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/*
* Copyright N) 2007 MIPS Technologies, Inc. All Rights Reserved
*
* This software is part of the M5 simulator.
*
* THIS IS A LEGAL AGREEMENT. BY DOWNLOADING, USING, COPYING, CREATING
* DERIVATIVE WORKS, AND/OR DISTRIBUTING THIS SOFTWARE YOU ARE AGREEING
* TO THESE TERMS AND CONDITIONS.
*
* Permission is granted to use, copy, create derivative works and
* distribute this software and such derivative works for any purpose,
* so long as (1) the copyright notice above, this grant of permission,
* and the disclaimer below appear in all copies and derivative works
* made, (2) the copyright notice above is augmented as appropriate to
* reflect the addition of any new copyrightable work in a derivative
* work (e.g., Copyright N) <Publication Year> Copyright Owner), and (3)
* the name of MIPS Technologies, Inc. ($(B!H(BMIPS$(B!I(B) is not used in any
* advertising or publicity pertaining to the use or distribution of
* this software without specific, written prior authorization.
*
* THIS SOFTWARE IS PROVIDED $(B!H(BAS IS.$(B!I(B MIPS MAKES NO WARRANTIES AND
* DISCLAIMS ALL WARRANTIES, WHETHER EXPRESS, STATUTORY, IMPLIED OR
* OTHERWISE, INCLUDING BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND
* NON-INFRINGEMENT OF THIRD PARTY RIGHTS, REGARDING THIS SOFTWARE.
* IN NO EVENT SHALL MIPS BE LIABLE FOR ANY DAMAGES, INCLUDING DIRECT,
* INDIRECT, INCIDENTAL, CONSEQUENTIAL, SPECIAL, OR PUNITIVE DAMAGES OF
* ANY KIND OR NATURE, ARISING OUT OF OR IN CONNECTION WITH THIS AGREEMENT,
* THIS SOFTWARE AND/OR THE USE OF THIS SOFTWARE, WHETHER SUCH LIABILITY
* IS ASSERTED ON THE BASIS OF CONTRACT, TORT (INCLUDING NEGLIGENCE OR
* STRICT LIABILITY), OR OTHERWISE, EVEN IF MIPS HAS BEEN WARNED OF THE
* POSSIBILITY OF ANY SUCH LOSS OR DAMAGE IN ADVANCE.
*
* Authors: Korey L. Sewell
*/
#include "arch/mips/isa_traits.hh"
#include "arch/mips/utility.hh"
#include "config/full_system.hh"
#include "cpu/thread_context.hh"
#include "cpu/static_inst.hh"
#include "sim/serialize.hh"
#include "base/bitfield.hh"
#include "base/misc.hh"
#if FULL_SYSTEM
#include "arch/mips/vtophys.hh"
#include "mem/vport.hh"
#endif
using namespace MipsISA;
using namespace std;
namespace MipsISA {
uint64_t
getArgument(ThreadContext *tc, int number, bool fp)
{
#if FULL_SYSTEM
if (number < NumArgumentRegs) {
if (fp)
return tc->readFloatRegBits(ArgumentReg[number]);
else
return tc->readIntReg(ArgumentReg[number]);
} else {
Addr sp = tc->readIntReg(StackPointerReg);
VirtualPort *vp = tc->getVirtPort(tc);
uint64_t arg = vp->read<uint64_t>(sp +
(number-NumArgumentRegs) * sizeof(uint64_t));
tc->delVirtPort(vp);
return arg;
}
#else
panic("getArgument() is Full system only\n");
M5_DUMMY_RETURN
#endif
}
uint64_t
fpConvert(ConvertType cvt_type, double fp_val)
{
switch (cvt_type)
{
case SINGLE_TO_DOUBLE:
{
double sdouble_val = fp_val;
void *sdouble_ptr = &sdouble_val;
uint64_t sdp_bits = *(uint64_t *) sdouble_ptr;
return sdp_bits;
}
case SINGLE_TO_WORD:
{
int32_t sword_val = (int32_t) fp_val;
void *sword_ptr = &sword_val;
uint64_t sword_bits= *(uint32_t *) sword_ptr;
return sword_bits;
}
case WORD_TO_SINGLE:
{
float wfloat_val = fp_val;
void *wfloat_ptr = &wfloat_val;
uint64_t wfloat_bits = *(uint32_t *) wfloat_ptr;
return wfloat_bits;
}
case WORD_TO_DOUBLE:
{
double wdouble_val = fp_val;
void *wdouble_ptr = &wdouble_val;
uint64_t wdp_bits = *(uint64_t *) wdouble_ptr;
return wdp_bits;
}
default:
panic("Invalid Floating Point Conversion Type (%d). See \"types.hh\" for List of Conversions\n",cvt_type);
return 0;
}
}
double
roundFP(double val, int digits)
{
double digit_offset = pow(10.0,digits);
val = val * digit_offset;
val = val + 0.5;
val = floor(val);
val = val / digit_offset;
return val;
}
double
truncFP(double val)
{
int trunc_val = (int) val;
return (double) trunc_val;
}
bool
getCondCode(uint32_t fcsr, int cc_idx)
{
int shift = (cc_idx == 0) ? 23 : cc_idx + 24;
bool cc_val = (fcsr >> shift) & 0x00000001;
return cc_val;
}
uint32_t
genCCVector(uint32_t fcsr, int cc_num, uint32_t cc_val)
{
int cc_idx = (cc_num == 0) ? 23 : cc_num + 24;
fcsr = bits(fcsr, 31, cc_idx + 1) << cc_idx + 1 |
cc_val << cc_idx |
bits(fcsr, cc_idx - 1, 0);
return fcsr;
}
uint32_t
genInvalidVector(uint32_t fcsr_bits)
{
//Set FCSR invalid in "flag" field
int invalid_offset = Invalid + Flag_Field;
fcsr_bits = fcsr_bits | (1 << invalid_offset);
//Set FCSR invalid in "cause" flag
int cause_offset = Invalid + Cause_Field;
fcsr_bits = fcsr_bits | (1 << cause_offset);
return fcsr_bits;
}
bool
isNan(void *val_ptr, int size)
{
switch (size)
{
case 32:
{
uint32_t val_bits = *(uint32_t *) val_ptr;
return (bits(val_bits, 30, 23) == 0xFF);
}
case 64:
{
uint64_t val_bits = *(uint64_t *) val_ptr;
return (bits(val_bits, 62, 52) == 0x7FF);
}
default:
panic("Type unsupported. Size mismatch\n");
}
}
bool
isQnan(void *val_ptr, int size)
{
switch (size)
{
case 32:
{
uint32_t val_bits = *(uint32_t *) val_ptr;
return (bits(val_bits, 30, 22) == 0x1FE);
}
case 64:
{
uint64_t val_bits = *(uint64_t *) val_ptr;
return (bits(val_bits, 62, 51) == 0xFFE);
}
default:
panic("Type unsupported. Size mismatch\n");
}
}
bool
isSnan(void *val_ptr, int size)
{
switch (size)
{
case 32:
{
uint32_t val_bits = *(uint32_t *) val_ptr;
return (bits(val_bits, 30, 22) == 0x1FF);
}
case 64:
{
uint64_t val_bits = *(uint64_t *) val_ptr;
return (bits(val_bits, 62, 51) == 0xFFF);
}
default:
panic("Type unsupported. Size mismatch\n");
}
}
int
flattenIntIndex(ThreadContext * tc, int reg)
{
return reg;
}
void
copyRegs(ThreadContext *src, ThreadContext *dest)
{
panic("Copy Regs Not Implemented Yet\n");
}
void
copyMiscRegs(ThreadContext *src, ThreadContext *dest)
{
panic("Copy Misc. Regs Not Implemented Yet\n");
}
template <class CPU>
void
zeroRegisters(CPU *cpu)
{
// Insure ISA semantics
// (no longer very clean due to the change in setIntReg() in the
// cpu model. Consider changing later.)
cpu->thread->setIntReg(ZeroReg, 0);
cpu->thread->setFloatReg(ZeroReg, 0.0);
}
void
startupCPU(ThreadContext *tc, int cpuId)
{
tc->activate(0/*tc->getThreadNum()*/);
}
} // namespace MipsISA
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