mirrors/binutils-gdb
0
0
Fork 0
mirror of https://sourceware.org/git/binutils-gdb.git synced 2024-12-03 15:23:53 +08:00
Code Issues Actions Packages Projects Releases Wiki Activity
5d5a459fd1
binutils-gdb/sim/mips/mips.igen
Jeff Law 23850e9219 * mips.igen (MSUB): Fix to work like MADD. 
* gencode.c (MSUB): Similarly.
1997-12-11 00:11:04 +00:00

5210 lines
112 KiB
Plaintext
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// <insn> ::=
// <insn-word> { "+" <insn-word> }
// ":" <format-name>
// ":" <filter-flags>
// ":" <options>
// ":" <name>
// <nl>
// { <insn-model> }
// { <insn-mnemonic> }
// <code-block>
//
// IGEN config - mips16
:option:16::insn-bit-size:16
:option:16::hi-bit-nr:15
:option:16::insn-specifying-widths:true
:option:16::gen-delayed-branch:false
// IGEN config - mips32/64..
:option:32::insn-bit-size:32
:option:32::hi-bit-nr:31
:option:32::insn-specifying-widths:true
:option:32::gen-delayed-branch:false
// Generate separate simulators for each target
// :option:::multi-sim:true
// Models known by this simulator
:model:::mipsI:mipsI:
:model:::mipsII:mipsII:
:model:::mipsIII:mipsIII:
:model:::mipsIV:mipsIV:
:model:::mips16:mips16:
// start-sanitize-r5900
:model:::r5900:r5900:
// end-sanitize-r5900
:model:::r3900:r3900:
// start-sanitize-tx19
:model:::tx19:tx19:
// end-sanitize-tx19
// start-sanitize-vr5400
:model:::vr5400:vr5400:
:model:::mdmx:mdmx:
// end-sanitize-vr5400
:model:::vr5000:vr5000:
// Pseudo instructions known by IGEN
:internal::::illegal:
{
SignalException (ReservedInstruction, 0);
}
// Pseudo instructions known by interp.c
// For grep - RSVD_INSTRUCTION, RSVD_INSTRUCTION_MASK
000000,5.*,5.*,5.*,5.OP,000101:SPECIAL:32::RSVD
"rsvd <OP>"
{
SignalException (ReservedInstruction, instruction_0);
}
//
// Mips Architecture:
//
// CPU Instruction Set (mipsI - mipsIV)
//
000000,5.RS,5.RT,5.RD,00000,100000:SPECIAL:32::ADD
"add r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
ALU32_BEGIN (GPR[RS]);
ALU32_ADD (GPR[RT]);
ALU32_END (GPR[RD]);
}
001000,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::ADDI
"addi r<RT>, r<RS>, IMMEDIATE"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
ALU32_BEGIN (GPR[RS]);
ALU32_ADD (EXTEND16 (IMMEDIATE));
ALU32_END (GPR[RT]);
}
001001,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::ADDIU
"add r<RT>, r<RS>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
signed32 temp = GPR[RS] + EXTEND16 (IMMEDIATE);
GPR[RT] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000,100001:SPECIAL:32::ADDU
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
signed32 temp = GPR[RS] + GPR[RT];
GPR[RD] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000,100100:SPECIAL:32::AND
"and r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = GPR[RS] & GPR[RT];
}
001100,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::ANDI
"and r<RT>, r<RS>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = GPR[RS] & IMMEDIATE;
}
000100,5.RS,5.RT,16.OFFSET:NORMAL:32::BEQ
"beq r<RS>, r<RT>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] == (signed_word) GPR[RT])
DELAY_SLOT (NIA + offset);
}
010100,5.RS,5.RT,16.OFFSET:NORMAL:32::BEQL
"beql r<RS>, r<RT>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] == (signed_word) GPR[RT])
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000001,5.RS,00001,16.OFFSET:REGIMM:32::BGEZ
"bgez r<RS>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] >= 0)
DELAY_SLOT (NIA + offset);
}
000001,5.RS!31,10001,16.OFFSET:REGIMM:32::BGEZAL
"bgezal r<RS>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
RA = (CIA + 8);
if ((signed_word) GPR[RS] >= 0)
DELAY_SLOT (NIA + offset);
}
000001,5.RS!31,10011,16.OFFSET:REGIMM:32::BGEZALL
"bgezall r<RS>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
RA = (CIA + 8);
/* NOTE: The branch occurs AFTER the next instruction has been
executed */
if ((signed_word) GPR[RS] >= 0)
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000001,5.RS,00011,16.OFFSET:REGIMM:32::BGEZL
"bgezl r<RS>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] >= 0)
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000111,5.RS,00000,16.OFFSET:NORMAL:32::BGTZ
"bgtz r<RS>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] > 0)
DELAY_SLOT (NIA + offset);
}
010111,5.RS,00000,16.OFFSET:NORMAL:32::BGTZL
"bgtzl r<RS>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
/* NOTE: The branch occurs AFTER the next instruction has been
executed */
if ((signed_word) GPR[RS] > 0)
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000110,5.RS,00000,16.OFFSET:NORMAL:32::BLEZ
"blez r<RS>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
/* NOTE: The branch occurs AFTER the next instruction has been
executed */
if ((signed_word) GPR[RS] <= 0)
DELAY_SLOT (NIA + offset);
}
010110,5.RS,00000,16.OFFSET:NORMAL:32::BLEZL
"bgezl r<RS>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] <= 0)
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000001,5.RS,00000,16.OFFSET:REGIMM:32::BLTZ
"bltz r<RS>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] < 0)
DELAY_SLOT (NIA + offset);
}
000001,5.RS!31,10000,16.OFFSET:REGIMM:32::BLTZAL
"bltzal r<RS>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
RA = (CIA + 8);
/* NOTE: The branch occurs AFTER the next instruction has been
executed */
if ((signed_word) GPR[RS] < 0)
DELAY_SLOT (NIA + offset);
}
000001,5.RS!31,10010,16.OFFSET:REGIMM:32::BLTZALL
"bltzall r<RS>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
RA = (CIA + 8);
if ((signed_word) GPR[RS] < 0)
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000001,5.RS,00010,16.OFFSET:REGIMM:32::BLTZL
"bltzl r<RS>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
/* NOTE: The branch occurs AFTER the next instruction has been
executed */
if ((signed_word) GPR[RS] < 0)
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000101,5.RS,5.RT,16.OFFSET:NORMAL:32::BNE
"bne r<RS>, r<RT>, <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] != (signed_word) GPR[RT])
DELAY_SLOT (NIA + offset);
}
010101,5.RS,5.RT,16.OFFSET:NORMAL:32::BNEL
"bnel r<RS>, r<RT>, <OFFSET>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word offset = EXTEND16 (OFFSET) << 2;
if ((signed_word) GPR[RS] != (signed_word) GPR[RT])
DELAY_SLOT (NIA + offset);
else
NULLIFY_NEXT_INSTRUCTION ();
}
000000,20.CODE,001101:SPECIAL:32::BREAK
"break"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
SignalException(BreakPoint, instruction_0);
}
0100,ZZ!0!1!3,26.COP_FUN:NORMAL:32::COPz
"cop<ZZ> <COP_FUN>"
*mipsI,mipsII,mipsIII,mipsIV:
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
DecodeCoproc (instruction_0);
}
000000,5.RS,5.RT,5.RD,00000,101100:SPECIAL:64::DADD
"dadd r<RD>, r<RS>, r<RT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
ALU64_BEGIN (GPR[RS]);
ALU64_ADD (GPR[RT]);
ALU64_END (GPR[RT]);
}
011000,5.RS,5.RT,16.IMMEDIATE:NORMAL:64::DADDI
"daddi r<RT>, r<RS>, <IMMEDIATE>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
ALU64_BEGIN (GPR[RS]);
ALU64_ADD (EXTEND16 (IMMEDIATE));
ALU64_END (GPR[RT]);
}
011001,5.RS,5.RT,16.IMMEDIATE:NORMAL:64::DADDIU
"daddu r<RT>, r<RS>, <IMMEDIATE>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = GPR[RS] + EXTEND16 (IMMEDIATE);
}
000000,5.RS,5.RT,5.RD,00000,101101:SPECIAL:64::DADDU
"daddu r<RD>, r<RS>, r<RT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = GPR[RS] + GPR[RT];
}
000000,5.RS,5.RT,0000000000011110:SPECIAL:64::DDIV
"ddiv r<RS>, r<RT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
CHECKHILO ("Division");
{
signed64 n = GPR[RS];
signed64 d = GPR[RT];
if (d == 0)
{
LO = SIGNED64 (0x8000000000000000);
HI = 0;
}
else if (d == -1 && n == SIGNED64 (0x8000000000000000))
{
LO = SIGNED64 (0x8000000000000000);
HI = 0;
}
else
{
LO = (n / d);
HI = (n % d);
}
}
}
000000,5.RS,5.RT,0000000000,011111:SPECIAL:64::DDIVU
"ddivu r<RS>, r<RT>"
*mipsIII:
*mipsIV:
*r3900:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
CHECKHILO ("Division");
{
unsigned64 n = GPR[RS];
unsigned64 d = GPR[RT];
if (d == 0)
{
LO = SIGNED64 (0x8000000000000000);
HI = 0;
}
else
{
LO = (n / d);
HI = (n % d);
}
}
}
000000,5.RS,5.RT,0000000000011010:SPECIAL:32::DIV
"div r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
CHECKHILO("Division");
{
signed32 n = GPR[RS];
signed32 d = GPR[RT];
if (d == 0)
{
LO = EXTEND32 (0x80000000);
HI = EXTEND32 (0);
}
else if (d == -1 && d == 0x80000000)
{
LO = EXTEND32 (0x80000000);
HI = EXTEND32 (0);
}
else
{
LO = EXTEND32 (n / d);
HI = EXTEND32 (n % d);
}
}
}
000000,5.RS,5.RT,0000000000011011:SPECIAL:32::DIVU
"divu r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
CHECKHILO ("Division");
{
unsigned32 n = GPR[RS];
unsigned32 d = GPR[RT];
if (d == 0)
{
LO = EXTEND32 (0x80000000);
HI = EXTEND32 (0);
}
else
{
LO = EXTEND32 (n / d);
HI = EXTEND32 (n % d);
}
}
}
:function:::void:do_dmult:int rs, int rt, int rd, int signed_p
{
unsigned64 lo;
unsigned64 hi;
unsigned64 m00;
unsigned64 m01;
unsigned64 m10;
unsigned64 m11;
unsigned64 mid;
int sign;
unsigned64 op1 = GPR[rs];
unsigned64 op2 = GPR[rt];
CHECKHILO ("Multiplication");
/* make signed multiply unsigned */
sign = 0;
if (signed_p)
{
if (op1 < 0)
{
op1 = - op1;
++sign;
}
if (op2 < 0)
{
op2 = - op2;
++sign;
}
}
/* multuply out the 4 sub products */
m00 = ((unsigned64) VL4_8 (op1) * (unsigned64) VL4_8 (op2));
m10 = ((unsigned64) VH4_8 (op1) * (unsigned64) VL4_8 (op2));
m01 = ((unsigned64) VL4_8 (op1) * (unsigned64) VH4_8 (op2));
m11 = ((unsigned64) VH4_8 (op1) * (unsigned64) VH4_8 (op2));
/* add the products */
mid = ((unsigned64) VH4_8 (m00)
+ (unsigned64) VL4_8 (m10)
+ (unsigned64) VL4_8 (m01));
lo = U8_4 (mid, m00);
hi = (m11
+ (unsigned64) VH4_8 (mid)
+ (unsigned64) VH4_8 (m01)
+ (unsigned64) VH4_8 (m10));
/* fix the sign */
if (sign & 1)
{
lo = -lo;
if (lo == 0)
hi = -hi;
else
hi = -hi - 1;
}
/* save the result HI/LO (and a gpr) */
LO = lo;
HI = hi;
if (rd != 0)
GPR[rd] = lo;
}
000000,5.RS,5.RT,0000000000011100:SPECIAL:64::DMULT
"dmult r<RS>, r<RT>"
*mipsIII,mipsIV:
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
do_dmult (SD_, RS, RT, 0, 1);
}
000000,5.RS,5.RT,5.RD,00000011100:SPECIAL:64::DMULT
"dmult r<RS>, r<RT>":RD == 0
"dmult r<RD>, r<RS>, r<RT>"
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
do_dmult (SD_, RS, RT, RD, 1);
}
000000,5.RS,5.RT,0000000000011101:SPECIAL:64::DMULTU
"dmultu r<RS>, r<RT>"
*mipsIII,mipsIV:
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
do_dmult (SD_, RS, RT, 0, 0);
}
000000,5.RS,5.RT,5.RD,00000011101:SPECIAL:64::DMULTU
"dmultu r<RD>, r<RS>, r<RT>":RD == 0
"dmultu r<RS>, r<RT>"
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
do_dmult (SD_, RS, RT, RD, 0);
}
00000000000,5.RT,5.RD,5.SHIFT,111000:SPECIAL:64::DSLL
"dsll r<RD>, r<RT>, <SHIFT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = SHIFT;
GPR[RD] = GPR[RT] << s;
}
00000000000,5.RT,5.RD,5.SHIFT,111100:SPECIAL:64::DSLL32
"dsll32 r<RD>, r<RT>, <SHIFT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = 32 + SHIFT;
GPR[RD] = GPR[RT] << s;
}
000000,5.RS,5.RT,5.RD,00000010100:SPECIAL:64::DSLLV
"dsllv r<RD>, r<RT>, r<RS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = MASKED64 (GPR[RS], 5, 0);
GPR[RD] = GPR[RT] << s;
}
00000000000,5.RT,5.RD,5.SHIFT,111011:SPECIAL:64::DSRA
"dsra r<RD>, r<RT>, <SHIFT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = SHIFT;
GPR[RD] = ((signed64) GPR[RT]) >> s;
}
00000000000,5.RT,5.RD,5.SHIFT,111111:SPECIAL:64::DSRA32
"dsra32 r<RT>, r<RD>, <SHIFT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = 32 + SHIFT;
GPR[RD] = ((signed64) GPR[RT]) >> s;
}
000000,5.RS,5.RT,5.RD,00000010111:SPECIAL:64::DSRAV
"dsra32 r<RT>, r<RD>, r<RS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = MASKED64 (GPR[RS], 5, 0);
GPR[RD] = ((signed64) GPR[RT]) >> s;
}
00000000000,5.RT,5.RD,5.SHIFT,111010:SPECIAL:64::DSRL
"dsrav r<RD>, r<RT>, <SHIFT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = SHIFT;
GPR[RD] = (unsigned64) GPR[RT] >> s;
}
00000000000,5.RT,5.RD,5.SHIFT,111110:SPECIAL:64::DSRL32
"dsrl32 r<RD>, r<RT>, <SHIFT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = 32 + SHIFT;
GPR[RD] = (unsigned64) GPR[RT] >> s;
}
000000,5.RS,5.RT,5.RD,00000010110:SPECIAL:64::DSRLV
"dsrl32 r<RD>, r<RT>, r<RS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = MASKED64 (GPR[RS], 5, 0);
GPR[RD] = (unsigned64) GPR[RT] >> s;
}
000000,5.RS,5.RT,5.RD,00000101110:SPECIAL:64::DSUB
"dsub r<RD>, r<RS>, r<RT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
ALU64_BEGIN (GPR[RS]);
ALU64_SUB (GPR[RT]);
ALU64_END (GPR[RD]);
}
000000,5.RS,5.RT,5.RD,00000101111:SPECIAL:64::DSUBU
"dsubu r<RD>, r<RS>, r<RT>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = GPR[RS] - GPR[RT];
}
000010,26.INSTR_INDEX:NORMAL:32::J
"j <INSTR_INDEX>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
/* NOTE: The region used is that of the delay slot NIA and NOT the
current instruction */
address_word region = (NIA & MASK (63, 28));
DELAY_SLOT (region | (INSTR_INDEX << 2));
}
000011,26.INSTR_INDEX:NORMAL:32::JAL
"jal <INSTR_INDEX>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
/* NOTE: The region used is that of the delay slot and NOT the
current instruction */
address_word region = (NIA & MASK (63, 28));
GPR[31] = CIA + 8;
DELAY_SLOT (region | (INSTR_INDEX << 2));
}
000000,5.RS,00000,5.RD,00000001001:SPECIAL:32::JALR
"jalr r<RS>":RD == 31
"jalr r<RD>, r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word temp = GPR[RS];
GPR[RD] = CIA + 8;
DELAY_SLOT (temp);
}
000000,5.RS,000000000000000001000:SPECIAL:32::JR
"jr r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
DELAY_SLOT (GPR[RS]);
}
100000,5.BASE,5.RT,16.OFFSET:NORMAL:32::LB
"lb r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((uword64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
uword64 memval = 0;
uword64 memval1 = 0;
uword64 mask = 0x7;
unsigned int shift = 0;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_BYTE,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (SIGNEXTEND(((memval >> (8 * byte)) & 0x000000FF),8));
}
}
}
}
100100,5.BASE,5.RT,16.OFFSET:NORMAL:32::LBU
"lbu r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 0;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_BYTE,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (((memval >> (8 * byte)) & 0x000000FF));
}
}
}
}
110111,5.BASE,5.RT,16.OFFSET:NORMAL:64::LD
"ld r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
LoadMemory(&memval,&memval1,uncached,AccessLength_DOUBLEWORD,paddr,vaddr,isDATA,isREAL);
GPR[destreg] = memval;
}
}
}
}
1101,ZZ!0!1!3,5.BASE,5.RT,16.OFFSET:NORMAL:64::LDCz
"ldc<ZZ> r<RT>, <OFFSET>(r<BASE>)"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
LoadMemory(&memval,&memval1,uncached,AccessLength_DOUBLEWORD,paddr,vaddr,isDATA,isREAL);
COP_LD(((instruction >> 26) & 0x3),destreg,memval);;
}
}
}
}
011010,5.BASE,5.RT,16.OFFSET:NORMAL:64::LDL
"ldl r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 7;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
byte = ((vaddr & mask) ^ bigend);
if (!BigEndianMem)
paddr &= ~mask;
LoadMemory(&memval,&memval1,uncached,byte,paddr,vaddr,isDATA,isREAL);
GPR[destreg] = ((memval << ((7 - byte) * 8)) | (GPR[destreg] & (((unsigned64)1 << ((7 - byte) * 8)) - 1)));
}
}
}
}
011011,5.BASE,5.RT,16.OFFSET:NORMAL:64::LDR
"ldr r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 7;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
byte = ((vaddr & mask) ^ bigend);
if (BigEndianMem)
paddr &= ~mask;
LoadMemory(&memval,&memval1,uncached,(7 - byte),paddr,vaddr,isDATA,isREAL);
{
unsigned64 srcmask;
if (byte == 0)
srcmask = 0;
else
srcmask = ((unsigned64)-1 << (8 * (8 - byte)));
GPR[destreg] = ((GPR[destreg] & srcmask) | (memval >> (8 * byte)));
}
}
}
}
}
100001,5.BASE,5.RT,16.OFFSET:NORMAL:32::LH
"lh r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 1) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 1;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_HALFWORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (SIGNEXTEND(((memval >> (8 * byte)) & 0x0000FFFF),16));
}
}
}
}
100101,5.BASE,5.RT,16.OFFSET:NORMAL:32::LHU
"lhu r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 1) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 1;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_HALFWORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (((memval >> (8 * byte)) & 0x0000FFFF));
}
}
}
}
110000,5.BASE,5.RT,16.OFFSET:NORMAL:32::LL
"ll r<RT>, <OFFSET>(r<BASE>)"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 2;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_WORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (SIGNEXTEND(((memval >> (8 * byte)) & 0xFFFFFFFF),32));
LLBIT = 1;
}
}
}
}
110100,5.BASE,5.RT,16.OFFSET:NORMAL:64::LLD
"lld r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
LoadMemory(&memval,&memval1,uncached,AccessLength_DOUBLEWORD,paddr,vaddr,isDATA,isREAL);
GPR[destreg] = memval;
LLBIT = 1;
}
}
}
}
001111,00000,5.RT,16.IMMEDIATE:NORMAL:32::LUI
"lui r<RT>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = EXTEND32 (IMMEDIATE << 16);
}
100011,5.BASE,5.RT,16.OFFSET:NORMAL:32::LW
"lw r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 2;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_WORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (SIGNEXTEND(((memval >> (8 * byte)) & 0xFFFFFFFF),32));
}
}
}
}
1100,ZZ!0!1!3,5.BASE,5.RT,16.OFFSET:NORMAL:32::LWCz
"lwc<ZZ> r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 2;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_WORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
COP_LW(((instruction >> 26) & 0x3),destreg,(unsigned int)((memval >> (8 * byte)) & 0xFFFFFFFF));
}
}
}
}
100010,5.BASE,5.RT,16.OFFSET:NORMAL:32::LWL
"lwl r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 3;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
byte = ((vaddr & mask) ^ bigend);
if (!BigEndianMem)
paddr &= ~mask;
LoadMemory(&memval,&memval1,uncached,byte,paddr,vaddr,isDATA,isREAL);
if ((vaddr & (1 << 2)) ^ (BigEndianCPU << 2)) {
memval >>= 32;
}
GPR[destreg] = ((memval << ((3 - byte) * 8)) | (GPR[destreg] & (((unsigned64)1 << ((3 - byte) * 8)) - 1)));
GPR[destreg] = SIGNEXTEND(GPR[destreg],32);
}
}
}
}
100110,5.BASE,5.RT,16.OFFSET:NORMAL:32::LWR
"lwr r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 3;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
byte = ((vaddr & mask) ^ bigend);
if (BigEndianMem)
paddr &= ~mask;
LoadMemory(&memval,&memval1,uncached,(3 - byte),paddr,vaddr,isDATA,isREAL);
if ((vaddr & (1 << 2)) ^ (BigEndianCPU << 2)) {
memval >>= 32;
}
{
unsigned64 srcmask;
if (byte == 0)
srcmask = 0;
else
srcmask = ((unsigned64)-1 << (8 * (4 - byte)));
GPR[destreg] = ((GPR[destreg] & srcmask) | (memval >> (8 * byte)));
}
GPR[destreg] = SIGNEXTEND(GPR[destreg],32);
}
}
}
}
100111,5.BASE,5.RT,16.OFFSET:NORMAL:32::LWU
"lwu r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 2;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_WORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
GPR[destreg] = (((memval >> (8 * byte)) & 0xFFFFFFFF));
}
}
}
}
000000,0000000000,5.RD,00000,010000:SPECIAL:32::MFHI
"mfhi r<RD>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = HI;
#if 0
HIACCESS = 3;
#endif
}
000000,0000000000,5.RD,00000,010010:SPECIAL:32::MFLO
"mflo r<RD>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = LO;
#if 0
LOACCESS = 3; /* 3rd instruction will be safe */
#endif
}
000000,5.RS,5.RT,5.RD,00000001011:SPECIAL:32::MOVN
"movn r<RD>, r<RS>, r<RT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
if (GPR[RT] != 0)
GPR[RD] = GPR[RS];
}
000000,5.RS,5.RT,5.RD,00000001010:SPECIAL:32::MOVZ
"movz r<RD>, r<RS>, r<RT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
if (GPR[RT] == 0)
GPR[RD] = GPR[RS];
}
000000,5.RS,000000000000000,010001:SPECIAL:32::MTHI
"mthi r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
#if 0
if (HIACCESS != 0)
sim_io_eprintf (sd, "MT (move-to) over-writing HI register value\n");
#endif
HI = GPR[RS];
#if 0
HIACCESS = 3; /* 3rd instruction will be safe */
#endif
}
000000,5.RS,000000000000000010011:SPECIAL:32::MTLO
"mtlo r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
#if 0
if (LOACCESS != 0)
sim_io_eprintf (sd, "MT (move-to) over-writing LO register value\n");
#endif
LO = GPR[RS];
#if 0
LOACCESS = 3; /* 3rd instruction will be safe */
#endif
}
000000,5.RS,5.RT,00000,00000011000:SPECIAL:32::MULT
"mult r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
{
signed64 prod;
CHECKHILO ("Multiplication");
prod = (((signed64)(signed32) GPR[RS])
* ((signed64)(signed32) GPR[RT]));
LO = EXTEND32 (VL4_8 (prod));
HI = EXTEND32 (VH4_8 (prod));
}
000000,5.RS,5.RT,5.RD,00000011000:SPECIAL:32::MULT
"mult r<RD>, r<RS>, r<RT>"
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
signed64 prod;
CHECKHILO ("Multiplication");
prod = (((signed64)(signed32) GPR[RS])
* ((signed64)(signed32) GPR[RT]));
LO = EXTEND32 (VL4_8 (prod));
HI = EXTEND32 (VH4_8 (prod));
if (RD != 0)
GPR[RD] = LO;
}
000000,5.RS,5.RT,00000,00000011001:SPECIAL:32::MULTU
"multu r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
{
unsigned64 prod;
CHECKHILO ("Multiplication");
prod = (((unsigned64)(unsigned32) GPR[RS])
* ((unsigned64)(unsigned32) GPR[RT]));
LO = EXTEND32 (VL4_8 (prod));
HI = EXTEND32 (VH4_8 (prod));
}
000000,5.RS,5.RT,5.RD,00000011001:SPECIAL:32::MULTU
"multu r<RD>, r<RS>, r<RT>"
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned64 prod;
CHECKHILO ("Multiplication");
prod = (((unsigned64)(unsigned32) GPR[RS])
* ((unsigned64)(unsigned32) GPR[RT]));
LO = EXTEND32 (VL4_8 (prod));
HI = EXTEND32 (VH4_8 (prod));
if (RD != 0)
GPR[RD] = LO;
}
000000,5.RS,5.RT,5.RD,00000,100111:SPECIAL:32::NOR
"nor r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = ~ (GPR[RS] | GPR[RT]);
}
000000,5.RS,5.RT,5.RD,00000,100101:SPECIAL:32::OR
"or r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = (GPR[RS] | GPR[RT]);
}
001101,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::ORI
"ori r<RT>, r<RS>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = (GPR[RS] | IMMEDIATE);
}
110011,5.RS,nnnnn,16.OFFSET:NORMAL:32::PREF
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int hint = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
Prefetch(uncached,paddr,vaddr,isDATA,hint);
}
}
}
101000,5.BASE,5.RT,16.OFFSET:NORMAL:32::SB
"sb r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 0;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
byte = ((vaddr & mask) ^ (bigend << shift));
memval = ((unsigned64) op2 << (8 * byte));
{
StoreMemory(uncached,AccessLength_BYTE,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
111000,5.BASE,5.RT,16.OFFSET:NORMAL:32::SC
"sc r<RT>, <OFFSET>(r<BASE>)"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)));
byte = ((vaddr & mask) ^ (BigEndianCPU << 2));
memval = ((unsigned64) op2 << (8 * byte));
if (LLBIT)
{
StoreMemory(uncached,AccessLength_WORD,memval,memval1,paddr,vaddr,isREAL);
}
GPR[(instruction >> 16) & 0x0000001F] = LLBIT;
}
}
}
}
111100,5.BASE,5.RT,16.OFFSET:NORMAL:64::SCD
"scd r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
memval = op2;
if (LLBIT)
{
StoreMemory(uncached,AccessLength_DOUBLEWORD,memval,memval1,paddr,vaddr,isREAL);
}
GPR[(instruction >> 16) & 0x0000001F] = LLBIT;
}
}
}
}
111111,5.BASE,5.RT,16.OFFSET:NORMAL:64::SD
"sd r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
memval = op2;
{
StoreMemory(uncached,AccessLength_DOUBLEWORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
1111,ZZ!0!1!3,5.BASE,5.RT,16.OFFSET:NORMAL:64::SDCz
"sdc<ZZ> r<RT>, <OFFSET>(r<BASE>)"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
memval = (unsigned64)COP_SD(((instruction >> 26) & 0x3),destreg);
{
StoreMemory(uncached,AccessLength_DOUBLEWORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
101100,5.BASE,5.RT,16.OFFSET:NORMAL:64::SDL
"sdl r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 7;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
byte = ((vaddr & mask) ^ bigend);
if (!BigEndianMem)
paddr &= ~mask;
memval = (op2 >> (8 * (7 - byte)));
StoreMemory(uncached,byte,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
101101,5.BASE,5.RT,16.OFFSET:NORMAL:64::SDR
"sdr r<RT>, <OFFSET>(r<BASE>)"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word paddr;
int uncached;
unsigned64 memval;
unsigned64 mask = 7;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
address_word vaddr = (GPR[BASE] + EXTEND16 (OFFSET));
AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL);
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
if (BigEndianMem)
paddr &= ~mask;
byte = ((vaddr & mask) ^ bigend);
memval = (GPR[RT] << (byte * 8));
StoreMemory(uncached,(AccessLength_DOUBLEWORD - byte),memval,0,paddr,vaddr,isREAL);
}
101001,5.BASE,5.RT,16.OFFSET:NORMAL:32::SH
"sh r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 1) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 1;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
byte = ((vaddr & mask) ^ (bigend << shift));
memval = ((unsigned64) op2 << (8 * byte));
{
StoreMemory(uncached,AccessLength_HALFWORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
00000000000,5.RT,5.RD,5.SHIFT,000000:SPECIAL:32::SLL
"sll r<RD>, r<RT>, <SHIFT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = SHIFT;
unsigned32 temp = (GPR[RT] << s);
GPR[RD] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000000100:SPECIAL:32::SLLV
"sllv r<RD>, r<RT>, r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = MASKED (GPR[RS], 4, 0);
unsigned32 temp = (GPR[RT] << s);
GPR[RD] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000101010:SPECIAL:32::SLT
"slt r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = ((signed_word) GPR[RS] < (signed_word) GPR[RT]);
}
001010,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::SLTI
"slti r<RT>, r<RS>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = ((signed_word) GPR[RS] < (signed_word) EXTEND16 (IMMEDIATE));
}
001011,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::SLTIU
"sltiu r<RT>, r<RS>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = ((unsigned_word) GPR[RS] < (unsigned_word) EXTEND16 (IMMEDIATE));
}
000000,5.RS,5.RT,5.RD,00000101011:SPECIAL:32::SLTU
"sltu r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = ((unsigned_word) GPR[RS] < (unsigned_word) GPR[RT]);
}
000000,00000,5.RT,5.RD,5.SHIFT,000011:SPECIAL:32::SRA
"sra r<RD>, r<RT>, <SHIFT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = SHIFT;
signed32 temp = (signed32) GPR[RT] >> s;
GPR[RD] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000000111:SPECIAL:32::SRAV
"srav r<RD>, r<RT>, r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = MASKED (GPR[RS], 4, 0);
signed32 temp = (signed32) GPR[RT] >> s;
GPR[RD] = EXTEND32 (temp);
}
000000,00000,5.RT,5.RD,5.SHIFT,000010:SPECIAL:32::SRL
"srl r<RD>, r<RT>, <SHIFT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = SHIFT;
unsigned32 temp = (unsigned32) GPR[RT] >> s;
GPR[RD] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000000110:SPECIAL:32::SRLV
"srlv r<RD>, r<RT>, r<RS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
int s = MASKED (GPR[RS], 4, 0);
unsigned32 temp = (unsigned32) GPR[RT] >> s;
GPR[RD] = EXTEND32 (temp);
}
000000,5.RS,5.RT,5.RD,00000100010:SPECIAL:32::SUB
"sub r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
ALU32_BEGIN (GPR[RS]);
ALU32_SUB (GPR[RT]);
ALU32_END (GPR[RD]);
}
000000,5.RS,5.RT,5.RD,00000100011:SPECIAL:32::SUBU
"subu r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = EXTEND32 (GPR[RS] - GPR[RT]);
}
101011,5.BASE,5.RT,16.OFFSET:NORMAL:32::SW
"sw r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)));
byte = ((vaddr & mask) ^ (BigEndianCPU << 2));
memval = ((unsigned64) op2 << (8 * byte));
{
StoreMemory(uncached,AccessLength_WORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
1110,ZZ!0!1!3,5.BASE,5.RT,16.OFFSET:NORMAL:32::SWCz
"swc<ZZ> r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int destreg = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)));
byte = ((vaddr & mask) ^ (BigEndianCPU << 2));
memval = (((unsigned64)COP_SW(((instruction >> 26) & 0x3),destreg)) << (8 * byte));
{
StoreMemory(uncached,AccessLength_WORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
101010,5.BASE,5.RT,16.OFFSET:NORMAL:32::SWL
"swl r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + offset);
address_word paddr;
int uncached;
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 3;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
byte = ((vaddr & mask) ^ bigend);
if (!BigEndianMem)
paddr &= ~mask;
memval = (op2 >> (8 * (3 - byte)));
if ((vaddr & (1 << 2)) ^ (BigEndianCPU << 2)) {
memval <<= 32;
}
StoreMemory(uncached,byte,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
101110,5.BASE,5.RT,16.OFFSET:NORMAL:32::SWR
"swr r<RT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned64 memval = 0;
unsigned64 mask = 3;
unsigned int reverse = (ReverseEndian ? mask : 0);
unsigned int bigend = (BigEndianCPU ? mask : 0);
int byte;
address_word paddr;
int uncached;
address_word vaddr = (GPR[BASE] + EXTEND16 (OFFSET));
AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL);
paddr = ((paddr & ~mask) | ((paddr & mask) ^ reverse));
if (BigEndianMem)
paddr &= ~mask;
byte = ((vaddr & mask) ^ bigend);
memval = (GPR[RT] << (byte * 8));
if ((vaddr & (1 << 2)) ^ (BigEndianCPU << 2))
memval <<= 32;
StoreMemory(uncached,(AccessLength_WORD - byte),memval,0,paddr,vaddr,isREAL);
}
000000000000000000000,5.STYPE,001111:SPECIAL:32::SYNC
"sync":STYPE == 0
"sync <STYPE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
SyncOperation (STYPE);
}
000000,20.CODE,001100:SPECIAL:32::SYSCALL
"syscall <CODE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
SignalException(SystemCall, instruction_0);
}
000000,5.RS,5.RT,10.CODE,110100:SPECIAL:32::TEQ
"teq r<RS>, r<RT>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] == (signed_word) GPR[RT])
SignalException(Trap, instruction_0);
}
000001,5.RS,01100,16.IMMEDIATE:REGIMM:32::TEQI
"teqi r<RS>, <IMMEDIATE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] == (signed_word) EXTEND16 (IMMEDIATE))
SignalException(Trap, instruction_0);
}
000000,5.RS,5.RT,10.CODE,110000:SPECIAL:32::TGE
"tge r<RS>, r<RT>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] >= (signed_word) GPR[RT])
SignalException(Trap, instruction_0);
}
000001,5.RS,01000,16.IMMEDIATE:REGIMM:32::TGEI
"tgei r<RS>, <IMMEDIATE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] >= (signed_word) EXTEND16 (IMMEDIATE))
SignalException(Trap, instruction_0);
}
000001,5.RS,01001,16.IMMEDIATE:REGIMM:32::TGEIU
"tgeiu r<RS>, <IMMEDIATE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((unsigned_word) GPR[RS] >= (unsigned_word) EXTEND16 (IMMEDIATE))
SignalException(Trap, instruction_0);
}
000000,5.RS,5.RT,10.CODE,110001:SPECIAL:32::TGEU
"tgeu r<RS>, r<RT>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((unsigned_word) GPR[RS] >= (unsigned_word) GPR[RT])
SignalException(Trap, instruction_0);
}
000000,5.RS,5.RT,10.CODE,110010:SPECIAL:32::TLT
"tlt r<RS>, r<RT>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] < (signed_word) GPR[RT])
SignalException(Trap, instruction_0);
}
000001,5.RS,01010,16.IMMEDIATE:REGIMM:32::TLTI
"tlti r<RS>, <IMMEDIATE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] < (signed_word) EXTEND16 (IMMEDIATE))
SignalException(Trap, instruction_0);
}
000001,5.RS,01011,16.IMMEDIATE:REGIMM:32::TLTIU
"tltiu r<RS>, <IMMEDIATE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((unsigned_word) GPR[RS] < (unsigned_word) EXTEND16 (IMMEDIATE))
SignalException(Trap, instruction_0);
}
000000,5.RS,5.RT,10.CODE,110011:SPECIAL:32::TLTU
"tltu r<RS>, r<RT>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((unsigned_word) GPR[RS] < (unsigned_word) GPR[RT])
SignalException(Trap, instruction_0);
}
000000,5.RS,5.RT,10.CODE,110110:SPECIAL:32::TNE
"tne r<RS>, r<RT>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] != (signed_word) GPR[RT])
SignalException(Trap, instruction_0);
}
000001,5.RS,01110,16.IMMEDIATE:REGIMM:32::TNEI
"tne r<RS>, <IMMEDIATE>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if ((signed_word) GPR[RS] != (signed_word) EXTEND16 (IMMEDIATE))
SignalException(Trap, instruction_0);
}
000000,5.RS,5.RT,5.RD,00000100110:SPECIAL:32::XOR
"xor r<RD>, r<RS>, r<RT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RD] = GPR[RS] ^ GPR[RT];
}
001110,5.RS,5.RT,16.IMMEDIATE:NORMAL:32::XORI
"xori r<RT>, r<RS>, <IMMEDIATE>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
GPR[RT] = GPR[RS] ^ IMMEDIATE;
}
//
// MIPS Architecture:
//
// FPU Instruction Set (COP1 & COP1X)
//
:%s::::FMT:int fmt
{
switch (fmt)
{
case fmt_single: return "s";
case fmt_double: return "d";
case fmt_word: return "w";
case fmt_long: return "l";
default: return "?";
}
}
:%s::::X:int x
{
switch (x)
{
case 0: return "f";
case 1: return "t";
default: return "?";
}
}
:%s::::TF:int tf
{
if (tf)
return "t";
else
return "f";
}
:%s::::ND:int nd
{
if (nd)
return "l";
else
return "";
}
:%s::::COND:int cond
{
switch (cond)
{
case 00: return "f";
case 01: return "un";
case 02: return "eq";
case 03: return "ueq";
case 04: return "olt";
case 05: return "ult";
case 06: return "ole";
case 07: return "ule";
case 010: return "sf";
case 011: return "ngle";
case 012: return "seq";
case 013: return "ngl";
case 014: return "lt";
case 015: return "nge";
case 016: return "le";
case 017: return "ngt";
default: return "?";
}
}
010001,10,3.FMT,00000,5.FS,5.FD,000101:COP1:32,f::ABS.fmt
"abs.%s<FMT> f<FD>, f<FS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,AbsoluteValue(ValueFPR(fs,format),format));
}
}
010001,10,3.FMT,5.FT,5.FS,5.FD,000000:COP1:32,f::ADD
"add.%s<FMT> f<FD>, f<FS>, f<FT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction, instruction);
else
StoreFPR(destreg,format,Add(ValueFPR(fs,format),ValueFPR(ft,format),format));
}
}
// BC1F
// BC1FL
// BC1T
// BC1TL
010001,01000,3.0,1.ND,1.TF,16.OFFSET:COP1S:32,f::BC1
"bc1%s<TF>%s<ND> <OFFSET>"
*mipsI,mipsII,mipsIII:
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
if (PREVCOC1() == TF)
{
DELAY_SLOT (NIA + (EXTEND16 (OFFSET) << 2));
}
else if (ND)
{
NULLIFY_NEXT_INSTRUCTION ();
}
}
010001,01000,3.CC,1.ND,1.TF,16.OFFSET:COP1S:32,f::BC1
"bc1%s<TF>%s<ND> <OFFSET>":CC == 0
"bc1%s<TF>%s<ND> <CC>, <OFFSET>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if (GETFCC(CC) == TF)
{
DELAY_SLOT (NIA + (EXTEND16 (OFFSET) << 2));
}
else if (ND)
{
NULLIFY_NEXT_INSTRUCTION ();
}
}
// C.EQ.S
// C.EQ.D
// ...
:function:::void:do_c_cond_fmt:int fmt, int ft, int fs, int cc, int cond, instruction_word insn
{
if ((fmt != fmt_single) && (fmt != fmt_double))
SignalException (ReservedInstruction, insn);
else
{
int less;
int equal;
int unordered;
int condition;
unsigned64 ofs = ValueFPR (fs, fmt);
unsigned64 oft = ValueFPR (ft, fmt);
if (NaN (ofs, fmt) || NaN (oft, fmt))
{
if (FCSR & FP_ENABLE (IO))
{
FCSR |= FP_CAUSE (IO);
SignalExceptionFPE ();
}
less = 0;
equal = 0;
unordered = 1;
}
else
{
less = Less (ofs, oft, fmt);
equal = Equal (ofs, oft, fmt);
unordered = 0;
}
condition = (((cond & (1 << 2)) && less)
|| ((cond & (1 << 1)) && equal)
|| ((cond & (1 << 0)) && unordered));
SETFCC (cc, condition);
}
}
010001,10,3.FMT,5.FT,5.FS,3.0,00,11,4.COND:COP1:32::C.cond.fmt
*mipsI,mipsII,mipsIII:
"c.%s<COND>.%s<FMT> f<FS>, f<FT>":
{
do_c_cond_fmt (SD_, FMT, FT, FS, 0, COND, instruction_0);
}
010001,10,3.FMT,5.FT,5.FS,3.CC,00,11,4.COND:COP1:32::C.cond.fmt
"c.%s<COND>.%s<FMT> f<FS>, f<FT>":CC == 0
"c.%s<COND>.%s<FMT> <CC>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
do_c_cond_fmt (SD_, FMT, FT, FS, CC, COND, instruction_0);
}
010001,10,3.FMT,00000,5.FS,5.FD,001010:COP1:64::CEIL.L.fmt
"ceil.l.%s<FMT> f<FD>, f<FS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_long,Convert(FP_RM_TOPINF,ValueFPR(fs,format),format,fmt_long));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001110:COP1:32::CEIL.W
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_word,Convert(FP_RM_TOPINF,ValueFPR(fs,format),format,fmt_word));
}
}
// CFC1
// CTC1
010001,00,X,10,5.RT,5.FS,00000000000:COP1S:32::CxC1
"c%s<X>c1 r<RT>, f<FS>"
*mipsI:
*mipsII:
*mipsIII:
{
if (X)
{
if (FS == 0)
PENDING_FILL((FS + FCR0IDX),VL4_8(GPR[RT]));
else if (FS == 31)
PENDING_FILL((FS + FCR31IDX),VL4_8(GPR[RT]));
/* else NOP */
PENDING_FILL(COCIDX,0); /* special case */
}
else
{ /* control from */
if (FS == 0)
PENDING_FILL(RT,SIGNEXTEND(FCR0,32));
else if (FS == 31)
PENDING_FILL(RT,SIGNEXTEND(FCR31,32));
/* else NOP */
}
}
010001,00,X,10,5.RT,5.FS,00000000000:COP1S:32::CxC1
"c%s<X>c1 r<RT>, f<FS>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if (X)
{
if (FS == 0)
FCR0 = VL4_8(GPR[RT]);
else if (FS == 31)
FCR31 = VL4_8(GPR[RT]);
/* else NOP */
SETFCC(0,((FCR31 & (1 << 23)) ? 1 : 0));
}
else
{ /* control from */
if (FS == 0)
GPR[RT] = SIGNEXTEND (FCR0, 32);
else if (FS == 31)
GPR[RT] = SIGNEXTEND (FCR31, 32);
/* else NOP */
}
}
//
// FIXME: Does not correctly differentiate between mips*
//
010001,10,3.FMT,00000,5.FS,5.FD,100001:COP1:32::CVT.D.fmt
"cvt.d.%s<FMT> f<FD>, f<FS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format == fmt_double) | 0)
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_double,Convert(GETRM(),ValueFPR(fs,format),format,fmt_double));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,100101:COP1:64::CVT.L.fmt
"cvt.l.%s<FMT> f<FD>, f<FS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format == fmt_long) | ((format == fmt_long) || (format == fmt_word)))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_long,Convert(GETRM(),ValueFPR(fs,format),format,fmt_long));
}
}
//
// FIXME: Does not correctly differentiate between mips*
//
010001,10,3.FMT,00000,5.FS,5.FD,100000:COP1:32::CVT.S.fmt
"cvt.s.%s<FMT> f<FD>, f<FS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format == fmt_single) | 0)
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_single,Convert(GETRM(),ValueFPR(fs,format),format,fmt_single));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,100100:COP1:32::CVT.W.fmt
"cvt.w.%s<FMT> f<FD>, f<FS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format == fmt_word) | ((format == fmt_long) || (format == fmt_word)))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_word,Convert(GETRM(),ValueFPR(fs,format),format,fmt_word));
}
}
010001,10,3.FMT,5.FT,5.FS,5.FD,000011:COP1:32::DIV.fmt
"div.%s<FMT> f<FD>, f<FS>, f<FT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,Divide(ValueFPR(fs,format),ValueFPR(ft,format),format));
}
}
// DMFC1
// DMTC1
010001,00,X,01,5.RT,5.FS,00000000000:COP1S:64::DMxC1
"dm%s<X>c1 r<RT>, f<FS>"
*mipsIII:
{
if (X)
{
if (SizeFGR() == 64)
PENDING_FILL((FS + FGRIDX),GPR[RT]);
else if ((FS & 0x1) == 0)
{
PENDING_FILL(((FS + 1) + FGRIDX),VH4_8(GPR[RT]));
PENDING_FILL((FS + FGRIDX),VL4_8(GPR[RT]));
}
}
else
{
if (SizeFGR() == 64)
PENDING_FILL(RT,FGR[FS]);
else if ((FS & 0x1) == 0)
PENDING_FILL(RT,(SET64HI(FGR[FS+1]) | FGR[FS]));
else
PENDING_FILL(RT,SET64HI(0xDEADC0DE) | 0xBAD0BAD0);
}
}
010001,00,X,01,5.RT,5.FS,00000000000:COP1S:64::DMxC1
"dm%s<X>c1 r<RT>, f<FS>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if (X)
{
if (SizeFGR() == 64)
StoreFPR (FS, fmt_uninterpreted_64, GPR[RT]);
else if ((FS & 0x1) == 0)
StoreFPR (FS, fmt_uninterpreted_64, SET64HI (FGR[FS+1]) | FGR[FS]);
}
else
{
if (SizeFGR() == 64)
GPR[RT] = FGR[FS];
else if ((FS & 0x1) == 0)
GPR[RT] = SET64HI (FGR[FS+1]) | FGR[FS];
else
GPR[RT] = SET64HI (0xDEADC0DE) | 0xBAD0BAD0;
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001011:COP1:64::FLOOR.L.fmt
"floor.l.%s<FMT> f<FD>, f<FS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_long,Convert(FP_RM_TOMINF,ValueFPR(fs,format),format,fmt_long));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001111:COP1:32::FLOOR.W.fmt
"floor.w.%s<FMT> f<FD>, f<FS>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_word,Convert(FP_RM_TOMINF,ValueFPR(fs,format),format,fmt_word));
}
}
110101,5.BASE,5.FT,16.OFFSET:COP1:64::LDC1
"ldc1 f<FT>, <OFFSET>(r<BASE>)"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word vaddr = GPR[BASE] + EXTEND16 (OFFSET);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressLoad();
else
{
unsigned64 memval;
AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL);
LoadMemory(&memval,0,uncached,AccessLength_DOUBLEWORD,paddr,vaddr,isDATA,isREAL);
COP_LD(((instruction_0 >> 26) & 0x3),FT,memval);;
}
}
010011,5.BASE,5.INDEX,5.0,5.FD,000001:COP1X:64::LDXC1
"ldxc1 f<FD>, r<INDEX>(r<BASE>)"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + op2);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
LoadMemory(&memval,&memval1,uncached,AccessLength_DOUBLEWORD,paddr,vaddr,isDATA,isREAL);
COP_LD(1,destreg,memval);;
}
}
}
}
110001,5.BASE,5.FT,16.OFFSET:COP1:32::LWC1
"lwc1 f<FT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = EXTEND16 (OFFSET);
int destreg UNUSED = ((instruction >> 16) & 0x0000001F);
signed_word op1 UNUSED = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((uword64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
uword64 memval = 0;
uword64 memval1 = 0;
uword64 mask = 0x7;
unsigned int shift = 2;
unsigned int reverse UNUSED = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend UNUSED = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte UNUSED;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_WORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
COP_LW(((instruction >> 26) & 0x3),destreg,(unsigned int)((memval >> (8 * byte)) & 0xFFFFFFFF));
}
}
}
}
010011,5.BASE,5.INDEX,5.0,5.FD,000000:COP1X:32::LWXC1
"lwxc1 f<FD>, r<INDEX>(r<BASE>)"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + op2);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressLoad();
else
{
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int shift = 2;
unsigned int reverse = (ReverseEndian ? (mask >> shift) : 0);
unsigned int bigend = (BigEndianCPU ? (mask >> shift) : 0);
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (reverse << shift)));
LoadMemory(&memval,&memval1,uncached,AccessLength_WORD,paddr,vaddr,isDATA,isREAL);
byte = ((vaddr & mask) ^ (bigend << shift));
COP_LW(1,destreg,(unsigned int)((memval >> (8 * byte)) & 0xFFFFFFFF));
}
}
}
}
//
// FIXME: Not correct for mips*
//
010011,5.FR,5.FT,5.FS,5.FD,100,001:COP1X:32::MADD.D
"madd.d f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_double,Add(Multiply(ValueFPR(fs,fmt_double),ValueFPR(ft,fmt_double),fmt_double),ValueFPR(fr,fmt_double),fmt_double));
}
}
010011,5.FR,5.FT,5.FS,5.FD,100,000:COP1X:32::MADD.S
"madd.s f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_single,Add(Multiply(ValueFPR(fs,fmt_single),ValueFPR(ft,fmt_single),fmt_single),ValueFPR(fr,fmt_single),fmt_single));
}
}
// MFC1
// MTC1
010001,00,X,00,5.RT,5.FS,00000000000:COP1S:32::MxC1
"m%s<X>c1 r<RT>, f<FS>"
*mipsI:
*mipsII:
*mipsIII:
{
if (X)
{ /*MTC1*/
if (SizeFGR() == 64)
PENDING_FILL ((FS + FGRIDX), (SET64HI(0xDEADC0DE) | VL4_8(GPR[RT])));
else
PENDING_FILL ((FS + FGRIDX), VL4_8(GPR[RT]));
}
else /*MFC1*/
PENDING_FILL (RT, SIGNEXTEND(FGR[FS],32));
}
010001,00,X,00,5.RT,5.FS,00000000000:COP1S:32::MxC1
"m%s<X>c1 r<RT>, f<FS>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
if (X)
/*MTC1*/
StoreFPR (FS, fmt_uninterpreted_32, VL4_8 (GPR[RT]));
else /*MFC1*/
GPR[RT] = SIGNEXTEND(FGR[FS],32);
}
010001,10,3.FMT,00000,5.FS,5.FD,000110:COP1:32::MOV.fmt
"mov.%s<FMT> f<FD>, f<FS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
StoreFPR(destreg,format,ValueFPR(fs,format));
}
}
// MOVF
000000,5.RS,3.CC,0,1.TF,5.RD,00000000001:SPECIAL:32::MOVtf
"mov%s<TF> r<RD>, r<RS>, <CC>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
if (GETFCC(CC) == TF)
GPR[RD] = GPR[RS];
}
// MOVF.fmt
010001,10,3.FMT,3.CC,0,1.TF,5.FS,5.FD,010001:COP1:32::MOVtf.fmt
"mov%s<TF>.%s<FMT> f<FD>, f<FS>, <CC>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int format = ((instruction >> 21) & 0x00000007);
{
if (GETFCC(CC) == TF)
StoreFPR (FD, format, ValueFPR (FS, format));
else
StoreFPR (FD, format, ValueFPR (FD, format));
}
}
010001,10,3.FMT,5.RT,5.FS,5.FD,010011:COP1:32::MOVN.fmt
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
StoreFPR(destreg,format,ValueFPR(fs,format));
}
}
// MOVT see MOVtf
// MOVT.fmt see MOVtf.fmt
010001,10,3.FMT,5.RT,5.FS,5.FD,010010:COP1:32::MOVZ.fmt
"movz.%s<FMT> f<FD>, f<FS>, r<RT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
StoreFPR(destreg,format,ValueFPR(fs,format));
}
}
// MSUB.fmt
010011,5.FR,5.FT,5.FS,5.FD,101,001:COP1X:32::MSUB.D
"msub.d f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_double,Sub(Multiply(ValueFPR(fs,fmt_double),ValueFPR(ft,fmt_double),fmt_double),ValueFPR(fr,fmt_double),fmt_double));
}
}
// MSUB.fmt
010011,5.FR,5.FT,5.FS,5.FD,101000:COP1X:32::MSUB.S
"msub.s f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_single,Sub(Multiply(ValueFPR(fs,fmt_single),ValueFPR(ft,fmt_single),fmt_single),ValueFPR(fr,fmt_single),fmt_single));
}
}
// MTC1 see MxC1
010001,10,3.FMT,5.FT,5.FS,5.FD,000010:COP1:32::MUL.fmt
"mul.%s<FMT> f<FD>, f<FS>, f<FT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,Multiply(ValueFPR(fs,format),ValueFPR(ft,format),format));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,000111:COP1:32::NEG.fmt
"neg.%s<FMT> f<FD>, f<FS>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,Negate(ValueFPR(fs,format),format));
}
}
// NMADD.fmt
010011,5.FR,5.FT,5.FS,5.FD,110001:COP1X:32::NMADD.D
"nmadd.d f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_double,Negate(Add(Multiply(ValueFPR(fs,fmt_double),ValueFPR(ft,fmt_double),fmt_double),ValueFPR(fr,fmt_double),fmt_double),fmt_double));
}
}
// NMADD.fmt
010011,5.FR,5.FT,5.FS,5.FD,110000:COP1X:32::NMADD.S
"nmadd.s f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_single,Negate(Add(Multiply(ValueFPR(fs,fmt_single),ValueFPR(ft,fmt_single),fmt_single),ValueFPR(fr,fmt_single),fmt_single),fmt_single));
}
}
// NMSUB.fmt
010011,5.FR,5.FT,5.FS,5.FD,111001:COP1X:32::NMSUB.D
"nmsub.d f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_double,Negate(Sub(Multiply(ValueFPR(fs,fmt_double),ValueFPR(ft,fmt_double),fmt_double),ValueFPR(fr,fmt_double),fmt_double),fmt_double));
}
}
// NMSUB.fmt
010011,5.FR,5.FT,5.FS,5.FD,111000:COP1X:32::NMSUB.S
"nmsub.s f<FD>, f<FR>, f<FS>, f<FT>"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int fr = ((instruction >> 21) & 0x0000001F);
{
StoreFPR(destreg,fmt_single,Negate(Sub(Multiply(ValueFPR(fs,fmt_single),ValueFPR(ft,fmt_single),fmt_single),ValueFPR(fr,fmt_single),fmt_single),fmt_single));
}
}
010011,5.BASE,5.INDEX,5.HINT,00000001111:COP1X:32::PREFX
"prefx <HINT>, r<INDEX>(r<BASE>)"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int fs = ((instruction >> 11) & 0x0000001F);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + (unsigned64)op2);
address_word paddr;
int uncached;
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
Prefetch(uncached,paddr,vaddr,isDATA,fs);
}
}
010001,10,3.FMT,00000,5.FS,5.FD,010101:COP1:32::RECIP.fmt
*mipsIV:
"recip.%s<FMT> f<FD>, f<FS>"
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,Recip(ValueFPR(fs,format),format));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001000:COP1:64::ROUND.L.fmt
"round.l.%s<FMT> f<FD>, f<FS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_long,Convert(FP_RM_NEAREST,ValueFPR(fs,format),format,fmt_long));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001100:COP1:32::ROUND.W.fmt
"round.w.%s<FMT> f<FD>, f<FS>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_word,Convert(FP_RM_NEAREST,ValueFPR(fs,format),format,fmt_word));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,010110:COP1:32::RSQRT.fmt
*mipsIV:
"rsqrt.%s<FMT> f<FD>, f<FS>"
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,Recip(SquareRoot(ValueFPR(fs,format),format),format));
}
}
111101,5.BASE,5.FT,16.OFFSET:COP1:64::SDC1
"sdc1 f<FT>, <OFFSET>(r<BASE>)"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
address_word vaddr = GPR[BASE] + EXTEND16 (OFFSET);
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressStore();
else
{
address_word paddr;
unsigned64 memval;
AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL);
memval = (unsigned64) COP_SD(((instruction_0 >> 26) & 0x3),FT);
StoreMemory(uncached,AccessLength_DOUBLEWORD,memval,0,paddr,vaddr,isREAL);
}
}
010011,5.RS,5.RT,vvvvv,00000001001:COP1X:64::SDXC1
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int fs = ((instruction >> 11) & 0x0000001F);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + op2);
address_word paddr;
int uncached;
if ((vaddr & 7) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
memval = (unsigned64)COP_SD(1,fs);
{
StoreMemory(uncached,AccessLength_DOUBLEWORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
010001,10,3.FMT,00000,5.FS,5.FD,000100:COP1:32::SQRT.fmt
"sqrt.%s<FMT> f<FD>, f<FS>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,(SquareRoot(ValueFPR(fs,format),format)));
}
}
010001,10,3.FMT,5.FT,5.FS,5.FD,000001:COP1:32::SUB.fmt
"sub.%s<FMT> f<FD>, f<FS>, f<FT>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int ft = ((instruction >> 16) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,format,Sub(ValueFPR(fs,format),ValueFPR(ft,format),format));
}
}
111001,5.BASE,5.FT,16.OFFSET:COP1:32::SWC1
"swc1 f<FT>, <OFFSET>(r<BASE>)"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = EXTEND16 (OFFSET);
int destreg UNUSED = ((instruction >> 16) & 0x0000001F);
signed_word op1 UNUSED = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((uword64)op1 + offset);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
uword64 memval = 0;
uword64 memval1 = 0;
uword64 mask = 0x7;
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)));
byte = ((vaddr & mask) ^ (BigEndianCPU << 2));
memval = (((uword64)COP_SW(((instruction >> 26) & 0x3),destreg)) << (8 * byte));
{
StoreMemory(uncached,AccessLength_WORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
010011,5.BASE,5.INDEX,5.FS,00000,001000:COP1X:32::SWXC1
"swxc1 f<FS>, r<INDEX>(r<BASE>)"
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
{
unsigned32 instruction = instruction_0;
int fs = ((instruction >> 11) & 0x0000001F);
signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = ((unsigned64)op1 + op2);
address_word paddr;
int uncached;
if ((vaddr & 3) != 0)
SignalExceptionAddressStore();
else
{
if (AddressTranslation(vaddr,isDATA,isSTORE,&paddr,&uncached,isTARGET,isREAL))
{
unsigned64 memval = 0;
unsigned64 memval1 = 0;
unsigned64 mask = 0x7;
unsigned int byte;
paddr = ((paddr & ~mask) | ((paddr & mask) ^ (ReverseEndian << 2)));
byte = ((vaddr & mask) ^ (BigEndianCPU << 2));
memval = (((unsigned64)COP_SW(1,fs)) << (8 * byte));
{
StoreMemory(uncached,AccessLength_WORD,memval,memval1,paddr,vaddr,isREAL);
}
}
}
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001001:COP1:64::TRUNC.L.fmt
"trunc.l.%s<FMT> f<FD>, f<FS>"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_long,Convert(FP_RM_TOZERO,ValueFPR(fs,format),format,fmt_long));
}
}
010001,10,3.FMT,00000,5.FS,5.FD,001101:COP1:32::TRUNC.W
"trunc.w.%s<FMT> f<FD>, f<FS>"
*mipsII:
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
int destreg = ((instruction >> 6) & 0x0000001F);
int fs = ((instruction >> 11) & 0x0000001F);
int format = ((instruction >> 21) & 0x00000007);
{
if ((format != fmt_single) && (format != fmt_double))
SignalException(ReservedInstruction,instruction);
else
StoreFPR(destreg,fmt_word,Convert(FP_RM_TOZERO,ValueFPR(fs,format),format,fmt_word));
}
}
//
// MIPS Architecture:
//
// System Control Instruction Set (COP0)
//
010000,01000,00000,16.OFFSET:COP0:32::BC0F
"bc0f <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,01000,00010,16.OFFSET:COP0:32::BC0FL
"bc0fl <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,01000,00001,16.OFFSET:COP0:32::BC0T
"bc0t <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,01000,00011,16.OFFSET:COP0:32::BC0TL
"bc0tl <OFFSET>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
101111,5.BASE,5.OP,16.OFFSET:NORMAL:32::CACHE
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
*r3900:
// start-sanitize-tx19
*tx19:
// end-sanitize-tx19
{
unsigned32 instruction = instruction_0;
signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
int hint = ((instruction >> 16) & 0x0000001F);
signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
{
address_word vaddr = (op1 + offset);
address_word paddr;
int uncached;
if (AddressTranslation(vaddr,isDATA,isLOAD,&paddr,&uncached,isTARGET,isREAL))
CacheOp(hint,vaddr,paddr,instruction);
}
}
010000,10000,000000000000000,111001:COP0:32::DI
"di"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,10000,000000000000000,111000:COP0:32::EI
"ei"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,10000,000000000000000,011000:COP0:32::ERET
"eret"
*mipsIII:
*mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,00000,5.RT,5.RD,00000,6.REGX:COP0:32::MFC0
"mfc0 r<RT>, r<RD> # <REGX>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
DecodeCoproc (instruction_0);
}
010000,00100,5.RT,5.RD,00000,6.REGX:COP0:32::MTC0
"mtc0 r<RT>, r<RD> # <REGX>"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
{
DecodeCoproc (instruction_0);
}
010000,10000,000000000000000,001000:COP0:32::TLBP
"tlbp"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,10000,000000000000000,000001:COP0:32::TLBR
"tlbr"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,10000,000000000000000,000010:COP0:32::TLBWI
"tlbwi"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
010000,10000,000000000000000,000110:COP0:32::TLBWR
"tlbwr"
*mipsI,mipsII,mipsIII,mipsIV:
*vr5000:
// start-sanitize-vr5400
*vr5400:
// end-sanitize-vr5400
// start-sanitize-r5900
*r5900:
// end-sanitize-r5900
:include:::m16.igen
// start-sanitize-vr5400
:include::vr5400:vr5400.igen
:include:::mdmx.igen
// end-sanitize-vr5400
// start-sanitize-r5900
:include::r5900:r5900.igen
// end-sanitize-r5900
// start-sanitize-cygnus-never
// // FIXME FIXME FIXME What is this instruction?
// 111011,5.RS,5.RT,16.OFFSET:NORMAL:32::<INT>
// *mipsI:
// *mipsII:
// *mipsIII:
// *mipsIV:
// // start-sanitize-r5900
// *r5900:
// // end-sanitize-r5900
// *r3900:
// // start-sanitize-tx19
// *tx19:
// // end-sanitize-tx19
// {
// unsigned32 instruction = instruction_0;
// signed_word offset = SIGNEXTEND((signed_word)((instruction >> 0) & 0x0000FFFF),16);
// signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
// signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
// {
// if (CoProcPresent(3))
// SignalException(CoProcessorUnusable);
// else
// SignalException(ReservedInstruction,instruction);
// }
// }
// end-sanitize-cygnus-never
// start-sanitize-cygnus-never
// // FIXME FIXME FIXME What is this?
// 11100,******,00001:RR:16::SDBBP
// *mips16:
// {
// unsigned32 instruction = instruction_0;
// if (have_extendval)
// SignalException (ReservedInstruction, instruction);
// {
// SignalException(DebugBreakPoint,instruction);
// }
// }
// end-sanitize-cygnus-never
// start-sanitize-cygnus-never
// // FIXME FIXME FIXME What is this?
// 000000,********************,001110:SPECIAL:32::SDBBP
// *r3900:
// {
// unsigned32 instruction = instruction_0;
// {
// SignalException(DebugBreakPoint,instruction);
// }
// }
// end-sanitize-cygnus-never
// start-sanitize-cygnus-never
// // FIXME FIXME FIXME This apparently belongs to the vr4100 which
// // isn't yet reconized by this simulator.
// 000000,5.RS,5.RT,0000000000101000:SPECIAL:32::MADD16
// *vr4100:
// {
// unsigned32 instruction = instruction_0;
// signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
// signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
// {
// CHECKHILO("Multiply-Add");
// {
// unsigned64 temp = (op1 * op2);
// temp += (SET64HI(VL4_8(HI)) | VL4_8(LO));
// LO = SIGNEXTEND((unsigned64)VL4_8(temp),32);
// HI = SIGNEXTEND((unsigned64)VH4_8(temp),32);
// }
// }
// }
// end-sanitize-cygnus-never
// start-sanitize-cygnus-never
// // FIXME FIXME FIXME This apparently belongs to the vr4100 which
// // isn't yet reconized by this simulator.
// 000000,5.RS,5.RT,0000000000101001:SPECIAL:64::DMADD16
// *vr4100:
// {
// unsigned32 instruction = instruction_0;
// signed_word op2 = GPR[((instruction >> 16) & 0x0000001F)];
// signed_word op1 = GPR[((instruction >> 21) & 0x0000001F)];
// {
// CHECKHILO("Multiply-Add");
// {
// unsigned64 temp = (op1 * op2);
// LO = LO + temp;
// }
// }
// }
// start-sanitize-cygnus-never
Reference in New Issue View Git Blame Copy Permalink