStacksAndTrail ( ) ;
if ( which_save = = 2 ) {
AdjustRegs ( 2 ) ;
} else {
AdjustRegs ( 1 ) ;
}
break ;
# ifdef DEBUG_RESTORE2
YP_fprintf ( errout , " phase 2 done \n " ) ;
# endif
}
break ;
case DO_ONLY_CODE :
UnmarkTrEntries ( ) ;
break ;
}
ReOpenLoadForeign ( ) ;
InitPlIO ( ) ;
/* reset time */
ReInitWallTime ( ) ;
CloseRestore ( ) ;
if ( which_save = = 2 ) {
unify ( ARG2 , MkIntTerm ( 0 ) ) ;
}
return ( restore_mode ) ;
}
static Int
p_restore ( void )
{
int mode ;
Term t1 = Deref ( ARG1 ) ;
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if ( ! GetName ( FileNameBuf , YAP_FILENAME_MAX , t1 ) ) {
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Error ( TYPE_ERROR_LIST , t1 , " restore/1 " ) ;
return ( FALSE ) ;
}
if ( ( mode = Restore ( FileNameBuf ) ) = = DO_ONLY_CODE ) {
# if PUSH_REGS
restore_absmi_regs ( & standard_regs ) ;
# endif
/* back to the top level we go */
siglongjmp ( RestartEnv , 3 ) ;
}
return ( mode ! = FAIL_RESTORE ) ;
}
void
InitSavePreds ( void )
{
InitCPred ( " $save " , 1 , p_save , SafePredFlag | SyncPredFlag ) ;
InitCPred ( " $save " , 2 , p_save2 , SafePredFlag | SyncPredFlag ) ;
InitCPred ( " $save_program " , 1 , p_save_program , SafePredFlag | SyncPredFlag ) ;
InitCPred ( " $restore " , 1 , p_restore , SyncPredFlag ) ;
}