+2005-05-26 David Ung <davidu@mips.com>
+
+ * mips.igen (mips32r2, mips64r2): New ISA models. Add new model
+ tags to all instructions which are applicable to the new ISAs.
+ (do_ror, do_dror, ROR, RORV, DROR, DROR32, DRORV): Add, moved from
+ vr.igen.
+ * mips3264r2.igen: New file for MIPS 32/64 revision 2 specific
+ instructions.
+ * vr.igen (do_ror, do_dror, ROR, RORV, DROR, DROR32, DRORV): Move
+ to mips.igen.
+ * configure.ac (mipsisa32r2*-*-*, mipsisa64r2*-*-*): Add new targets.
+ * configure: Regenerate.
+
2005-03-23 Mark Kettenis <kettenis@gnu.org>
* configure: Regenerate.
sim_igen_filter="32,64,f"
sim_m16_filter="16"
;;
+ mipsisa32r2*-*-*) sim_gen=IGEN
+ sim_igen_machine="-M mips32r2"
+ sim_igen_filter="32,f"
+ sim_mach_default="mipsisa32r2"
+ ;;
mipsisa32*-*-*) sim_gen=IGEN
sim_igen_machine="-M mips32"
sim_igen_filter="32,f"
sim_mach_default="mipsisa32"
;;
+ mipsisa64r2*-*-*) sim_gen=IGEN
+ sim_igen_machine="-M mips64r2,mips3d"
+ sim_igen_filter="32,64,f"
+ sim_mach_default="mipsisa64r2"
+ ;;
mipsisa64sb1*-*-*) sim_gen=IGEN
sim_igen_machine="-M mips64,mips3d,sb1"
sim_igen_filter="32,64,f"
sim_igen_filter="32,64,f"
sim_m16_filter="16"
;;
+ mipsisa32r2*-*-*) sim_gen=IGEN
+ sim_igen_machine="-M mips32r2"
+ sim_igen_filter="32,f"
+ sim_mach_default="mipsisa32r2"
+ ;;
mipsisa32*-*-*) sim_gen=IGEN
sim_igen_machine="-M mips32"
sim_igen_filter="32,f"
sim_mach_default="mipsisa32"
;;
+ mipsisa64r2*-*-*) sim_gen=IGEN
+ sim_igen_machine="-M mips64r2,mips3d"
+ sim_igen_filter="32,64,f"
+ sim_mach_default="mipsisa64r2"
+ ;;
mipsisa64sb1*-*-*) sim_gen=IGEN
sim_igen_machine="-M mips64,mips3d,sb1"
sim_igen_filter="32,64,f"
:model:::mipsIV:mips8000:
:model:::mipsV:mipsisaV:
:model:::mips32:mipsisa32:
+:model:::mips32r2:mipsisa32r2:
:model:::mips64:mipsisa64:
+:model:::mips64r2:mipsisa64r2:
// Vendor ISAs:
//
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*vr4100:
*vr5000:
*r3900:
:function:::address_word:loadstore_ea:address_word base, address_word offset
*mips64:
+*mips64r2:
{
#if 0 /* XXX FIXME: enable this only after some additional testing. */
/* If in user mode and UX is not set, use 32-bit compatibility effective
:function:::int:not_word_value:unsigned_word value
*mips32:
+*mips32r2:
{
/* On MIPS32, since registers are 32-bits, there's no check to be done. */
return 0;
:function:::int:not_word_value:unsigned_word value
*mips64:
+*mips64r2:
{
return ((value >> 32) != (value & 0x80000000 ? 0xFFFFFFFF : 0));
}
:function:::void:unpredictable:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
{
unpredictable_action (CPU, CIA);
}
:function:::int:check_mt_hilo:hilo_history *history
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*r3900:
{
signed64 time = sim_events_time (SD);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
:function:::int:check_mult_hilo:hilo_history *hi, hilo_history *lo
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*r3900:
{
/* FIXME: could record the fact that a stall occured if we want */
:function:::int:check_div_hilo:hilo_history *hi, hilo_history *lo
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
{
signed64 time = sim_events_time (SD);
hi->op.timestamp = time;
*mipsV:
*vr4100:
*vr5000:
+*vr5400:
+*vr5500:
{
// The check should be similar to mips64 for any with PX/UX bit equivalents.
}
:function:::void:check_u64:instruction_word insn
*mips64:
+*mips64r2:
{
#if 0 /* XXX FIXME: enable this only after some additional testing. */
if (UserMode && (SR & (status_UX|status_PX)) == 0)
//
// MIPS Architecture:
//
-// CPU Instruction Set (mipsI - mipsV, mips32, mips64)
+// CPU Instruction Set (mipsI - mipsV, mips32/r2, mips64/r2)
//
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
011100,5.RS,5.RT,5.RD,00000,100001:SPECIAL2:32::CLO
"clo r<RD>, r<RS>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
unsigned32 temp = GPR[RS];
011100,5.RS,5.RT,5.RD,00000,100000:SPECIAL2:32::CLZ
"clz r<RD>, r<RS>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
unsigned32 temp = GPR[RS];
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
011100,5.RS,5.RT,5.RD,00000,100101:SPECIAL2:64::DCLO
"dclo r<RD>, r<RS>"
*mips64:
+*mips64r2:
*vr5500:
{
unsigned64 temp = GPR[RS];
011100,5.RS,5.RT,5.RD,00000,100100:SPECIAL2:64::DCLZ
"dclz r<RD>, r<RS>"
*mips64:
+*mips64r2:
*vr5500:
{
unsigned64 temp = GPR[RS];
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
do_ddivu (SD_, RS, RT);
}
-
-
:function:::void:do_div:int rs, int rt
{
check_div_hilo (SD_, HIHISTORY, LOHISTORY);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
}
-
:function:::void:do_dmultx:int rs, int rt, int rd, int signed_p
{
unsigned64 lo;
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
{
check_u64 (SD_, instruction_0);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
{
check_u64 (SD_, instruction_0);
do_dmultu (SD_, RS, RT, RD);
}
+
+:function:::unsigned64:do_dror:unsigned64 x,unsigned64 y
+{
+ unsigned64 result;
+
+ y &= 63;
+ TRACE_ALU_INPUT2 (x, y);
+ result = ROTR64 (x, y);
+ TRACE_ALU_RESULT (result);
+ return result;
+}
+
+000000,00001,5.RT,5.RD,5.SHIFT,111010::64::DROR
+"dror r<RD>, r<RT>, <SHIFT>"
+*mips64r2:
+*vr5400:
+*vr5500:
+{
+ check_u64 (SD_, instruction_0);
+ GPR[RD] = do_dror (SD_, GPR[RT], SHIFT);
+}
+
+000000,00001,5.RT,5.RD,5.SHIFT,111110::64::DROR32
+"dror32 r<RD>, r<RT>, <SHIFT>"
+*mips64r2:
+*vr5400:
+*vr5500:
+{
+ check_u64 (SD_, instruction_0);
+ GPR[RD] = do_dror (SD_, GPR[RT], SHIFT + 32);
+}
+
+000000,5.RS,5.RT,5.RD,00001,010110::64::DRORV
+"drorv r<RD>, r<RT>, r<RS>"
+*mips64r2:
+*vr5400:
+*vr5500:
+{
+ check_u64 (SD_, instruction_0);
+ GPR[RD] = do_dror (SD_, GPR[RT], GPR[RS]);
+}
+
+
:function:::void:do_dsll:int rt, int rd, int shift
{
TRACE_ALU_INPUT2 (GPR[rt], shift);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
011100,5.RS,5.RT,00000,00000,000000:SPECIAL2:32::MADD
"madd r<RS>, r<RT>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
signed64 temp;
011100,5.RS,5.RT,00000,00000,000001:SPECIAL2:32::MADDU
"maddu r<RS>, r<RT>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
unsigned64 temp;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
if (GPR[RT] != 0)
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
if (GPR[RT] == 0)
011100,5.RS,5.RT,00000,00000,000100:SPECIAL2:32::MSUB
"msub r<RS>, r<RT>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
signed64 temp;
011100,5.RS,5.RT,00000,00000,000101:SPECIAL2:32::MSUBU
"msubu r<RS>, r<RT>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
unsigned64 temp;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
011100,5.RS,5.RT,5.RD,00000,000010:SPECIAL2:32::MUL
"mul r<RD>, r<RS>, r<RT>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5500:
{
signed64 prod;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
{
do_mult (SD_, RS, RT, 0);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
{
do_multu (SD_, RS, RT, 0);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
address_word base = GPR[BASE];
}
+:function:::unsigned64:do_ror:unsigned32 x,unsigned32 y
+{
+ unsigned64 result;
+
+ y &= 31;
+ TRACE_ALU_INPUT2 (x, y);
+ result = EXTEND32 (ROTR32 (x, y));
+ TRACE_ALU_RESULT (result);
+ return result;
+}
+
+000000,00001,5.RT,5.RD,5.SHIFT,000010::32::ROR
+"ror r<RD>, r<RT>, <SHIFT>"
+*mips32r2:
+*mips64r2:
+*vr5400:
+*vr5500:
+{
+ GPR[RD] = do_ror (SD_, GPR[RT], SHIFT);
+}
+
+000000,5.RS,5.RT,5.RD,00001,000110::32::RORV
+"rorv r<RD>, r<RT>, r<RS>"
+*mips32r2:
+*mips64r2:
+*vr5400:
+*vr5500:
+{
+ GPR[RD] = do_ror (SD_, GPR[RT], GPR[RS]);
+}
+
+
:function:::void:do_store:unsigned access, address_word base, address_word offset, unsigned_word word
{
address_word mask = (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
}
+
101001,5.BASE,5.RT,16.OFFSET:NORMAL:32::SH
"sh r<RT>, <OFFSET>(r<BASE>)"
*mipsI:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
"ssnop":RD == 0 && RT == 0 && SHIFT == 1
"sll r<RD>, r<RT>, <SHIFT>"
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
{
/* Skip shift for NOP and SSNOP, so that there won't be lots of
extraneous trace output. */
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*r3900:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIII:
*mipsIV:
*mips32:
+*mips32r2:
*vr4100:
*vr5000:
*r3900:
:function:::void:check_fmt_p:int fmt, instruction_word insn
*mipsV:
*mips64:
+*mips64r2:
{
if ((fmt != fmt_single) && (fmt != fmt_double)
&& (fmt != fmt_ps || (UserMode && (SR & (status_UX|status_PX)) == 0)))
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
:function:::unsigned64:do_load_double:address_word base, address_word offset
*mipsII:
*mips32:
+*mips32r2:
{
int bigendian = (BigEndianCPU ? ! ReverseEndian : ReverseEndian);
address_word vaddr;
:function:::void:do_store_double:address_word base, address_word offset, unsigned64 v
*mipsII:
*mips32:
+*mips32r2:
{
int bigendian = (BigEndianCPU ? ! ReverseEndian : ReverseEndian);
address_word vaddr;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
"alnv.ps f<FD>, f<FS>, f<FT>, r<RS>"
*mipsV:
*mips64:
+*mips64r2:
{
unsigned64 fs;
unsigned64 ft;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
#*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
"cfc1 r<RT>, f<FS>"
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
if (FS == 0 || FS == 25 || FS == 26 || FS == 28 || FS == 31)
"ctc1 r<RT>, f<FS>"
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
TRACE_ALU_INPUT1 (GPR[RT]);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
"cvt.ps.s f<FD>, f<FS>, f<FT>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
"cvt.s.pl f<FD>, f<FS>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
"cvt.s.pu f<FD>, f<FS>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
"ldc1 f<FT>, <OFFSET>(r<BASE>)"
*mipsII:
*mips32:
+*mips32r2:
{
check_fpu (SD_);
COP_LD (1, FT, do_load_double (SD_, GPR[BASE], EXTEND16 (OFFSET)));
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
check_fpu (SD_);
"luxc1 f<FD>, r<INDEX>(r<BASE>)"
*mipsV:
*mips64:
+*mips64r2:
{
address_word base = GPR[BASE];
address_word index = GPR[INDEX];
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
check_fpu (SD_);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
check_fpu (SD_);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
check_fpu (SD_);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr5000:
{
check_fpu (SD_);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
"pll.ps f<FD>, f<FS>, f<FT>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
"plu.ps f<FD>, f<FS>, f<FT>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
address_word base = GPR[BASE];
"pul.ps f<FD>, f<FS>, f<FT>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
"puu.ps f<FD>, f<FS>, f<FT>"
*mipsV:
*mips64:
+*mips64r2:
{
check_fpu (SD_);
check_u64 (SD_, instruction_0);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
int fmt = FMT;
"sdc1 f<FT>, <OFFSET>(r<BASE>)"
*mipsII:
*mips32:
+*mips32r2:
{
check_fpu (SD_);
do_store_double (SD_, GPR[BASE], EXTEND16 (OFFSET), COP_SD (1, FT));
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
check_fpu (SD_);
"suxc1 f<FS>, r<INDEX>(r<BASE>)"
*mipsV:
*mips64:
+*mips64r2:
{
unsigned64 v;
address_word base = GPR[BASE];
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr5000:
{
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
{
check_u64 (SD_, instruction_0);
DecodeCoproc (instruction_0);
*mipsIV:
*mipsV:
*mips64:
+*mips64r2:
{
check_u64 (SD_, instruction_0);
DecodeCoproc (instruction_0);
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*r3900:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*r3900:
{
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
*mipsIV:
*mipsV:
*mips32:
+*mips32r2:
*mips64:
+*mips64r2:
*vr4100:
*vr5000:
-\f
+
+:include:::mips3264r2.igen
:include:::m16.igen
:include:::mdmx.igen
:include:::mips3d.igen
:include:::sb1.igen
:include:::tx.igen
:include:::vr.igen
-\f
+
--- /dev/null
+// -*- C -*-
+
+// Simulator definition for the MIPS 32/64 revision 2 instructions.
+// Copyright (C) 2004 Free Software Foundation, Inc.
+// Contributed by David Ung, 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 2, 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, write to the Free Software Foundation, Inc.,
+// 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+
+011111,5.RS,5.RT,5.SIZE,5.LSB,000011::64::DEXT
+"dext r<RT>, r<RS>, <LSB>, <SIZE+1>"
+*mips64r2:
+{
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT3 (GPR[RS], LSB, SIZE);
+ GPR[RT] = EXTRACTED64 (GPR[RS], LSB + SIZE, LSB);
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+011111,5.RS,5.RT,5.SIZE,5.LSB,000001::64::DEXTM
+"dextm r<RT>, r<RS>, <LSB>, <SIZE+33>"
+*mips64r2:
+{
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT3 (GPR[RS], LSB, SIZE);
+ GPR[RT] = EXTRACTED64 (GPR[RS], LSB + SIZE + 32, LSB);
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+011111,5.RS,5.RT,5.SIZE,5.LSB,000010::64::DEXTU
+"dextu r<RT>, r<RS>, <LSB+32>, <SIZE+1>"
+*mips64r2:
+{
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT3 (GPR[RS], LSB, SIZE);
+ GPR[RT] = EXTRACTED64 (GPR[RS], LSB + 32 + SIZE, LSB + 32);
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+
+010000,01011,5.RT,01100,00000,0,00,000::32::DI
+"di":RT == 0
+"di r<RT>"
+*mips32r2:
+*mips64r2:
+{
+ TRACE_ALU_INPUT0 ();
+ GPR[RT] = EXTEND32 (SR);
+ SR &= ~status_IE;
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+
+011111,5.RS,5.RT,5.MSB,5.LSB,000111::64::DINS
+"dins r<RT>, r<RS>, <LSB>, <MSB-LSB+1>"
+*mips64r2:
+{
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT4 (GPR[RT], GPR[RS], LSB, MSB);
+ if (LSB <= MSB)
+ GPR[RT] ^= (GPR[RT] ^ (GPR[RS] << LSB)) & MASK64 (MSB, LSB);
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+011111,5.RS,5.RT,5.MSB,5.LSB,000101::64::DINSM
+"dinsm r<RT>, r<RS>, <LSB>, <MSB+32-LSB+1>"
+*mips64r2:
+{
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT4 (GPR[RT], GPR[RS], LSB, MSB);
+ if (LSB <= MSB + 32)
+ GPR[RT] ^= (GPR[RT] ^ (GPR[RS] << LSB)) & MASK64 (MSB + 32, LSB);
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+011111,5.RS,5.RT,5.MSB,5.LSB,000110::64::DINSU
+"dinsu r<RT>, r<RS>, <LSB+32>, <MSB-LSB+1>"
+*mips64r2:
+{
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT4 (GPR[RT], GPR[RS], LSB, MSB);
+ if (LSB <= MSB)
+ GPR[RT] ^= (GPR[RT] ^ (GPR[RS] << (LSB + 32)))
+ & MASK64 (MSB + 32, LSB + 32);
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+
+011111,00000,5.RT,5.RD,00010,100100::64::DSBH
+"dsbh r<RD>, r<RT>"
+*mips64r2:
+{
+ union { unsigned64 d; unsigned16 h[4]; } u;
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT1 (GPR[RT]);
+ u.d = GPR[RT];
+ u.h[0] = SWAP_2 (u.h[0]);
+ u.h[1] = SWAP_2 (u.h[1]);
+ u.h[2] = SWAP_2 (u.h[2]);
+ u.h[3] = SWAP_2 (u.h[3]);
+ GPR[RD] = u.d;
+ TRACE_ALU_RESULT1 (GPR[RD]);
+}
+
+011111,00000,5.RT,5.RD,00101,100100::64::DSHD
+"dshd r<RD>, r<RT>"
+*mips64r2:
+{
+ unsigned64 d;
+ check_u64 (SD_, instruction_0);
+ TRACE_ALU_INPUT1 (GPR[RT]);
+ d = GPR[RT];
+ GPR[RD] = ((d >> 48)
+ | (d << 48)
+ | ((d & 0x0000ffff00000000) >> 16)
+ | ((d & 0x00000000ffff0000) << 16));
+ TRACE_ALU_RESULT1 (GPR[RD]);
+}
+
+
+010000,01011,5.RT,01100,00000,1,00,000::32::EI
+"ei":RT == 0
+"ei r<RT>"
+*mips32r2:
+*mips64r2:
+{
+ TRACE_ALU_INPUT0 ();
+ GPR[RT] = EXTEND32 (SR);
+ SR |= status_IE;
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+
+011111,5.RS,5.RT,5.SIZE,5.LSB,000000::32::EXT
+"ext r<RT>, r<RS>, <LSB>, <SIZE+1>"
+*mips32r2:
+*mips64r2:
+{
+ TRACE_ALU_INPUT3 (GPR[RS], LSB, SIZE);
+ GPR[RT] = EXTEND32 (EXTRACTED32 (GPR[RS], LSB + SIZE, LSB));
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+
+010001,00011,5.RT,5.FS,00000000000:COP1Sa:32,f::MFHC1
+"mfhc1 r<RT>, f<FS>"
+*mips32r2:
+*mips64r2:
+{
+ check_fpu (SD_);
+ if (SizeFGR() == 64)
+ GPR[RT] = EXTEND32 (WORD64HI (FGR[FS]));
+ else if ((FS & 0x1) == 0)
+ GPR[RT] = EXTEND32 (FGR[FS + 1]);
+ else
+ {
+ if (STATE_VERBOSE_P(SD))
+ sim_io_eprintf (SD,
+ "Warning: PC 0x%lx: MFHC1 32-bit use of odd FPR number\n",
+ (long) CIA);
+ GPR[RT] = EXTEND32 (0xBADF00D);
+ }
+ TRACE_ALU_RESULT (GPR[RT]);
+}
+
+010001,00111,5.RT,5.FS,00000000000:COP1Sa:32,f::MTHC1
+"mthc1 r<RT>, f<FS>"
+*mips32r2:
+*mips64r2:
+{
+ check_fpu (SD_);
+ if (SizeFGR() == 64)
+ StoreFPR (FS, fmt_uninterpreted_64, SET64HI (GPR[RT]) | VL4_8 (FGR[FS]));
+ else if ((FS & 0x1) == 0)
+ StoreFPR (FS + 1, fmt_uninterpreted_32, VL4_8 (GPR[RT]));
+ else
+ {
+ if (STATE_VERBOSE_P(SD))
+ sim_io_eprintf (SD,
+ "Warning: PC 0x%lx: MTHC1 32-bit use of odd FPR number\n",
+ (long) CIA);
+ StoreFPR (FS, fmt_uninterpreted_32, 0xDEADC0DE);
+ }
+ TRACE_FP_RESULT (GPR[RT]);
+}
+
+
+011111,5.RS,5.RT,5.MSB,5.LSB,000100::32::INS
+"ins r<RT>, r<RS>, <LSB>, <MSB-LSB+1>"
+*mips32r2:
+*mips64r2:
+{
+ TRACE_ALU_INPUT4 (GPR[RT], GPR[RS], LSB, MSB);
+ if (LSB <= MSB)
+ GPR[RT] = EXTEND32 (GPR[RT] ^
+ ((GPR[RT] ^ (GPR[RS] << LSB)) & MASK32 (MSB, LSB)));
+ TRACE_ALU_RESULT1 (GPR[RT]);
+}
+
+
+011111,00000,5.RT,5.RD,10000,100000::32::SEB
+"seb r<RD>, r<RT>"
+*mips32r2:
+*mips64r2:
+{
+ TRACE_ALU_INPUT1 (GPR[RT]);
+ GPR[RD] = EXTEND8 (GPR[RT]);
+ TRACE_ALU_RESULT1 (GPR[RD]);
+}
+
+011111,00000,5.RT,5.RD,11000,100000::32::SEH
+"seh r<RD>, r<RT>"
+*mips32r2:
+*mips64r2:
+{
+ TRACE_ALU_INPUT1 (GPR[RT]);
+ GPR[RD] = EXTEND16 (GPR[RT]);
+ TRACE_ALU_RESULT1 (GPR[RD]);
+}
+
+
+000001,5.BASE,11111,16.OFFSET::32::SYNCI
+"synci <OFFSET>(r<BASE>)"
+*mips32r2:
+*mips64r2:
+{
+ // sync i-cache - nothing to do currently
+}
+
+
+011111,00000,5.RT,5.RD,00010,100000::32::WSBH
+"wsbh r<RD>, r<RT>"
+*mips32r2:
+*mips64r2:
+{
+ union { unsigned32 w; unsigned16 h[2]; } u;
+ TRACE_ALU_INPUT1 (GPR[RT]);
+ u.w = GPR[RT];
+ u.h[0] = SWAP_2 (u.h[0]);
+ u.h[1] = SWAP_2 (u.h[1]);
+ GPR[RD] = EXTEND32 (u.w);
+ TRACE_ALU_RESULT1 (GPR[RD]);
+}
+
+
+
GPR[rd] = store_hi_p ? HI : LO;
}
-// 32-bit rotate right of X by Y bits.
-:function:::unsigned64:do_ror:unsigned32 x,unsigned32 y
-*vr5400:
-*vr5500:
-{
- unsigned64 result;
-
- y &= 31;
- TRACE_ALU_INPUT2 (x, y);
- result = EXTEND32 (ROTR32 (x, y));
- TRACE_ALU_RESULT (result);
- return result;
-}
-
-// Likewise 64-bit
-:function:::unsigned64:do_dror:unsigned64 x,unsigned64 y
-*vr5400:
-*vr5500:
-{
- unsigned64 result;
-
- y &= 63;
- TRACE_ALU_INPUT2 (x, y);
- result = ROTR64 (x, y);
- TRACE_ALU_RESULT (result);
- return result;
-}
-
-
// VR4100 instructions.
000000,5.RS,5.RT,00000,00000,101000::32::MADD16
0 /* single */);
}
-000000,00001,5.RT,5.RD,5.SHIFT,000010::32::ROR
-"ror r<RD>, r<RT>, <SHIFT>"
-*vr5400:
-*vr5500:
-{
- GPR[RD] = do_ror (SD_, GPR[RT], SHIFT);
-}
-
-000000,5.RS,5.RT,5.RD,00001,000110::32::RORV
-"rorv r<RD>, r<RT>, r<RS>"
-*vr5400:
-*vr5500:
-{
- GPR[RD] = do_ror (SD_, GPR[RT], GPR[RS]);
-}
-
-000000,00001,5.RT,5.RD,5.SHIFT,111010::64::DROR
-"dror r<RD>, r<RT>, <SHIFT>"
-*vr5400:
-*vr5500:
-{
- GPR[RD] = do_dror (SD_, GPR[RT], SHIFT);
-}
-
-000000,00001,5.RT,5.RD,5.SHIFT,111110::64::DROR32
-"dror32 r<RD>, r<RT>, <SHIFT>"
-*vr5400:
-*vr5500:
-{
- GPR[RD] = do_dror (SD_, GPR[RT], SHIFT + 32);
-}
-
-000000,5.RS,5.RT,5.RD,00001,010110::64::DRORV
-"drorv r<RD>, r<RT>, r<RS>"
-*vr5400:
-*vr5500:
-{
- GPR[RD] = do_dror (SD_, GPR[RT], GPR[RS]);
-}
010011,5.BASE,5.INDEX,5.0,5.FD,000101:COP1X:64::LUXC1
"luxc1 f<FD>, r<INDEX>(r<BASE>)"
projects / deliverable / binutils-gdb.git / commitdiff
