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NetBSD/sys/arch/hppa/spmath/fpudispatch.c

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/* $NetBSD: fpudispatch.c,v 1.2 2003/07/15 02:29:42 lukem Exp $ */
/*
* (c) Copyright 1991 HEWLETT-PACKARD COMPANY
*
* To anyone who acknowledges that this file is provided "AS IS"
* without any express or implied warranty:
* permission to use, copy, modify, and distribute this file
* for any purpose is hereby granted without fee, provided that
* the above copyright notice and this notice appears in all
* copies, and that the name of Hewlett-Packard Company not be
* used in advertising or publicity pertaining to distribution
* of the software without specific, written prior permission.
* Hewlett-Packard Company makes no representations about the
* suitability of this software for any purpose.
*/
/* Source: /n/schirf/u/baford/CVS/mach4-parisc/kernel/parisc/fpudispatch.c,v
* Revision: 1.4 Author: mike
* State: Exp Locker:
* Date: 1994/07/21 17:36:35
*/
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: fpudispatch.c,v 1.2 2003/07/15 02:29:42 lukem Exp $");
#include <sys/types.h>
#include <sys/systm.h>
#include "../spmath/float.h"
/*
* XXX fredette - hack to glue the bulk of
* the spmath library to this dispatcher.
*/
#define dbl_integer unsigned
#define sgl_floating_point unsigned
#define dbl_floating_point unsigned
#include "../spmath/sgl_float.h"
#include "../spmath/dbl_float.h"
#include "../spmath/cnv_float.h"
#include "../spmath/md.h"
#include "../spmath/fpudispatch.h"
/*
* version of EMULATION software for COPR,0,0 instruction
*/
#define EMULATION_VERSION 3
#define COPR_INST 0x30000000
/*
* definition of extru macro. If pos and len are constants, the compiler
* will generate an extru instruction when optimized
*/
#define extru(r,pos,len) (((r) >> (31-(pos))) & (( 1 << (len)) - 1))
/* definitions of bit field locations in the instruction */
#define fpmajorpos 5
#define fpr1pos 10
#define fpr2pos 15
#define fptpos 31
#define fpsubpos 18
#define fpclass1subpos 16
#define fpclasspos 22
#define fpfmtpos 20
#define fpdfpos 18
/*
* the following are the extra bits for the 0E major op
*/
#define fpxr1pos 24
#define fpxr2pos 19
#define fpxtpos 25
#define fpxpos 23
#define fp0efmtpos 20
/*
* the following are for the multi-ops
*/
#define fprm1pos 10
#define fprm2pos 15
#define fptmpos 31
#define fprapos 25
#define fptapos 20
#define fpmultifmt 26
/*
* offset to constant zero in the FP emulation registers
*/
#define fpzeroreg (32*sizeof(double)/sizeof(unsigned))
/*
* extract the major opcode from the instruction
*/
#define get_major(op) extru(op,fpmajorpos,6)
/*
* extract the two bit class field from the FP instruction. The class is at bit
* positions 21-22
*/
#define get_class(op) extru(op,fpclasspos,2)
/*
* extract the 3 bit subop field. For all but class 1 instructions, it is
* located at bit positions 16-18
*/
#define get_subop(op) extru(op,fpsubpos,3)
/*
* extract the 2 bit subop field from class 1 instructions. It is located
* at bit positions 15-16
*/
#define get_subop1(op) extru(op,fpclass1subpos,2)
/* definitions of unimplemented exceptions */
#define MAJOR_0C_EXCP UNIMPLEMENTEDEXCEPTION
#define MAJOR_0E_EXCP UNIMPLEMENTEDEXCEPTION
#define MAJOR_06_EXCP UNIMPLEMENTEDEXCEPTION
#define MAJOR_26_EXCP UNIMPLEMENTEDEXCEPTION
#define PA83_UNIMP_EXCP UNIMPLEMENTEDEXCEPTION
int
decode_0c(ir,class,subop,fpregs)
unsigned ir,class,subop;
unsigned fpregs[];
{
unsigned r1,r2,t; /* operand register offsets */
unsigned fmt; /* also sf for class 1 conversions */
unsigned df; /* for class 1 conversions */
unsigned *status;
if (ir == COPR_INST) {
fpregs[0] = EMULATION_VERSION << 11;
return(NOEXCEPTION);
}
status = &fpregs[0]; /* fp status register */
r1 = extru(ir,fpr1pos,5) * sizeof(double)/sizeof(unsigned);
if (r1 == 0) /* map fr0 source to constant zero */
r1 = fpzeroreg;
t = extru(ir,fptpos,5) * sizeof(double)/sizeof(unsigned);
if (t == 0 && class != 2) /* don't allow fr0 as a dest */
return(MAJOR_0C_EXCP);
fmt = extru(ir,fpfmtpos,2); /* get fmt completer */
switch (class) {
case 0:
switch (subop) {
case 0: /* COPR 0,0 emulated above*/
case 1:
case 6:
case 7:
return(MAJOR_0C_EXCP);
case 2: /* FCPY */
switch (fmt) {
case 2: /* illegal */
return(MAJOR_0C_EXCP);
case 3: /* quad */
fpregs[t+3] = fpregs[r1+3];
fpregs[t+2] = fpregs[r1+2];
case 1: /* double */
fpregs[t+1] = fpregs[r1+1];
case 0: /* single */
fpregs[t] = fpregs[r1];
return(NOEXCEPTION);
}
case 3: /* FABS */
switch (fmt) {
case 2: /* illegal */
return(MAJOR_0C_EXCP);
case 3: /* quad */
fpregs[t+3] = fpregs[r1+3];
fpregs[t+2] = fpregs[r1+2];
case 1: /* double */
fpregs[t+1] = fpregs[r1+1];
case 0: /* single */
/* copy and clear sign bit */
fpregs[t] = fpregs[r1] & 0x7fffffff;
return(NOEXCEPTION);
}
case 4: /* FSQRT */
switch (fmt) {
case 0:
return(sgl_fsqrt(&fpregs[r1],
&fpregs[t],status));
case 1:
return(dbl_fsqrt(&fpregs[r1],
&fpregs[t],status));
case 2:
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
case 5: /* FRND */
switch (fmt) {
case 0:
return(sgl_frnd(&fpregs[r1],
&fpregs[t],status));
case 1:
return(dbl_frnd(&fpregs[r1],
&fpregs[t],status));
case 2:
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
} /* end of switch (subop) */
case 1: /* class 1 */
df = extru(ir,fpdfpos,2); /* get dest format */
if ((df & 2) || (fmt & 2)) {
/*
* fmt's 2 and 3 are illegal of not implemented
* quad conversions
*/
return(MAJOR_0C_EXCP);
}
/*
* encode source and dest formats into 2 bits.
* high bit is source, low bit is dest.
* bit = 1 --> double precision
*/
fmt = (fmt << 1) | df;
switch (subop) {
case 0: /* FCNVFF */
switch(fmt) {
case 0: /* sgl/sgl */
return(MAJOR_0C_EXCP);
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvff(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvff(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(MAJOR_0C_EXCP);
}
case 1: /* FCNVXF */
switch(fmt) {
case 0: /* sgl/sgl */
return(sgl_to_sgl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(dbl_to_dbl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
}
case 2: /* FCNVFX */
switch(fmt) {
case 0: /* sgl/sgl */
return(sgl_to_sgl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(dbl_to_dbl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
}
case 3: /* FCNVFXT */
switch(fmt) {
case 0: /* sgl/sgl */
return(sgl_to_sgl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(dbl_to_dbl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
}
} /* end of switch subop */
case 2: /* class 2 */
r2 = extru(ir, fpr2pos, 5) * sizeof(double)/sizeof(unsigned);
if (r2 == 0)
r2 = fpzeroreg;
switch (subop) {
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
return(MAJOR_0C_EXCP);
case 0: /* FCMP */
switch (fmt) {
case 0:
return(sgl_fcmp(&fpregs[r1],&fpregs[r2],
extru(ir,fptpos,5),status));
case 1:
return(dbl_fcmp(&fpregs[r1],&fpregs[r2],
extru(ir,fptpos,5),status));
case 2: /* illegal */
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
case 1: /* FTEST */
switch (fmt) {
case 0:
/*
* arg0 is not used
* second param is the t field used for
* ftest,acc and ftest,rej
*/
/* XXX fredette - broken */
#if 0
return(ftest(0,extru(ir,fptpos,5),
&fpregs[0]));
#else
panic("ftest");
#endif
case 1:
case 2:
case 3:
return(MAJOR_0C_EXCP);
}
} /* end if switch for class 2*/
case 3: /* class 3 */
r2 = extru(ir,fpr2pos,5) * sizeof(double)/sizeof(unsigned);
if (r2 == 0)
r2 = fpzeroreg;
switch (subop) {
case 5:
case 6:
case 7:
return(MAJOR_0C_EXCP);
case 0: /* FADD */
switch (fmt) {
case 0:
return(sgl_fadd(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fadd(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 2: /* illegal */
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
case 1: /* FSUB */
switch (fmt) {
case 0:
return(sgl_fsub(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fsub(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 2: /* illegal */
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
case 2: /* FMPY */
switch (fmt) {
case 0:
return(sgl_fmpy(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fmpy(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 2: /* illegal */
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
case 3: /* FDIV */
switch (fmt) {
case 0:
return(sgl_fdiv(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fdiv(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 2: /* illegal */
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
case 4: /* FREM */
switch (fmt) {
case 0:
return(sgl_frem(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_frem(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 2: /* illegal */
case 3: /* quad not implemented */
return(MAJOR_0C_EXCP);
}
} /* end of class 3 switch */
} /* end of switch(class) */
panic("decode_0c");
}
int
decode_0e(ir,class,subop,fpregs)
unsigned ir,class,subop;
unsigned fpregs[];
{
unsigned r1,r2,t; /* operand register offsets */
unsigned fmt; /* also sf for class 1 conversions */
unsigned df; /* dest format for class 1 conversions */
unsigned *status;
status = &fpregs[0];
r1 = ((extru(ir,fpr1pos,5)<<1)|(extru(ir,fpxr1pos,1)));
if (r1 == 0)
r1 = fpzeroreg;
t = ((extru(ir,fptpos,5)<<1)|(extru(ir,fpxtpos,1)));
if (t == 0 && class != 2)
return(MAJOR_0E_EXCP);
if (class < 2) /* class 0 or 1 has 2 bit fmt */
fmt = extru(ir,fpfmtpos,2);
else /* class 2 and 3 have 1 bit fmt */
fmt = extru(ir,fp0efmtpos,1);
switch (class) {
case 0:
switch (subop) {
case 0: /* unimplemented */
case 1:
case 6:
case 7:
return(MAJOR_0E_EXCP);
case 2: /* FCPY */
switch (fmt) {
case 2:
case 3:
return(MAJOR_0E_EXCP);
case 1: /* double */
fpregs[t+1] = fpregs[r1+1];
case 0: /* single */
fpregs[t] = fpregs[r1];
return(NOEXCEPTION);
}
case 3: /* FABS */
switch (fmt) {
case 2:
case 3:
return(MAJOR_0E_EXCP);
case 1: /* double */
fpregs[t+1] = fpregs[r1+1];
case 0: /* single */
fpregs[t] = fpregs[r1] & 0x7fffffff;
return(NOEXCEPTION);
}
case 4: /* FSQRT */
switch (fmt) {
case 0:
return(sgl_fsqrt(&fpregs[r1],
&fpregs[t], status));
case 1:
return(dbl_fsqrt(&fpregs[r1],
&fpregs[t], status));
case 2:
case 3:
return(MAJOR_0E_EXCP);
}
case 5: /* FRMD */
switch (fmt) {
case 0:
return(sgl_frnd(&fpregs[r1],
&fpregs[t], status));
case 1:
return(dbl_frnd(&fpregs[r1],
&fpregs[t], status));
case 2:
case 3:
return(MAJOR_0E_EXCP);
}
} /* end of switch (subop */
case 1: /* class 1 */
df = extru(ir,fpdfpos,2); /* get dest format */
if ((df & 2) || (fmt & 2))
return(MAJOR_0E_EXCP);
fmt = (fmt << 1) | df;
switch (subop) {
case 0: /* FCNVFF */
switch(fmt) {
case 0: /* sgl/sgl */
return(MAJOR_0E_EXCP);
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvff(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvff(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(MAJOR_0E_EXCP);
}
case 1: /* FCNVXF */
switch(fmt) {
case 0: /* sgl/sgl */
return(sgl_to_sgl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(dbl_to_dbl_fcnvxf(&fpregs[r1],
&fpregs[t],status));
}
case 2: /* FCNVFX */
switch(fmt) {
case 0: /* sgl/sgl */
return(sgl_to_sgl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(dbl_to_dbl_fcnvfx(&fpregs[r1],
&fpregs[t],status));
}
case 3: /* FCNVFXT */
switch(fmt) {
case 0: /* sgl/sgl */
return(sgl_to_sgl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
case 1: /* sgl/dbl */
return(sgl_to_dbl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
case 2: /* dbl/sgl */
return(dbl_to_sgl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
case 3: /* dbl/dbl */
return(dbl_to_dbl_fcnvfxt(&fpregs[r1],
&fpregs[t],status));
}
} /* end of switch subop */
case 2: /* class 2 */
r2 = ((extru(ir,fpr2pos,5)<<1)|(extru(ir,fpxr2pos,1)));
if (r2 == 0)
r2 = fpzeroreg;
switch (subop) {
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
return(MAJOR_0E_EXCP);
case 0: /* FCMP */
switch (fmt) {
/*
* fmt is only 1 bit long
*/
case 0:
return(sgl_fcmp(&fpregs[r1],&fpregs[r2],
extru(ir,fptpos,5),status));
case 1:
return(dbl_fcmp(&fpregs[r1],&fpregs[r2],
extru(ir,fptpos,5),status));
}
} /* end of switch for class 2 */
case 3: /* class 3 */
r2 = ((extru(ir,fpr2pos,5)<<1)|(extru(ir,fpxr2pos,1)));
if (r2 == 0)
r2 = fpzeroreg;
switch (subop) {
case 5:
case 6:
case 7:
return(MAJOR_0E_EXCP);
/*
* Note that fmt is only 1 bit for class 3 */
case 0: /* FADD */
switch (fmt) {
case 0:
return(sgl_fadd(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fadd(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
}
case 1: /* FSUB */
switch (fmt) {
case 0:
return(sgl_fsub(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fsub(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
}
case 2: /* FMPY or XMPYU */
/*
* check for integer multiply (x bit set)
*/
if (extru(ir,fpxpos,1)) {
/*
* emulate XMPYU
*/
switch (fmt) {
case 0:
/*
* bad instruction if t specifies
* the right half of a register
*/
if (t & 1)
return(MAJOR_0E_EXCP);
/* XXX fredette - broken. */
#if 0
impyu(&fpregs[r1],&fpregs[r2],
&fpregs[t]);
return(NOEXCEPTION);
#else
panic("impyu");
#endif
case 1:
return(MAJOR_0E_EXCP);
}
}
else { /* FMPY */
switch (fmt) {
case 0:
return(sgl_fmpy(&fpregs[r1],
&fpregs[r2],&fpregs[t],status));
case 1:
return(dbl_fmpy(&fpregs[r1],
&fpregs[r2],&fpregs[t],status));
}
}
case 3: /* FDIV */
switch (fmt) {
case 0:
return(sgl_fdiv(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_fdiv(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
}
case 4: /* FREM */
switch (fmt) {
case 0:
return(sgl_frem(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
case 1:
return(dbl_frem(&fpregs[r1],&fpregs[r2],
&fpregs[t],status));
}
} /* end of class 3 switch */
} /* end of switch(class) */
panic("decode_0e");
}
/*
* routine to decode the 06 (FMPYADD and FMPYCFXT) instruction
*/
int
decode_06(ir,fpregs)
unsigned ir;
unsigned fpregs[];
{
unsigned rm1, rm2, tm, ra, ta; /* operands */
unsigned fmt;
unsigned error = 0;
unsigned status;
union {
double dbl;
float flt;
struct { unsigned i1; unsigned i2; } ints;
} mtmp, atmp;
status = fpregs[0]; /* use a local copy of status reg */
fmt = extru(ir, fpmultifmt, 1); /* get sgl/dbl flag */
if (fmt == 0) { /* DBL */
rm1 = extru(ir, fprm1pos, 5) * sizeof(double)/sizeof(unsigned);
if (rm1 == 0)
rm1 = fpzeroreg;
rm2 = extru(ir, fprm2pos, 5) * sizeof(double)/sizeof(unsigned);
if (rm2 == 0)
rm2 = fpzeroreg;
tm = extru(ir, fptmpos, 5) * sizeof(double)/sizeof(unsigned);
if (tm == 0)
return(MAJOR_06_EXCP);
ra = extru(ir, fprapos, 5) * sizeof(double)/sizeof(unsigned);
ta = extru(ir, fptapos, 5) * sizeof(double)/sizeof(unsigned);
if (ta == 0)
return(MAJOR_06_EXCP);
#ifdef TIMEX
if (ra == 0) {
/* special case FMPYCFXT */
if (dbl_fmpy(&fpregs[rm1],&fpregs[rm2],(unsigned *) &mtmp,
&status))
error = 1;
if (dbl_to_sgl_fcnvfxt(&fpregs[ta],(unsigned *) &atmp,
(unsigned *) &atmp,&status))
error = 1;
}
else {
#else
if (ra == 0)
ra = fpzeroreg;
#endif
if (dbl_fmpy(&fpregs[rm1],&fpregs[rm2],(unsigned *) &mtmp,
&status))
error = 1;
if (dbl_fadd(&fpregs[ta], &fpregs[ra], (unsigned *) &atmp,
&status))
error = 1;
#ifdef TIMEX
}
#endif
if (error)
return(MAJOR_06_EXCP);
else {
/* copy results */
fpregs[tm] = mtmp.ints.i1;
fpregs[tm+1] = mtmp.ints.i2;
fpregs[ta] = atmp.ints.i1;
fpregs[ta+1] = atmp.ints.i2;
fpregs[0] = status;
return(NOEXCEPTION);
}
}
else { /* SGL */
/*
* calculate offsets for single precision numbers
* See table 6-14 in PA-89 architecture for mapping
*/
rm1 = (extru(ir,fprm1pos,4) | 0x10 ) << 1; /* get offset */
rm1 |= extru(ir,fprm1pos-4,1); /* add right word offset */
rm2 = (extru(ir,fprm2pos,4) | 0x10 ) << 1; /* get offset */
rm2 |= extru(ir,fprm2pos-4,1); /* add right word offset */
tm = (extru(ir,fptmpos,4) | 0x10 ) << 1; /* get offset */
tm |= extru(ir,fptmpos-4,1); /* add right word offset */
ra = (extru(ir,fprapos,4) | 0x10 ) << 1; /* get offset */
ra |= extru(ir,fprapos-4,1); /* add right word offset */
ta = (extru(ir,fptapos,4) | 0x10 ) << 1; /* get offset */
ta |= extru(ir,fptapos-4,1); /* add right word offset */
if (ra == 0x20) { /* special case FMPYCFXT (really 0) */
if (sgl_fmpy(&fpregs[rm1],&fpregs[rm2],(unsigned *) &mtmp,
&status))
error = 1;
/* XXX fredette - this is broken */
#if 0
if (sgl_to_sgl_fcnvfxt(&fpregs[ta],(unsigned *) &atmp,
(unsigned *) &atmp,&status))
error = 1;
#else
panic("FMPYADD");
#endif
}
else {
if (sgl_fmpy(&fpregs[rm1],&fpregs[rm2],(unsigned *) &mtmp,
&status))
error = 1;
if (sgl_fadd(&fpregs[ta], &fpregs[ra], (unsigned *) &atmp,
&status))
error = 1;
}
if (error)
return(MAJOR_06_EXCP);
else {
/* copy results */
fpregs[tm] = mtmp.ints.i1;
fpregs[ta] = atmp.ints.i1;
fpregs[0] = status;
return(NOEXCEPTION);
}
}
}
/*
* routine to decode the 26 (FMPYSUB) instruction
*/
int
decode_26(ir,fpregs)
unsigned ir;
unsigned fpregs[];
{
unsigned rm1, rm2, tm, ra, ta; /* operands */
unsigned fmt;
unsigned error = 0;
unsigned status;
union {
double dbl;
float flt;
struct { unsigned i1; unsigned i2; } ints;
} mtmp, atmp;
status = fpregs[0];
fmt = extru(ir, fpmultifmt, 1); /* get sgl/dbl flag */
if (fmt == 0) { /* DBL */
rm1 = extru(ir, fprm1pos, 5) * sizeof(double)/sizeof(unsigned);
if (rm1 == 0)
rm1 = fpzeroreg;
rm2 = extru(ir, fprm2pos, 5) * sizeof(double)/sizeof(unsigned);
if (rm2 == 0)
rm2 = fpzeroreg;
tm = extru(ir, fptmpos, 5) * sizeof(double)/sizeof(unsigned);
if (tm == 0)
return(MAJOR_26_EXCP);
ra = extru(ir, fprapos, 5) * sizeof(double)/sizeof(unsigned);
if (ra == 0)
return(MAJOR_26_EXCP);
ta = extru(ir, fptapos, 5) * sizeof(double)/sizeof(unsigned);
if (ta == 0)
return(MAJOR_26_EXCP);
if (dbl_fmpy(&fpregs[rm1],&fpregs[rm2],(unsigned *) &mtmp,
&status))
error = 1;
if (dbl_fsub(&fpregs[ta], &fpregs[ra], (unsigned *) &atmp,
&status))
error = 1;
if (error)
return(MAJOR_26_EXCP);
else {
/* copy results */
fpregs[tm] = mtmp.ints.i1;
fpregs[tm+1] = mtmp.ints.i2;
fpregs[ta] = atmp.ints.i1;
fpregs[ta+1] = atmp.ints.i2;
fpregs[0] = status;
return(NOEXCEPTION);
}
}
else { /* SGL */
/*
* calculate offsets for single precision numbers
* See table 6-14 in PA-89 architecture for mapping
*/
rm1 = (extru(ir,fprm1pos,4) | 0x10 ) << 1; /* get offset */
rm1 |= extru(ir,fprm1pos-4,1); /* add right word offset */
rm2 = (extru(ir,fprm2pos,4) | 0x10 ) << 1; /* get offset */
rm2 |= extru(ir,fprm2pos-4,1); /* add right word offset */
tm = (extru(ir,fptmpos,4) | 0x10 ) << 1; /* get offset */
tm |= extru(ir,fptmpos-4,1); /* add right word offset */
ra = (extru(ir,fprapos,4) | 0x10 ) << 1; /* get offset */
ra |= extru(ir,fprapos-4,1); /* add right word offset */
ta = (extru(ir,fptapos,4) | 0x10 ) << 1; /* get offset */
ta |= extru(ir,fptapos-4,1); /* add right word offset */
if (sgl_fmpy(&fpregs[rm1],&fpregs[rm2],(unsigned *) &mtmp,
&status))
error = 1;
if (sgl_fsub(&fpregs[ta], &fpregs[ra], (unsigned *) &atmp,
&status))
error = 1;
if (error)
return(MAJOR_26_EXCP);
else {
/* copy results */
fpregs[tm] = mtmp.ints.i1;
fpregs[ta] = atmp.ints.i1;
fpregs[0] = status;
return(NOEXCEPTION);
}
}
}
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