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yap-6.3/C/computils.c

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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: computils.c *
* comments: some useful routines for YAP's compiler *
* *
* Last rev: $Date: 2007-11-26 23:43:08 $ *
* $Log: not supported by cvs2svn $
* Revision 1.31 2007/11/06 17:02:12 vsc
* compile ground terms away.
*
* Revision 1.30 2006/09/20 20:03:51 vsc
* improve indexing on floats
* fix sending large lists to DB
*
* Revision 1.29 2005/12/05 17:16:10 vsc
* write_depth/3
* overflow handlings and garbage collection
* Several ipdates to CLPBN
* dif/2 could be broken in the presence of attributed variables.
*
* Revision 1.28 2005/09/08 22:06:44 rslopes
* BEAM for YAP update...
*
* Revision 1.27 2005/07/06 15:10:04 vsc
* improvements to compiler: merged instructions and fixes for ->
*
* Revision 1.26 2005/01/04 02:50:21 vsc
* - allow MegaClauses with blobs
* - change Diffs to be thread specific
* - include Christian's updates
*
* Revision 1.25 2004/11/19 17:14:13 vsc
* a few fixes for 64 bit compiling.
*
* Revision 1.24 2004/04/16 19:27:31 vsc
* more bug fixes
*
* Revision 1.23 2004/03/10 14:59:55 vsc
* optimise -> for type tests
* *
* *
*************************************************************************/
#ifdef SCCS
static char SccsId[] = "%W% %G%";
#endif
/*
* This file includes a set of utilities, useful to the several compilation
* modules
*/
#include "Yap.h"
#include "Yatom.h"
#include "YapHeap.h"
#include "compile.h"
#include "yapio.h"
#if HAVE_STRING_H
#include <string.h>
#endif
#ifdef DEBUG
STATIC_PROTO (void ShowOp, (char *, struct PSEUDO *));
#endif /* DEBUG */
/*
* The compiler creates an instruction chain which will be assembled after
* afterwards
*/
typedef struct mem_blk {
union {
struct mem_blk *next;
double fill;
} u;
char contents[1];
} MemBlk;
#define CMEM_BLK_SIZE (4*4096)
#define FIRST_CMEM_BLK_SIZE (16*4096)
static char *
AllocCMem (UInt size, struct intermediates *cip)
{
#if SIZEOF_INT_P==8
size = (size + 7) & ((UInt)-8);
#else
size = (size + 3) & ((UInt)0xfffffffc);
#endif
#if USE_SYSTEM_MALLOC
if (!cip->blks || cip->blk_cur+size > cip->blk_top) {
UInt blksz;
struct mem_blk *p;
if (size > CMEM_BLK_SIZE)
blksz = size+sizeof(struct mem_blk);
else
blksz = CMEM_BLK_SIZE;
if (!cip->blks) {
CACHE_REGS
if (LOCAL_CMemFirstBlock) {
p = LOCAL_CMemFirstBlock;
blksz = LOCAL_CMemFirstBlockSz;
p->u.next = NULL;
} else {
if (blksz < FIRST_CMEM_BLK_SIZE)
blksz = FIRST_CMEM_BLK_SIZE;
p = (struct mem_blk *)Yap_AllocCodeSpace(blksz);
if (!p) {
LOCAL_Error_Size = size;
save_machine_regs();
siglongjmp(cip->CompilerBotch, OUT_OF_HEAP_BOTCH);
}
LOCAL_CMemFirstBlock = p;
LOCAL_CMemFirstBlockSz = blksz;
}
} else {
p = (struct mem_blk *)Yap_AllocCodeSpace(blksz);
if (!p) {
CACHE_REGS
LOCAL_Error_Size = size;
save_machine_regs();
siglongjmp(cip->CompilerBotch, OUT_OF_HEAP_BOTCH);
}
}
p->u.next = cip->blks;
cip->blks = p;
cip->blk_cur = p->contents;
cip->blk_top = (char *)p+blksz;
}
{
char *out = cip->blk_cur;
cip->blk_cur += size;
return out;
}
#else
char *p;
p = cip->freep;
cip->freep += size;
if (ASP <= CellPtr (cip->freep) + 256) {
CACHE_REGS
LOCAL_Error_Size = 256+((char *)cip->freep - (char *)H);
save_machine_regs();
siglongjmp(cip->CompilerBotch, OUT_OF_STACK_BOTCH);
}
return (p);
#endif
}
void
Yap_ReleaseCMem (struct intermediates *cip)
{
#if USE_SYSTEM_MALLOC
CACHE_REGS
struct mem_blk *p = cip->blks;
while (p) {
struct mem_blk *nextp = p->u.next;
if (p != LOCAL_CMemFirstBlock)
Yap_FreeCodeSpace((ADDR)p);
p = nextp;
}
cip->blks = NULL;
if (cip->label_offset &&
cip->label_offset != LOCAL_LabelFirstArray) {
Yap_FreeCodeSpace((ADDR)cip->label_offset);
}
#endif
cip->label_offset = NULL;
}
char *
Yap_AllocCMem (UInt size, struct intermediates *cip)
{
return AllocCMem(size, cip);
}
static int
is_a_test(Term arg, Term mod)
{
if (IsVarTerm (arg)) {
return FALSE;
}
if (IsVarTerm (arg) || !IsAtomTerm(mod)) {
return FALSE;
}
if (IsAtomTerm (arg)) {
Atom At = AtomOfTerm (arg);
PredEntry *pe = RepPredProp(PredPropByAtom(At, mod));
if (EndOfPAEntr(pe))
return FALSE;
return pe->PredFlags & TestPredFlag;
}
if (IsApplTerm (arg)) {
Functor f = FunctorOfTerm (arg);
if (f == FunctorModule) {
return is_a_test(ArgOfTerm(2,arg), ArgOfTerm(1,arg));
} else if (f == FunctorComma) {
return
is_a_test(ArgOfTerm(1,arg), mod) &&
is_a_test(ArgOfTerm(2,arg), mod);
} else {
PredEntry *pe = RepPredProp(PredPropByFunc(f, mod));
if (EndOfPAEntr(pe))
return FALSE;
if (pe->PredFlags & AsmPredFlag) {
int op = pe->PredFlags & 0x7f;
if (op >= _atom && op <= _eq) {
return TRUE;
}
return FALSE;
}
return pe->PredFlags & (TestPredFlag|BinaryPredFlag);
}
}
return FALSE;
}
int
Yap_is_a_test_pred (Term arg, Term mod)
{
return is_a_test(arg, mod);
}
void
Yap_emit (compiler_vm_op o, Int r1, CELL r2, struct intermediates *cip)
{
PInstr *p;
p = (PInstr *) AllocCMem (sizeof (*p), cip);
p->op = o;
p->rnd1 = r1;
p->rnd2 = r2;
p->nextInst = NULL;
if (cip->cpc == NIL) {
cip->cpc = cip->CodeStart = p;
} else {
cip->cpc->nextInst = p;
cip->cpc = p;
}
}
void
Yap_emit_3ops (compiler_vm_op o, CELL r1, CELL r2, CELL r3, struct intermediates *cip)
{
PInstr *p;
p = (PInstr *) AllocCMem (sizeof (*p)+sizeof(CELL), cip);
p->op = o;
p->rnd1 = r1;
p->rnd2 = r2;
p->rnd3 = r3;
p->nextInst = NIL;
if (cip->cpc == NIL)
cip->cpc = cip->CodeStart = p;
else
{
cip->cpc->nextInst = p;
cip->cpc = p;
}
}
void
Yap_emit_4ops (compiler_vm_op o, CELL r1, CELL r2, CELL r3, CELL r4, struct intermediates *cip)
{
PInstr *p;
p = (PInstr *) AllocCMem (sizeof (*p)+2*sizeof(CELL), cip);
p->op = o;
p->rnd1 = r1;
p->rnd2 = r2;
p->rnd3 = r3;
p->rnd4 = r4;
p->nextInst = NIL;
if (cip->cpc == NIL)
cip->cpc = cip->CodeStart = p;
else
{
cip->cpc->nextInst = p;
cip->cpc = p;
}
}
CELL *
Yap_emit_extra_size (compiler_vm_op o, CELL r1, int size, struct intermediates *cip)
{
PInstr *p;
p = (PInstr *) AllocCMem (sizeof (*p) + size - CellSize, cip);
p->op = o;
p->rnd1 = r1;
p->nextInst = NIL;
if (cip->cpc == NIL)
cip->cpc = cip->CodeStart = p;
else
{
cip->cpc->nextInst = p;
cip->cpc = p;
}
return p->arnds;
}
static void
bip_name(Int op, char *s)
{
switch (op) {
case _atom:
strcpy(s,"atom");
break;
case _atomic:
strcpy(s,"atomic");
break;
case _integer:
strcpy(s,"integer");
break;
case _nonvar:
strcpy(s,"nonvar");
break;
case _number:
strcpy(s,"number");
break;
case _var:
strcpy(s,"var");
break;
case _cut_by:
strcpy(s,"cut_by");
break;
case _db_ref:
strcpy(s,"db_ref");
break;
case _compound:
strcpy(s,"compound");
break;
case _float:
strcpy(s,"float");
break;
case _primitive:
strcpy(s,"primitive");
break;
case _equal:
strcpy(s,"equal");
break;
case _dif:
strcpy(s,"dif");
break;
case _eq:
strcpy(s,"eq");
break;
case _functor:
strcpy(s,"functor");
break;
case _plus:
strcpy(s,"plus");
break;
case _minus:
strcpy(s,"minus");
break;
case _times:
strcpy(s,"times");
break;
case _div:
strcpy(s,"div");
break;
case _and:
strcpy(s,"and");
break;
case _or:
strcpy(s,"or");
break;
case _sll:
strcpy(s,"sll");
break;
case _slr:
strcpy(s,"slr");
break;
case _arg:
strcpy(s,"arg");
break;
default:
strcpy(s,"");
break;
}
}
void
Yap_bip_name(Int op, char *s) {
bip_name(op,s);
}
#ifdef DEBUG
static void
write_address(CELL address)
{
if (address < (CELL)AtomBase) {
Yap_DebugErrorPutc('L');
Yap_DebugPlWrite(MkIntTerm (address));
} else if (address == (CELL) FAILCODE) {
Yap_DebugPlWrite (MkAtomTerm (AtomFail));
} else {
char buf[32], *p = buf;
#if HAVE_SNPRINTF
snprintf(buf,32,"%p",(void *)address);
#else
sprintf(buf,"%p",(void *)address);
#endif
p[31] = '\0'; /* so that I don't have to worry */
Yap_DebugErrorPutc('0');
Yap_DebugErrorPutc('x');
while (*p != '\0') {
Yap_DebugErrorPutc(*p++);
}
}
}
static void
write_functor(Functor f)
{
if (IsExtensionFunctor(f)) {
if (f == FunctorDBRef) {
Yap_DebugPlWrite(MkAtomTerm(AtomDBREF));
} else if (f == FunctorLongInt) {
Yap_DebugPlWrite(MkAtomTerm(AtomLONGINT));
} else if (f == FunctorDouble) {
Yap_DebugPlWrite(MkAtomTerm(AtomDOUBLE));
}
} else {
Yap_DebugPlWrite(MkAtomTerm(NameOfFunctor (f)));
Yap_DebugErrorPutc ('/');
Yap_DebugPlWrite(MkIntTerm(ArityOfFunctor (f)));
}
}
static void
ShowOp (char *f, struct PSEUDO *cpc)
{
char ch;
Int arg = cpc->rnd1;
Int rn = cpc->rnd2;
CELL *cptr = cpc->arnds;
while ((ch = *f++) != 0)
{
if (ch == '%')
switch (ch = *f++)
{
#ifdef BEAM
case '1':
Yap_DebugPlWrite(MkIntTerm(rn));
break;
case '4':
Yap_DebugPlWrite(MkIntTerm(arg));
break;
#endif
case 'a':
case 'n':
Yap_DebugPlWrite ((Term) arg);
break;
case 'b':
/* write a variable bitmap for a call */
{
int max = arg/(8*sizeof(CELL)), i;
CELL *ptr = cptr;
for (i = 0; i <= max; i++) {
Yap_DebugPlWrite(MkIntegerTerm((Int)(*ptr++)));
}
}
break;
case 'l':
write_address (arg);
break;
case 'B':
{
char s[32];
bip_name(rn,s);
Yap_DebugPlWrite (MkAtomTerm(Yap_LookupAtom(s)));
}
break;
case 'd':
Yap_DebugPlWrite (MkIntegerTerm (arg));
break;
case 'z':
Yap_DebugPlWrite (MkIntTerm (cpc->rnd3));
break;
case 'v':
{
Ventry *v = (Ventry *) arg;
Yap_DebugErrorPutc (v->KindOfVE == PermVar ? 'Y' : 'X');
Yap_DebugPlWrite (MkIntTerm ((v->NoOfVE) & MaskVarAdrs));
}
break;
case 'N':
{
Ventry *v;
cpc = cpc->nextInst;
arg = cpc->rnd1;
v = (Ventry *) arg;
Yap_DebugErrorPutc (v->KindOfVE == PermVar ? 'Y' : 'X');
Yap_DebugPlWrite (MkIntTerm ((v->NoOfVE) & MaskVarAdrs));
}
break;
case 'm':
Yap_DebugPlWrite (MkAtomTerm ((Atom) arg));
Yap_DebugErrorPutc ('/');
Yap_DebugPlWrite (MkIntTerm (rn));
break;
case 'p':
{
PredEntry *p = RepPredProp ((Prop) arg);
Functor f = p->FunctorOfPred;
UInt arity = p->ArityOfPE;
Term mod;
if (p->ModuleOfPred)
mod = p->ModuleOfPred;
else
mod = TermProlog;
Yap_DebugPlWrite (mod);
Yap_DebugErrorPutc (':');
if (arity == 0)
Yap_DebugPlWrite (MkAtomTerm ((Atom)f));
else
Yap_DebugPlWrite (MkAtomTerm (NameOfFunctor (f)));
Yap_DebugErrorPutc ('/');
Yap_DebugPlWrite (MkIntTerm (arity));
}
break;
case 'P':
{
PredEntry *p = RepPredProp((Prop) rn);
Functor f = p->FunctorOfPred;
UInt arity = p->ArityOfPE;
Term mod = TermProlog;
if (p->ModuleOfPred) mod = p->ModuleOfPred;
Yap_DebugPlWrite (mod);
Yap_DebugErrorPutc (':');
if (arity == 0)
Yap_DebugPlWrite (MkAtomTerm ((Atom)f));
else
Yap_DebugPlWrite (MkAtomTerm (NameOfFunctor (f)));
Yap_DebugErrorPutc ('/');
Yap_DebugPlWrite (MkIntTerm (arity));
}
break;
case 'f':
write_functor((Functor)arg);
break;
case 'r':
Yap_DebugErrorPutc ('A');
Yap_DebugPlWrite (MkIntTerm (rn));
break;
case 'h':
{
CELL my_arg = *cptr++;
write_address(my_arg);
}
break;
case 'g':
write_address(arg);
break;
case 'i':
write_address (arg);
break;
case 'j':
{
Functor fun = (Functor)*cptr++;
if (IsExtensionFunctor(fun)) {
if (fun == FunctorDBRef) {
Yap_DebugPlWrite(MkAtomTerm(AtomDBREF));
} else if (fun == FunctorLongInt) {
Yap_DebugPlWrite(MkAtomTerm(AtomLONGINT));
} else if (fun == FunctorDouble) {
Yap_DebugPlWrite(MkAtomTerm(AtomDOUBLE));
}
} else {
Yap_DebugPlWrite (MkAtomTerm(NameOfFunctor(fun)));
Yap_DebugErrorPutc ('/');
Yap_DebugPlWrite (MkIntTerm(ArityOfFunctor(fun)));
}
}
break;
case 'O':
Yap_DebugPlWrite(AbsAppl(cptr));
break;
case 'x':
Yap_DebugPlWrite (MkIntTerm (rn >> 1));
Yap_DebugErrorPutc ('\t');
Yap_DebugPlWrite (MkIntTerm (rn & 1));
break;
case 'w':
Yap_DebugPlWrite (arg);
break;
case 'o':
Yap_DebugPlWrite ((Term) * cptr++);
case 'c':
{
int i;
CELL *ptr = (CELL *)cptr[0];
for (i = 0; i < arg; ++i) {
CELL my_arg;
Yap_DebugErrorPutc('\t');
if (*ptr) {
Yap_DebugPlWrite ((Term) *ptr++);
} else {
Yap_DebugPlWrite (MkIntTerm (0));
ptr++;
}
Yap_DebugErrorPutc ('\t');
my_arg = *ptr++;
write_address (my_arg);
if (i+1 < arg)
Yap_DebugErrorPutc ('\n');
}
}
break;
case 'e':
{
int i;
CELL *ptr = (CELL *)cptr[0];
for (i = 0; i < arg; ++i) {
CELL my_arg = ptr[0], lbl = ptr[1];
Yap_DebugErrorPutc('\t');
if (my_arg) {
write_functor((Functor)my_arg);
} else {
Yap_DebugPlWrite(MkIntTerm (0));
}
Yap_DebugErrorPutc('\t');
write_address(lbl);
ptr += 2;
if (i+1 < arg)
Yap_DebugErrorPutc('\n');
}
}
break;
default:
Yap_DebugErrorPutc ('%');
Yap_DebugErrorPutc (ch);
}
else
Yap_DebugErrorPutc (ch);
}
Yap_DebugErrorPutc ('\n');
}
static char *opformat[] =
{
"nop",
"get_var\t\t%v,%r",
"put_var\t\t%v,%r",
"get_val\t\t%v,%r",
"put_val\t\t%v,%r",
"get_atom\t%a,%r",
"put_atom\t%a,%r",
"get_num\t\t%n,%r",
"put_num\t\t%n,%r",
"get_float\t\t%w,%r",
"put_float\t\t%w,%r",
"get_dbterm\t%w,%r",
"put_dbterm\t%w,%r",
"get_longint\t\t%w,%r",
"put_longint\t\t%w,%r",
"get_bigint\t\t%l,%r",
"put_bigint\t\t%l,%r",
"get_list\t%r",
"put_list\t%r",
"get_struct\t%f,%r",
"put_struct\t%f,%r",
"put_unsafe\t%v,%r",
"unify_var\t%v",
"write_var\t%v",
"unify_val\t%v",
"write_val\t%v",
"unify_atom\t%a",
"write_atom\t%a",
"unify_num\t%n",
"write_num\t%n",
"unify_float\t%w",
"write_float\t%w",
"unify_dbterm\t%w",
"write_dbterm\t%w",
"unify_longint\t%w",
"write_longint\t%w",
"unify_bigint\t%l",
"write_bigint\t%l",
"unify_list",
"write_list",
"unify_struct\t%f",
"write_struct\t%f",
"write_unsafe\t%v",
"unify_local\t%v",
"write local\t%v",
"unify_last_list",
"write_last_list",
"unify_last_struct\t%f",
"write_last_struct\t%f",
"unify_last_var\t%v",
"unify_last_val\t%v",
"unify_last_local\t%v",
"unify_last_atom\t%a",
"unify_last_num\t%n",
"unify_last_float\t%w",
"unify_last_dbterm\t%w",
"unify_last_longint\t%w",
"unify_last_bigint\t%l",
"ensure_space",
"native_code",
"function_to_var\t%v,%B",
"function_to_val\t%v,%B",
"function_to_0\t%B",
"align_float",
"fail",
"cut",
"cutexit",
"allocate",
"deallocate",
"try_me_else\t\t%l\t%x",
"jump\t\t%l",
"jump\t\t%l",
"proceed",
"call\t\t%p,%d,%z",
"execute\t\t%p",
"sys\t\t%p",
"%l:",
"name\t\t%m,%d",
"pop\t\t%l",
"retry_me_else\t\t%l\t%x",
"trust_me_else_fail\t%x",
"either_me\t\t%l,%d,%z",
"or_else\t\t%l,%z",
"or_last",
"push_or",
"pushpop_or",
"pop_or",
"save_by\t\t%v",
"commit_by\t\t%v",
"patch_by\t\t%v",
"try\t\t%g\t%x",
"retry\t\t%g\t%x",
"trust\t\t%g\t%x",
"try_in\t\t%g\t%x",
"jump_if_var\t\t%g",
"jump_if_nonvar\t\t%g",
"cache_arg\t%r",
"cache_sub_arg\t%d",
"user_index",
"switch_on_type\t%h\t%h\t%h\t%h",
"switch_on_constant\t%i\n%c",
"if_constant\t%i\n%c",
"switch_on_functor\t%i\n%e",
"if_functor\t%i\n%e",
"if_not_then\t%i\t%h\t%h\t%h",
"index_on_dbref",
"index_on_blob",
"index_on_long",
"check_var\t %r",
"save_pair\t%v",
"save_appl\t%v",
"pvar_bitmap\t%l,%b",
"pvar_live_regs\t%l,%b",
"fetch_reg1_reg2\t%N,%N",
"fetch_constant_reg\t%l,%N",
"fetch_reg_constant\t%l,%N",
"fetch_integer_reg\t%d,%N",
"fetch_reg_integer\t%d,%N",
"enter_profiling\t\t%g",
"retry_profiled\t\t%g",
"count_call_op\t\t%g",
"count_retry_op\t\t%g",
"restore_temps\t\t%l",
"restore_temps_and_skip\t\t%l",
"enter_lu",
"empty_call\t\t%l,%d",
#ifdef YAPOR
"sync",
#endif /* YAPOR */
#ifdef TABLING
"table_new_answer",
"table_try_single\t%g\t%x",
#endif /* TABLING */
#ifdef TABLING_INNER_CUTS
"clause_with_cut",
#endif /* TABLING_INNER_CUTS */
#ifdef BEAM
"run_op %1,%4",
"body_op %1",
"endgoal_op",
"try_me_op %1,%4",
"retry_me_op %1,%4",
"trust_me_op %1,%4",
"only_1_clause_op %1,%4",
"create_first_box_op %1,%4",
"create_box_op %1,%4",
"create_last_box_op %1,%4",
"remove_box_op %1,%4",
"remove_last_box_op %1,%4",
"prepare_tries",
"std_base_op %1,%4",
"direct_safe_call",
"skip_while_var_op",
"wait_while_var_op",
"force_wait_op",
"write_op",
"is_op",
"equal_op",
"exit",
#endif
"fetch_args_for_bccall\t%v",
"binary_cfunc\t\t%v,%P",
"blob\t%O",
"label_control\t"
#ifdef SFUNC
,
"get_s_f_op\t%f,%r",
"put_s_f_op\t%f,%r",
"unify_s_f_op\t%f",
"write_s_f_op\t%f",
"unify_s_var\t%v,%r",
"write_s_var\t%v,%r",
"unify_s_val\t%v,%r",
"write_s_val\t%v,%r",
"unify_s_a\t%a,%r",
"write_s_a\t%a,%r",
"get_s_end",
"put_s_end",
"unify_s_end",
"write_s_end"
#endif
};
void
Yap_ShowCode (struct intermediates *cint)
{
CACHE_REGS
CELL *oldH = H;
struct PSEUDO *cpc;
cpc = cint->CodeStart;
/* MkIntTerm and friends may build terms in the global stack */
H = (CELL *)cint->freep;
while (cpc) {
compiler_vm_op ic = cpc->op;
if (ic != nop_op) {
ShowOp (opformat[ic], cpc);
}
cpc = cpc->nextInst;
}
Yap_DebugErrorPutc ('\n');
H = oldH;
}
#endif /* DEBUG */
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