fis-gtm/sr_port/alloc_reg.c

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/****************************************************************
* *
* Copyright 2001, 2012 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_stdio.h"
#include "gtm_string.h"
#include <stddef.h>
#include "cmd_qlf.h"
#include "gtmdbglvl.h"
#include "compiler.h"
#include "mdq.h"
#include "opcode.h"
#include "alloc_reg.h"
#include "cdbg_dump.h"
#define MAX_TEMP_COUNT 128
GBLDEF int4 sa_temps[VALUED_REF_TYPES];
GBLDEF int4 sa_temps_offset[VALUED_REF_TYPES];
GBLREF int mvmax;
GBLREF triple t_orig;
GBLREF uint4 gtmDebugLevel;
GBLREF command_qualifier cmd_qlf;
LITDEF int4 sa_class_sizes[VALUED_REF_TYPES] =
{
0 /* dummy for slot zero */
,SIZEOF(mval*) /* TVAR_REF */
,SIZEOF(mval) /* TVAL_REF */
,SIZEOF(mint) /* TINT_REF */
,SIZEOF(mval*) /* TVAD_REF */
,SIZEOF(char*) /* TCAD_REF */
};
LITREF octabstruct oc_tab[];
error_def(ERR_TMPSTOREMAX);
void alloc_reg(void)
{
triple *x, *y, *ref;
tbp *b;
oprtype *j;
opctype opc, opx;
char tempcont[VALUED_REF_TYPES][MAX_TEMP_COUNT], dest_type;
int r, c, temphigh[VALUED_REF_TYPES];
unsigned int oct;
int4 size;
memset(&tempcont[0][0], 0, SIZEOF(tempcont));
memset(&temphigh[0], -1, SIZEOF(temphigh));
temphigh[TVAR_REF] = mvmax - 1;
COMPDBG(PRINTF(" \n\n\n\n************************************ Begin alloc_reg scan *****************************\n"););
dqloop(&t_orig, exorder, x)
{
COMPDBG(PRINTF(" ************************ Triple Start **********************\n"););
COMPDBG(cdbg_dump_triple(x, 0););
opc = x->opcode;
switch (opc)
{
case OC_NOOP:
case OC_PARAMETER:
continue;
case OC_LINESTART:
/* If the next triple is also a LINESTART, then this is a comment line.
* Therefore eliminate this LINESTART
*/
opx = x->exorder.fl->opcode;
if ((OC_LINESTART == opx) || (OC_LINEFETCH == opx))
{
opc = x->opcode = OC_NOOP;
COMPDBG(PRINTF(" ** Converting triple to NOOP (rsn 1) **\n"););
continue; /* continue, because 'normal' NOOP continues from this switch */
}
/* There is a special case in the case of NOLINE_ENTRY being specified. If a blank line is followed
* by a line with a label and that label generates fetch information, the generated triple sequence
* will be LINESTART (from blank line), ILIT (count from PREVIOUS fetch), LINEFETCH. We will detect
* that sequence here and change the LINESTART to a NOOP.
*/
if (!(cmd_qlf.qlf & CQ_LINE_ENTRY) && (OC_ILIT == opx) && (NULL != x->exorder.fl->exorder.fl)
&& (OC_LINEFETCH == x->exorder.fl->exorder.fl->opcode))
{
opc = x->opcode = OC_NOOP;
COMPDBG(PRINTF(" ** Converting triple to NOOP (rsn 2) **\n"););
continue; /* continue, because 'normal' NOOP continues from this switch */
}
break;
case OC_LINEFETCH:
case OC_FETCH:
assert((TRIP_REF == x->operand[0].oprclass) && (OC_ILIT == x->operand[0].oprval.tref->opcode));
if (x->operand[0].oprval.tref->operand[0].oprval.ilit == mvmax)
{
x->operand[0].oprval.tref->operand[0].oprval.ilit = 0;
x->operand[1].oprclass = 0;
}
break;
case OC_STO:
/* If we are storing a literal e.g. s x="hi", don't call op_sto, because we do not
* need to check if the literal is defined. OC_STOLIT will be an in-line copy.
* Bypass this if we have been requested to not do inline literals.
*/
if ((cmd_qlf.qlf & CQ_INLINE_LITERALS) && (TRIP_REF == x->operand[1].oprclass)
&& (OC_LIT == x->operand[1].oprval.tref->opcode))
opc = x->opcode = OC_STOLIT;
break;
case OC_EQU:
/* Check to see if the operation is a x="" or a ""=x, if so (and this is a very common case)
* use special opcode OC_EQUNUL, which takes one argument and just checks length for zero
*/
if ((TRIP_REF == x->operand[0].oprclass) && (OC_LIT == x->operand[0].oprval.tref->opcode)
&& (0 == x->operand[0].oprval.tref->operand[0].oprval.mlit->v.str.len))
{
x->operand[0] = x->operand[1];
x->operand[1].oprclass = 0;
opc = x->opcode = OC_EQUNUL;
} else if ((TRIP_REF == x->operand[1].oprclass) && (OC_LIT == x->operand[1].oprval.tref->opcode)
&& (0 == x->operand[1].oprval.tref->operand[0].oprval.mlit->v.str.len))
{
x->operand[1].oprclass = 0;
opc = x->opcode = OC_EQUNUL;
}
break;
}
for (j = x->operand, y = x; j < ARRAYTOP(y->operand); )
{
if (TRIP_REF == j->oprclass)
{
ref = j->oprval.tref;
if (OC_PARAMETER == ref->opcode)
{
y = ref;
j = y->operand;
continue;
}
if (r = ref->destination.oprclass) /* Note assignment */
{
dqloop(&ref->backptr, que, b)
{
if (b->bpt == y)
{
dqdel(b, que);
break;
}
}
if ((ref->backptr.que.fl == &ref->backptr) && (TVAR_REF != r))
tempcont[r][j->oprval.tref->destination.oprval.temp] = 0;
}
}
j++;
}
if (OC_PASSTHRU == x->opcode)
{
COMPDBG(PRINTF(" *** OC_PASSTHRU opcode being NOOP'd\n"););
x->opcode = OC_NOOP;
continue;
}
if (!(dest_type = x->destination.oprclass)) /* Note assignment */
{
oct = oc_tab[opc].octype;
if ((oct & OCT_VALUE) && (x->backptr.que.fl != &x->backptr) && !(oct & OCT_CGSKIP))
{
if (!(oct & OCT_MVADDR) && (x->backptr.que.fl->que.fl == &x->backptr)
&& (OC_STO == (y = x->backptr.que.fl->bpt)->opcode) && (y->operand[1].oprval.tref == x)
&& (OC_VAR == y->operand[0].oprval.tref->opcode))
{
x->destination = y->operand[0];
y->opcode = OC_NOOP;
y->operand[0].oprclass = y->operand[1].oprclass = 0;
} else
{
oct &= OCT_VALUE | OCT_MVADDR;
assert((OCT_MVAL == oct) || (OCT_MINT == oct) || ((OCT_MVADDR | OCT_MVAL) == oct)
|| (OCT_CDADDR == oct));
r = (OCT_MVAL == oct) ? TVAL_REF : (((OCT_MVADDR | OCT_MVAL) == oct)
? TVAD_REF : ((OCT_MINT == oct) ? TINT_REF : TCAD_REF));
for (c = 0; tempcont[r][c] && (MAX_TEMP_COUNT > c); c++)
;
if (MAX_TEMP_COUNT <= c)
rts_error(VARLSTCNT(1) ERR_TMPSTOREMAX);
tempcont[r][c] = 1;
x->destination.oprclass = r;
x->destination.oprval.temp = c;
if (c > temphigh[r])
temphigh[r] = c;
if (OC_CDADDR == x->opcode)
x->opcode = OC_NOOP;
}
}
} else if (TRIP_REF == dest_type)
{
assert(x->destination.oprval.tref->destination.oprclass);
x->destination = x->destination.oprval.tref->destination;
}
}
for (r = 0; VALUED_REF_TYPES > r; r++)
sa_temps[r] = temphigh[r] + 1;
sa_temps_offset[TVAR_REF] = sa_temps[TVAR_REF] * sa_class_sizes[TVAR_REF];
size = sa_temps[TVAL_REF] * sa_class_sizes[TVAL_REF];
sa_temps_offset[TVAL_REF] = size;
/* Since we need to align the temp region to the largest types, align even int temps to SIZEOF(char*) */
size += ROUND_UP2(sa_temps[TINT_REF] * sa_class_sizes[TINT_REF], SIZEOF(char *));
sa_temps_offset[TINT_REF] = size;
size += sa_temps[TVAD_REF] * sa_class_sizes[TVAD_REF];
sa_temps_offset[TVAD_REF] = size;
size += sa_temps[TCAD_REF] * sa_class_sizes[TCAD_REF];
sa_temps_offset[TCAD_REF] = size;
}