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yap-6.3/os/mem.c

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/*************************************************************************
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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 *
* *
**************************************************************************
* *
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* File: mem.c *
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* Last rev: 5/2/88 *
* mods: *
* comments: Input/Output C implemented predicates *
* *
*************************************************************************/
#ifdef SCCS
static char SccsId[] = "%W% %G%";
#endif
/*
* This file includes the definition of a socket related IO.
*
*/
#include "sysbits.h"
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#if !HAVE_FMEMOPEN || !defined(HAVE_FMEMOPEN)
#include "format.h"
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int format_synch(int sno, int sno0, format_info *fg) {
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int (*f_putc)(int, int);
const char *s;
int n;
if (sno == sno0) {
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return sno;
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}
f_putc = GLOBAL_Stream[sno0].stream_putc;
s = GLOBAL_Stream[sno].u.mem_string.buf;
n = GLOBAL_Stream[sno].u.mem_string.pos;
while (n--) {
f_putc(sno0, *s++);
}
GLOBAL_Stream[sno].u.mem_string.pos = 0;
GLOBAL_Stream[sno].linecount = 1;
GLOBAL_Stream[sno].linepos = 0;
GLOBAL_Stream[sno].charcount = 0;
fg->lstart = 0;
fg->phys_start = 0;
fg->gapi = 0;
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return sno;
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}
// uses directly the buffer in the memory stream.
bool fill_pads(int sno, int sno0, int total, format_info *fg USES_REGS) {
int nfillers, fill_space, lfill_space, nchars;
int (*f_putc)(int, int);
const char *buf;
int phys_end;
f_putc = GLOBAL_Stream[sno0].stream_putc;
buf = GLOBAL_Stream[sno].u.mem_string.buf;
phys_end = GLOBAL_Stream[sno].u.mem_string.pos;
if (fg->gapi == 0) {
fg->gap[0].phys = phys_end;
fg->gap[0].filler = ' ';
fg->gapi = 1;
}
nchars = total - GLOBAL_Stream[sno].linepos;
if (nchars < 0)
nchars = 0; /* ignore */
nfillers = fg->gapi;
fill_space = nchars / nfillers;
lfill_space = nchars % nfillers;
int i = fg->phys_start;
gap_t *padi = fg->gap;
while (i < phys_end) {
if (i == padi->phys) {
int j;
for (j = 0; j < fill_space; j++)
f_putc(sno0, padi->filler);
padi++;
/* last gap??*/
if (padi - fg->gap == fg->gapi) {
for (j = 0; j < fill_space; j++)
f_putc(sno0, (padi - 1)->filler);
}
}
f_putc(sno0, buf[i++]);
}
// final gap
if (i == padi->phys) {
int j;
for (j = 0; j < fill_space + lfill_space; j++)
f_putc(sno0, padi->filler);
};
GLOBAL_Stream[sno].u.mem_string.pos = 0;
GLOBAL_Stream[sno].linecount = 1;
GLOBAL_Stream[sno].linepos += nchars;
GLOBAL_Stream[sno].charcount = 0;
fg->phys_start = 0;
fg->lstart = GLOBAL_Stream[sno].linepos;
fg->gapi = 0;
return true;
}
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/* read from memory */
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static int MemGetc(int sno) {
register StreamDesc *s = &GLOBAL_Stream[sno];
Int ch;
int spos;
spos = s->u.mem_string.pos;
if (spos == s->u.mem_string.max_size) {
return -1;
} else {
ch = s->u.mem_string.buf[spos];
s->u.mem_string.pos = ++spos;
}
return ch;
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}
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/* peek from memory */
int Yap_MemPeekc(int sno) {
StreamDesc *s = &GLOBAL_Stream[sno];
Int ch;
int spos;
spos = s->u.mem_string.pos;
if (spos == s->u.mem_string.max_size) {
return -1;
} else {
ch = s->u.mem_string.buf[spos];
}
return ch;
}
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static int MemPutc(int, int);
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/* static */
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static int MemPutc(int sno, int ch) {
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StreamDesc *s = &GLOBAL_Stream[sno];
#if MAC || _MSC_VER
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if (ch == 10) {
ch = '\n';
}
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#endif
s->u.mem_string.buf[s->u.mem_string.pos++] = ch;
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if (s->u.mem_string.pos >= s->u.mem_string.max_size - 8) {
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int new_src;
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/* oops, we have reached an overflow */
Int new_max_size = s->u.mem_string.max_size + Yap_page_size;
char *newbuf;
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if ((newbuf = (ADDR)realloc(s->u.mem_string.buf,
new_max_size * sizeof(char))) != NULL) {
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new_src = MEM_BUF_MALLOC;
} else {
if (GLOBAL_Stream[sno].u.mem_string.error_handler) {
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CACHE_REGS
LOCAL_Error_Size = new_max_size * sizeof(char);
save_machine_regs();
longjmp(*(jmp_buf *)GLOBAL_Stream[sno].u.mem_string.error_handler, 1);
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} else {
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Yap_Error(RESOURCE_ERROR_HEAP, TermNil,
"YAP could not grow heap for writing to string");
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}
return -1;
}
s->u.mem_string.buf = newbuf;
s->u.mem_string.max_size = new_max_size;
s->u.mem_string.src = new_src;
}
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count_output_char(ch, s);
return ((int)ch);
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}
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bool Yap_set_stream_to_buf(StreamDesc *st, const char *buf, size_t nchars) {
FILE *f;
stream_flags_t flags;
st->file = f = NULL;
flags = Input_Stream_f | InMemory_Stream_f;
Yap_initStream(st - GLOBAL_Stream, f, NULL, TermNil, LOCAL_encoding, flags,
AtomRead);
// like any file stream.
/* currently these streams are not seekable */
st->status = Input_Stream_f | InMemory_Stream_f;
st->u.mem_string.pos = 0;
st->u.mem_string.buf = (char *)buf;
st->u.mem_string.max_size = nchars;
st->u.mem_string.error_handler = NULL;
// st->u.mem_string.src = src; check new assets coode
Yap_DefaultStreamOps(st);
return true;
}
int Yap_open_buf_read_stream(const char *buf, size_t nchars, encoding_t *encp,
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memBufSource src) {
CACHE_REGS
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int sno;
StreamDesc *st;
FILE *f;
encoding_t encoding;
stream_flags_t flags;
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sno = GetFreeStreamD();
if (sno < 0)
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return (PlIOError(RESOURCE_ERROR_MAX_STREAMS, TermNil,
"new stream not available for open_mem_read_stream/1"));
st = GLOBAL_Stream + sno;
if (encp)
encoding = *encp;
else
encoding = LOCAL_encoding;
st->file = f = NULL;
flags = Input_Stream_f | InMemory_Stream_f;
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Yap_initStream(sno, f, NULL, TermNil, encoding, flags, AtomRead);
// like any file stream.
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/* currently these streams are not seekable */
st->status = Input_Stream_f | InMemory_Stream_f;
st->u.mem_string.pos = 0;
st->u.mem_string.buf = (char *)buf;
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st->u.mem_string.max_size = nchars;
st->u.mem_string.error_handler = NULL;
st->u.mem_string.src = src;
Yap_DefaultStreamOps(st);
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UNLOCK(st->streamlock);
return sno;
}
static Int
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open_mem_read_stream(USES_REGS1) /* $open_mem_read_stream(+List,-Stream) */
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{
Term t, ti;
int sno;
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char buf0[YAP_FILENAME_MAX + 1];
const char *buf;
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ti = Deref(ARG1);
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buf = Yap_TextTermToText(ti, buf0, 0, LOCAL_encoding);
if (!buf) {
return false;
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}
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sno = Yap_open_buf_read_stream(buf, strlen(buf) + 1, &LOCAL_encoding,
MEM_BUF_MALLOC);
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t = Yap_MkStream(sno);
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return Yap_unify(ARG2, t);
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}
// open a buffer for writing, currently just ignores buf and nchars.
int Yap_open_buf_write_stream(encoding_t enc, memBufSource src) {
CACHE_REGS
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int sno;
StreamDesc *st;
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sno = GetFreeStreamD();
if (sno < 0)
return -1;
st = GLOBAL_Stream + sno;
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st->status = Output_Stream_f | InMemory_Stream_f | FreeOnClose_Stream_f;
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st->linepos = 0;
st->charcount = 0;
st->linecount = 1;
st->encoding = enc;
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Yap_DefaultStreamOps(st);
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st->nbuf = st->u.mem_string.buf = malloc(PLGETC_BUF_SIZE);
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st->u.mem_string.src = MEM_BUF_MALLOC;
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st->u.mem_string.max_size = PLGETC_BUF_SIZE - 1;
st->u.mem_string.pos = 0;
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UNLOCK(st->streamlock);
return sno;
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}
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int Yap_OpenBufWriteStream(USES_REGS1) {
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return Yap_open_buf_write_stream(
GLOBAL_Stream[LOCAL_c_output_stream].encoding, 0);
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}
static Int
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open_mem_write_stream(USES_REGS1) /* $open_mem_write_stream(-Stream) */
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{
Term t;
int sno;
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sno = Yap_OpenBufWriteStream(PASS_REGS1);
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if (sno == -1)
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return (PlIOError(SYSTEM_ERROR_INTERNAL, TermNil,
"new stream not available for open_mem_read_stream/1"));
t = Yap_MkStream(sno);
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GLOBAL_Stream[sno].status |= InMemory_Stream_f;
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return (Yap_unify(ARG1, t));
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}
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/**
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* Yap_PeekMemwriteStream() shows the current buffer for a memory stream.
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*
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* @param sno, the in-memory stream
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*
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* @return temporary buffer, discarded by close and may be moved away
* by other writes..
*/
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char *Yap_MemExportStreamPtr(int sno) {
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GLOBAL_Stream[sno].u.mem_string.buf[GLOBAL_Stream[sno].u.mem_string.pos] =
'\0';
return GLOBAL_Stream[sno].u.mem_string.buf;
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}
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static Int peek_mem_write_stream(
USES_REGS1) { /* '$peek_mem_write_stream'(+GLOBAL_Stream,?S0,?S) */
Int sno =
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Yap_CheckStream(ARG1, (Output_Stream_f | InMemory_Stream_f), "close/2");
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Int i;
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Term tf = ARG2;
CELL *HI;
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const char *ptr;
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if (sno < 0)
return (FALSE);
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restart:
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HI = HR;
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ptr = GLOBAL_Stream[sno].u.mem_string.buf;
i = GLOBAL_Stream[sno].u.mem_string.pos;
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while (i > 0) {
--i;
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tf = MkPairTerm(MkIntTerm(ptr[i]), tf);
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if (HR + 1024 >= ASP) {
UNLOCK(GLOBAL_Stream[sno].streamlock);
HR = HI;
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if (!Yap_gcl((ASP - HI) * sizeof(CELL), 3, ENV, Yap_gcP())) {
UNLOCK(GLOBAL_Stream[sno].streamlock);
Yap_Error(RESOURCE_ERROR_STACK, TermNil, LOCAL_ErrorMessage);
return (FALSE);
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}
i = GLOBAL_Stream[sno].u.mem_string.pos;
tf = ARG2;
LOCK(GLOBAL_Stream[sno].streamlock);
goto restart;
}
}
UNLOCK(GLOBAL_Stream[sno].streamlock);
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return (Yap_unify(ARG3, tf));
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}
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void Yap_MemOps(StreamDesc *st) {
st->stream_putc = MemPutc;
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st->stream_getc = MemGetc;}
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bool Yap_CloseMemoryStream(int sno) {
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if ((GLOBAL_Stream[sno].status & Output_Stream_f)) {
if (GLOBAL_Stream[sno].u.mem_string.src == MEM_BUF_MALLOC) {
free(GLOBAL_Stream[sno].u.mem_string.buf);
}
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} else {
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if (GLOBAL_Stream[sno].u.mem_string.src == MEM_BUF_MALLOC) {
free(GLOBAL_Stream[sno].u.mem_string.buf);
}
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}
return true;
}
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void Yap_InitMems(void) {
CACHE_REGS
Yap_InitCPred("open_mem_read_stream", 2, open_mem_read_stream, SyncPredFlag);
Yap_InitCPred("open_mem_write_stream", 1, open_mem_write_stream,
SyncPredFlag);
Yap_InitCPred("peek_mem_write_stream", 3, peek_mem_write_stream,
SyncPredFlag);
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}
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#endif