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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-6.8/] [sim/] [mips/] [m16e.igen] - Rev 157
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// -*- C -*-
// Simulator definition for the MIPS16e instructions.
// Copyright (C) 2005 Free Software Foundation, Inc.
// Contributed by Nigel Stephens (nigel@mips.com) and
// David Ung (davidu@mips.com) of MIPS Technologies.
//
// This file is part of GDB, the GNU debugger.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
11101,3.RX,100,10001:RR:16::SEB
"seb r<TRX>"
*mips16e:
{
TRACE_ALU_INPUT1 (GPR[TRX]);
GPR[TRX] = EXTEND8 (GPR[TRX]);
TRACE_ALU_RESULT (GPR[TRX]);
}
11101,3.RX,101,10001:RR:16::SEH
"seh r<TRX>"
*mips16e:
{
TRACE_ALU_INPUT1 (GPR[TRX]);
GPR[TRX] = EXTEND16 (GPR[TRX]);
TRACE_ALU_RESULT (GPR[TRX]);
}
11101,3.RX,110,10001:RR:16::SEW
"sew r<TRX>"
*mips16e:
{
check_u64 (SD_, instruction_0);
TRACE_ALU_INPUT1 (GPR[TRX]);
GPR[TRX] = EXTEND32 (GPR[TRX]);
TRACE_ALU_RESULT (GPR[TRX]);
}
11101,3.RX,000,10001:RR:16::ZEB
"zeb r<TRX>"
*mips16e:
{
TRACE_ALU_INPUT1 (GPR[TRX]);
GPR[TRX] = (unsigned_word)(unsigned8)(GPR[TRX]);
TRACE_ALU_RESULT (GPR[TRX]);
}
11101,3.RX,001,10001:RR:16::ZEH
"zeh r<TRX>"
*mips16e:
{
TRACE_ALU_INPUT1 (GPR[TRX]);
GPR[TRX] = (unsigned_word)(unsigned16)(GPR[TRX]);
TRACE_ALU_RESULT (GPR[TRX]);
}
11101,3.RX,010,10001:RR:16::ZEW
"zew r<TRX>"
*mips16e:
{
check_u64 (SD_, instruction_0);
TRACE_ALU_INPUT1 (GPR[TRX]);
GPR[TRX] = (unsigned_word)(unsigned32)(GPR[TRX]);
TRACE_ALU_RESULT (GPR[TRX]);
}
11101,3.RX,100,00000:RR:16::JRC
"jrc r<TRX>"
*mips16e:
{
NIA = GPR[TRX];
}
11101,000,101,00000:RR:16::JRCRA
"jrc ra"
*mips16e:
{
NIA = RA;
}
11101,3.RX,110,00000:RR:16::JALRC
"jalrc r<TRX>"
*mips16e:
{
RA = NIA;
NIA = GPR[TRX];
}
// format routines for save/restore
:%s::::RAS:int ras
*mips16e
{
static char buf[10];
buf[0] = '\0';
if (ras & 4)
strcat (buf,"ra,");
if (ras & 2)
strcat (buf,"s0,");
if (ras & 1)
strcat (buf,"s1,");
return (buf);
}
:%s::::XSREGS:int xsregs
*mips16e
{
if (xsregs > 6)
return "s2,s3,s4,s5,s6,s7,s8,";
if (xsregs > 5)
return "s2,s3,s4,s5,s6,s7,";
if (xsregs > 4)
return "s2,s3,s4,s5,s6,";
if (xsregs > 3)
return "s2,s3,s4,s5,";
if (xsregs > 2)
return "s2,s3,s4,";
if (xsregs > 1)
return "s2,s3,";
if (xsregs > 0)
return "s2,";
return "";
}
:%s::::AREGS:int aregs
*mips16e
{
// Fixme: how is the arg/static distinction made by the assembler?
static const char * const aregstr[16] = {
"",
"A3,",
"A2,A3,",
"A1,A2,A3,",
"A0,A1,A2,A3,",
"a0,",
"a0,A3,",
"a0,A2,A3,",
"a0,A1,A2,A3,",
"a0,a1,",
"a0,a1,A3,",
"a0,a1,A2,A3,",
"a0,a1,a2,",
"a0,a1,a2,A3,",
"?,"
};
return aregstr[aregs];
}
:compute:::int:SFRAME:FS:((FS == 0) ? 128 \: (FS << 3))
:compute:::int:BFRAME:FSHI,FSLO:(((FSHI << 4) | FSLO) << 3)
:function:::void:do_save:int xsregs, int aregs, int ras0s1, int framesize
{
unsigned_word temp;
int args, astatic;
temp = GPR[29];
/* writes are in the same order as the hardware description... */
switch (aregs) {
case 0: case 1: case 2: case 3: case 11:
args = 0;
break;
case 4: case 5: case 6: case 7:
args = 1;
break;
case 8: case 9: case 10:
args = 2;
break;
case 12: case 13:
args = 3;
break;
case 14:
args = 4;
break;
default:
sim_engine_abort (SD, CPU, CIA, "save: aregs=%d causes unpredictable results\n", aregs);
}
if (args > 0) {
do_store (SD_, AccessLength_WORD, temp, 0, GPR[4]);
if (args > 1) {
do_store (SD_,AccessLength_WORD, temp, 4 , GPR[5]);
if (args > 2) {
do_store (SD_,AccessLength_WORD, temp, 8 , GPR[6]);
if (args > 3) {
do_store (SD_,AccessLength_WORD, temp, 12, GPR[7]);
}
}
}
}
if (ras0s1 & 4)
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[31]);
switch (xsregs) {
case 7:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[30]);
case 6:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[23]);
case 5:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[22]);
case 4:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[21]);
case 3:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[20]);
case 2:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[19]);
case 1:
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[18]);
}
if (ras0s1 & 1)
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[17]);
if (ras0s1 & 2)
do_store (SD_,AccessLength_WORD, temp -= 4, 0, GPR[16]);
switch (aregs) {
case 0: case 4: case 8: case 12: case 14:
astatic = 0;
break;
case 1: case 5: case 9: case 13:
astatic = 1;
break;
case 2: case 6: case 10:
astatic = 2;
break;
case 3: case 7:
astatic = 3;
break;
case 11:
astatic = 4;
break;
default:
sim_engine_abort (SD, CPU, CIA, "save: aregs=%d causes unpredictable results\n", aregs);
}
if (astatic > 0) {
do_store (SD_, AccessLength_WORD, temp -= 4, 0, GPR[7]);
if (astatic > 1) {
do_store (SD_, AccessLength_WORD, temp -= 4, 0, GPR[6]);
if (astatic > 2) {
do_store (SD_, AccessLength_WORD, temp -= 4, 0, GPR[5]);
if (astatic > 3) {
do_store (SD_, AccessLength_WORD, temp -= 4, 0, GPR[4]);
}
}
}
}
GPR[29] -= framesize;
}
01100,100,1,3.RAS,4.FS:I8:16::SAVE
"save %s<RAS>,<SFRAME>"
*mips16e
{
do_save (SD_, 0, 0, RAS, SFRAME);
}
11110,3.XSREGS,4.FSHI,4.AREGS + 01100,100,1,3.RAS,4.FSLO:EXT-I8:16::SAVE
"save %s<RAS>%s<XSREGS>%s<AREGS><BFRAME>"
*mips16e
{
do_save (SD_, XSREGS, AREGS, RAS, BFRAME);
}
:function:::void:do_restore:int xsregs, int aregs, int ras0s1, int framesize
*mips16e
{
unsigned_word temp, temp2;
int astatic;
temp = GPR[29] + framesize;
temp2 = temp;
/* reads are in the same order as the hardware description... */
if (ras0s1 & 4)
GPR[31] = EXTEND32 (do_load(SD_, AccessLength_WORD, temp -= 4, 0));
switch (xsregs) {
case 7:
GPR[30] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
case 6:
GPR[23] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
case 5:
GPR[22] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
case 4:
GPR[21] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
case 3:
GPR[20] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
case 2:
GPR[19] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
case 1:
GPR[18] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
}
if (ras0s1 & 1)
GPR[17] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
if (ras0s1 & 2)
GPR[16] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
switch (aregs) {
case 0: case 4: case 8: case 12: case 14:
astatic = 0;
break;
case 1: case 5: case 9: case 13:
astatic = 1;
break;
case 2: case 6: case 10:
astatic = 2;
break;
case 3: case 7:
astatic = 3;
break;
case 11:
astatic = 4;
break;
default:
sim_engine_abort (SD, CPU, CIA, "save: aregs=%d causes unpredictable results\n", aregs);
}
if (astatic > 0) {
GPR[7] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
if (astatic > 1) {
GPR[6] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
if (astatic > 2) {
GPR[5] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
if (astatic > 3) {
GPR[4] = EXTEND32 (do_load (SD_,AccessLength_WORD, temp -= 4, 0));
}
}
}
}
GPR[29] = temp2;
}
01100,100,0,3.RAS,4.FS:I8:16::RESTORE
"restore %s<RAS>,<SFRAME>"
*mips16e
{
do_restore (SD_,0,0,RAS,SFRAME);
}
11110,3.XSREGS,4.FSHI,4.AREGS + 01100,100,0,3.RAS,4.FSLO:EXT-I8:16::RESTORE
"restore %s<RAS>%s<XSREGS>%s<AREGS><BFRAME>"
*mips16e
{
do_restore (SD_,XSREGS,AREGS,RAS,BFRAME);
}