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fis-gtm/sr_port/mval_write.c

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/****************************************************************
* *
* Copyright 2001, 2011 Fidelity Information Services, Inc *
* *
* This source code contains the intellectual property *
* of its copyright holder(s), and is made available *
* under a license. If you do not know the terms of *
* the license, please stop and do not read further. *
* *
****************************************************************/
#include "mdef.h"
#include "gtm_string.h"
#include "mlkdef.h"
#include "zshow.h"
#include "patcode.h"
#include "compiler.h" /* for CHARMAXARGS */
#include <rtnhdr.h>
#include "stack_frame.h"
#include "mv_stent.h" /* for POP_MV_STENT */
#ifdef UNICODE_SUPPORTED
#include "gtm_utf8.h"
#include "gtm_icu_api.h" /* U_ISPRINT() needs this header */
#endif
GBLREF uint4 *pattern_typemask;
GBLREF boolean_t gtm_utf8_mode;
GBLREF mv_stent *mv_chain;
GBLREF unsigned char *stackbase, *stacktop, *msp, *stackwarn;
GBLREF int process_exiting;
LITDEF MSTR_CONST(quote, QUOTE);
LITDEF MSTR_CONST(quote_concat, QUOTE_CONCAT);
LITDEF MSTR_CONST(close_paren, CLOSE_PAREN);
LITDEF MSTR_CONST(close_paren_quote, CLOSE_PAREN_QUOTE);
error_def(ERR_STACKOFLOW);
error_def(ERR_STACKCRIT);
/* The following macro prints the last contiguous sequence of printable (graphic) characters
* that have been processed so far to the zshow buffer. It also resets the size of the next
* next sequence that may follow */
#define ZWR_PRINTABLE \
{ \
graphic_str->str.len = src_cnt - strstart; \
graphic_str->str.addr = v->str.addr + strstart; \
zshow_output(output, &graphic_str->str); \
}
/* The routine that does formatting for ZWRITE command.
* NOTE: this routine does almost the same formatting as format2zwr(). However,
* the main difference is this routine feeds the formatted results to the zshow
* output handling routine (zshow_output()) instead of storing in a pre-allocated
* destination buffer */
void mval_write(zshow_out *output, mval *v, boolean_t flush)
{
sm_uc_ptr_t cp;
uint4 ch;
int fastate = 0, ncommas, src_len, src_cnt, strstart, chlen;
boolean_t isctl, isill;
char *strnext;
mval *graphic_str, lmv;
MV_FORCE_STR(v);
src_len = v->str.len;
if (src_len > 0)
{
if (val_iscan(v))
{
output->flush = flush;
zshow_output(output, &v->str);
return;
}
fastate = 0;
strstart = 0;
if (!process_exiting)
{ /* Only if not exiting in case we are called from mdb_condition_handler with stack overflow */
PUSH_MV_STENT(MVST_MVAL);
graphic_str = &mv_chain->mv_st_cont.mvs_mval;
} else
graphic_str = &lmv;
graphic_str->mvtype = MV_STR;
graphic_str->str.len = 0; /* initialize len in case stp_gcol gets called before actual set of len occurs below */
/* Note that throughout this module, we use v->str.addr[xxx] to access the input string instead of
* maintaining a pointer variable. This is because we call zshow_output at lot of places and each
* of them can invoke stp_gcol in turn changing the value of v->str.addr.
*/
for (src_cnt = 0; src_cnt < src_len; src_cnt += chlen)
{
if (!gtm_utf8_mode)
{
ch = (unsigned char)v->str.addr[src_cnt];
isctl = ((pattern_typemask[ch] & PATM_C) != 0);
isill = FALSE;
chlen = 1;
}
UNICODE_ONLY(
else
{
strnext = (char *)UTF8_MBTOWC(&v->str.addr[src_cnt], &v->str.addr[src_len], ch);
isill = (WEOF == ch) ? (ch = (unsigned char)v->str.addr[src_cnt], TRUE) : FALSE;
if (!isill)
isctl = !U_ISPRINT(ch);
chlen = (int)(strnext - &v->str.addr[src_cnt]);
}
)
switch(fastate)
{
case 0: /* beginning of the string */
case 1: /* beginning of a new substring followed by a graphic character */
if (isill)
{
if (src_cnt > 0)
{ /* close previous string with quote and prepare for
concatenation */
ZWR_PRINTABLE;
zshow_output(output, &quote_concat);
}
mval_nongraphic(output, LIT_AND_LEN(DOLLARZCH), ch);
fastate = 3;
ncommas = 0;
} else if (isctl)
{
if (src_cnt > 0)
{ /* close previous string with quote and prepare for
concatenation */
ZWR_PRINTABLE;
zshow_output(output, &quote_concat);
}
mval_nongraphic(output, LIT_AND_LEN(DOLLARCH), ch);
fastate = 2;
ncommas = 0;
} else
{ /* graphic characters */
if (0 == fastate) /* the initial quote in the beginning */
{
zshow_output(output, &quote);
fastate = 1;
}
if ('"' == ch)
{
ZWR_PRINTABLE;
zshow_output(output, &quote);
strstart = src_cnt;
}
}
break;
case 2: /* subsequent characters following a non-graphic character in the form
of $CHAR(x,) */
if (isill)
{
mval_nongraphic(output, LIT_AND_LEN(CLOSE_PAREN_DOLLARZCH), ch);
fastate = 3;
} else if(isctl)
{
ncommas++;
if (CHARMAXARGS == ncommas)
{
ncommas = 0;
mval_nongraphic(output, LIT_AND_LEN(CLOSE_PAREN_DOLLARCH), ch);
} else
mval_nongraphic(output, LIT_AND_LEN(COMMA), ch);
} else
{
zshow_output(output, &close_paren_quote);
if ('"' == ch)
zshow_output(output, &quote);
strstart = src_cnt;
fastate = 1;
}
break;
case 3: /* subsequent characters following an illegal character in the form of $ZCHAR(x,) */
if(isill)
{
ncommas++;
if (CHARMAXARGS == ncommas)
{
ncommas = 0;
mval_nongraphic(output, LIT_AND_LEN(CLOSE_PAREN_DOLLARZCH), ch);
} else
mval_nongraphic(output, LIT_AND_LEN(COMMA), ch);
} else if (isctl)
{
mval_nongraphic(output, LIT_AND_LEN(CLOSE_PAREN_DOLLARCH), ch);
fastate = 2;
} else
{
zshow_output(output, &close_paren_quote);
if ('"' == ch)
zshow_output(output, &quote);
strstart = src_cnt;
fastate = 1;
}
break;
default:
assert(FALSE);
break;
}
}
/* close up */
switch(fastate)
{
case 1:
ZWR_PRINTABLE;
zshow_output(output, &quote);
break;
case 2:
case 3:
zshow_output(output, &close_paren);
break;
default:
assert(FALSE);
break;
}
if (!process_exiting)
{
POP_MV_STENT();
}
} else
{
zshow_output(output, &quote);
zshow_output(output, &quote);
}
if (flush)
{
output->flush = TRUE;
zshow_output(output, 0);
}
}
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