/*
* Source file for nanoMIPS disassembler component of QEMU
*
* Copyright (C) 2018 Wave Computing, Inc.
* Copyright (C) 2018 Matthew Fortune <matthew.fortune@mips.com>
* Copyright (C) 2018 Aleksandar Markovic <amarkovic@wavecomp.com>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
/*
* Documentation used while implementing this component:
*
* [1] "MIPS® Architecture Base: nanoMIPS32(tm) Instruction Set Technical
* Reference Manual", Revision 01.01, April 27, 2018
*/
extern "C" {
#include "qemu/osdep.h"
#include "disas/dis-asm.h"
}
#include <cstring>
#include <stdexcept>
#include <sstream>
#include <stdio.h>
#include <stdarg.h>
#include "nanomips.h"
#define IMGASSERTONCE(test)
int nanomips_dis(char *buf,
unsigned address,
unsigned short one,
unsigned short two,
unsigned short three)
{
std::string disasm;
uint16 bits[3] = {one, two, three};
NMD::TABLE_ENTRY_TYPE type;
NMD d(address, NMD::ALL_ATTRIBUTES);
int size = d.Disassemble(bits, disasm, type);
strcpy(buf, disasm.c_str());
return size;
}
int print_insn_nanomips(bfd_vma memaddr, struct disassemble_info *info)
{
int status;
bfd_byte buffer[2];
uint16_t insn1 = 0, insn2 = 0, insn3 = 0;
char buf[200];
info->bytes_per_chunk = 2;
info->display_endian = info->endian;
info->insn_info_valid = 1;
info->branch_delay_insns = 0;
info->data_size = 0;
info->insn_type = dis_nonbranch;
info->target = 0;
info->target2 = 0;
status = (*info->read_memory_func)(memaddr, buffer, 2, info);
if (status != 0) {
(*info->memory_error_func)(status, memaddr, info);
return -1;
}
if (info->endian == BFD_ENDIAN_BIG) {
insn1 = bfd_getb16(buffer);
} else {
insn1 = bfd_getl16(buffer);
}
(*info->fprintf_func)(info->stream, "%04x ", insn1);
/* Handle 32-bit opcodes. */
if ((insn1 & 0x1000) == 0) {
status = (*info->read_memory_func)(memaddr + 2, buffer, 2, info);
if (status != 0) {
(*info->memory_error_func)(status, memaddr + 2, info);
return -1;
}
if (info->endian == BFD_ENDIAN_BIG) {
insn2 = bfd_getb16(buffer);
} else {
insn2 = bfd_getl16(buffer);
}
(*info->fprintf_func)(info->stream, "%04x ", insn2);
} else {
(*info->fprintf_func)(info->stream, " ");
}
/* Handle 48-bit opcodes. */
if ((insn1 >> 10) == 0x18) {
status = (*info->read_memory_func)(memaddr + 4, buffer, 2, info);
if (status != 0) {
(*info->memory_error_func)(status, memaddr + 4, info);
return -1;
}
if (info->endian == BFD_ENDIAN_BIG) {
insn3 = bfd_getb16(buffer);
} else {
insn3 = bfd_getl16(buffer);
}
(*info->fprintf_func)(info->stream, "%04x ", insn3);
} else {
(*info->fprintf_func)(info->stream, " ");
}
int length = nanomips_dis(buf, memaddr, insn1, insn2, insn3);
/* FIXME: Should probably use a hash table on the major opcode here. */
(*info->fprintf_func) (info->stream, "%s", buf);
if (length > 0) {
return length / 8;
}
info->insn_type = dis_noninsn;
return insn3 ? 6 : insn2 ? 4 : 2;
}
namespace img
{
address addr32(address a)
{
return a;
}
std::string format(const char *format, ...)
{
char buffer[256];
va_list args;
va_start(args, format);
int err = vsprintf(buffer, format, args);
if (err < 0) {
perror(buffer);
}
va_end(args);
return buffer;
}
std::string format(const char *format,
std::string s)
{
char buffer[256];
sprintf(buffer, format, s.c_str());
return buffer;
}
std::string format(const char *format,
std::string s1,
std::string s2)
{
char buffer[256];
sprintf(buffer, format, s1.c_str(), s2.c_str());
return buffer;
}
std::string format(const char *format,
std::string s1,
std::string s2,
std::string s3)
{
char buffer[256];
sprintf(buffer, format, s1.c_str(), s2.c_str(), s3.c_str());
return buffer;
}
std::string format(const char *format,
std::string s1,
std::string s2,
std::string s3,
std::string s4)
{
char buffer[256];
sprintf(buffer, format, s1.c_str(), s2.c_str(), s3.c_str(),
s4.c_str());
return buffer;
}
std::string format(const char *format,
std::string s1,
std::string s2,
std::string s3,
std::string s4,
std::string s5)
{
char buffer[256];
sprintf(buffer, format, s1.c_str(), s2.c_str(), s3.c_str(),
s4.c_str(), s5.c_str());
return buffer;
}
std::string format(const char *format,
uint64 d,
std::string s2)
{
char buffer[256];
sprintf(buffer, format, d, s2.c_str());
return buffer;
}
std::string format(const char *format,
std::string s1,
uint64 d,
std::string s2)
{
char buffer[256];
sprintf(buffer, format, s1.c_str(), d, s2.c_str());
return buffer;
}
std::string format(const char *format,
std::string s1,
std::string s2,
uint64 d)
{
char buffer[256];
sprintf(buffer, format, s1.c_str(), s2.c_str(), d);
return buffer;
}
char as_char(int c)
{
return static_cast<char>(c);
}
};
std::string to_string(img::address a)
{
char buffer[256];
sprintf(buffer, "0x%" PRIx64, a);
return buffer;
}
uint64 extract_bits(uint64 data, uint32 bit_offset, uint32 bit_size)
{
return (data << (64 - (bit_size + bit_offset))) >> (64 - bit_size);
}
int64 sign_extend(int64 data, int msb)
{
uint64 shift = 63 - msb;
return (data << shift) >> shift;
}
uint64 NMD::renumber_registers(uint64 index, uint64 *register_list,
size_t register_list_size)
{
if (index < register_list_size) {
return register_list[index];
}
throw std::runtime_error(img::format(
"Invalid register mapping index %" PRIu64
", size of list = %zu",
index, register_list_size));
}
/*
* NMD::decode_gpr_gpr4() - decoder for 'gpr4' gpr encoding type
*
* Map a 4-bit code to the 5-bit register space according to this pattern:
*
* 1 0
* 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* | | | | | | | | | | | | | | | |
* | | | | | | | | | | | | | | | |
* | | | | | | | | | | | └---------------┐
* | | | | | | | | | | └---------------┐ |
* | | | | | | | | | └---------------┐ | |
* | | | | | | | | └---------------┐ | | |
* | | | | | | | | | | | | | | | |
* | | | | | | | | | | | | | | | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* Used in handling following instructions:
*
* - ADDU[4X4]
* - LW[4X4]
* - MOVEP[REV]
* - MUL[4X4]
* - SW[4X4]
*/
uint64 NMD::decode_gpr_gpr4(uint64 d)
{
static uint64 register_list[] = { 8, 9, 10, 11, 4, 5, 6, 7,
16, 17, 18, 19, 20, 21, 22, 23 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
/*
* NMD::decode_gpr_gpr4_zero() - decoder for 'gpr4.zero' gpr encoding type
*
* Map a 4-bit code to the 5-bit register space according to this pattern:
*
* 1 0
* 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* | | | | | | | | | | | | | | | |
* | | | | | | | | | | | | └---------------------┐
* | | | | | | | | | | | └---------------┐ |
* | | | | | | | | | | └---------------┐ | |
* | | | | | | | | | └---------------┐ | | |
* | | | | | | | | └---------------┐ | | | |
* | | | | | | | | | | | | | | | |
* | | | | | | | | | | | | | | | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* This pattern is the same one used for 'gpr4' gpr encoding type, except for
* the input value 3, that is mapped to the output value 0 instead of 11.
*
* Used in handling following instructions:
*
* - MOVE.BALC
* - MOVEP
* - SW[4X4]
*/
uint64 NMD::decode_gpr_gpr4_zero(uint64 d)
{
static uint64 register_list[] = { 8, 9, 10, 0, 4, 5, 6, 7,
16, 17, 18, 19, 20, 21, 22, 23 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
/*
* NMD::decode_gpr_gpr3() - decoder for 'gpr3' gpr encoding type
*
* Map a 3-bit code to the 5-bit register space according to this pattern:
*
* 7 6 5 4 3 2 1 0
* | | | | | | | |
* | | | | | | | |
* | | | └-----------------------┐
* | | └-----------------------┐ |
* | └-----------------------┐ | |
* └-----------------------┐ | | |
* | | | | | | | |
* ┌-------┘ | | | | | | |
* | ┌-------┘ | | | | | |
* | | ┌-------┘ | | | | |
* | | | ┌-------┘ | | | |
* | | | | | | | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* Used in handling following instructions:
*
* - ADDIU[R1.SP]
* - ADDIU[R2]
* - ADDU[16]
* - AND[16]
* - ANDI[16]
* - BEQC[16]
* - BEQZC[16]
* - BNEC[16]
* - BNEZC[16]
* - LB[16]
* - LBU[16]
* - LH[16]
* - LHU[16]
* - LI[16]
* - LW[16]
* - LW[GP16]
* - LWXS[16]
* - NOT[16]
* - OR[16]
* - SB[16]
* - SH[16]
* - SLL[16]
* - SRL[16]
* - SUBU[16]
* - SW[16]
* - XOR[16]
*/
uint64 NMD::decode_gpr_gpr3(uint64 d)
{
static uint64 register_list[] = { 16, 17, 18, 19, 4, 5, 6, 7 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
/*
* NMD::decode_gpr_gpr3_src_store() - decoder for 'gpr3.src.store' gpr encoding
* type
*
* Map a 3-bit code to the 5-bit register space according to this pattern:
*
* 7 6 5 4 3 2 1 0
* | | | | | | | |
* | | | | | | | └-----------------------┐
* | | | └-----------------------┐ |
* | | └-----------------------┐ | |
* | └-----------------------┐ | | |
* └-----------------------┐ | | | |
* | | | | | | | |
* ┌-------┘ | | | | | | |
* | ┌-------┘ | | | | | |
* | | ┌-------┘ | | | | |
* | | | | | | | |
* | | | | | | | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* This pattern is the same one used for 'gpr3' gpr encoding type, except for
* the input value 0, that is mapped to the output value 0 instead of 16.
*
* Used in handling following instructions:
*
* - SB[16]
* - SH[16]
* - SW[16]
* - SW[GP16]
*/
uint64 NMD::decode_gpr_gpr3_src_store(uint64 d)
{
static uint64 register_list[] = { 0, 17, 18, 19, 4, 5, 6, 7 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
/*
* NMD::decode_gpr_gpr2_reg1() - decoder for 'gpr2.reg1' gpr encoding type
*
* Map a 2-bit code to the 5-bit register space according to this pattern:
*
* 3 2 1 0
* | | | |
* | | | |
* | | | └-------------------┐
* | | └-------------------┐ |
* | └-------------------┐ | |
* └-------------------┐ | | |
* | | | |
* | | | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* Used in handling following instructions:
*
* - MOVEP
* - MOVEP[REV]
*/
uint64 NMD::decode_gpr_gpr2_reg1(uint64 d)
{
static uint64 register_list[] = { 4, 5, 6, 7 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
/*
* NMD::decode_gpr_gpr2_reg2() - decoder for 'gpr2.reg2' gpr encoding type
*
* Map a 2-bit code to the 5-bit register space according to this pattern:
*
* 3 2 1 0
* | | | |
* | | | |
* | | | └-----------------┐
* | | └-----------------┐ |
* | └-----------------┐ | |
* └-----------------┐ | | |
* | | | |
* | | | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* Used in handling following instructions:
*
* - MOVEP
* - MOVEP[REV]
*/
uint64 NMD::decode_gpr_gpr2_reg2(uint64 d)
{
static uint64 register_list[] = { 5, 6, 7, 8 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
/*
* NMD::decode_gpr_gpr1() - decoder for 'gpr1' gpr encoding type
*
* Map a 1-bit code to the 5-bit register space according to this pattern:
*
* 1 0
* | |
* | |
* | └---------------------┐
* └---------------------┐ |
* | |
* | |
* | |
* | |
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* 3 2 1 0
*
* Used in handling following instruction:
*
* - MOVE.BALC
*/
uint64 NMD::decode_gpr_gpr1(uint64 d)
{
static uint64 register_list[] = { 4, 5 };
return renumber_registers(d, register_list,
sizeof(register_list) / sizeof(register_list[0]));
}
uint64 NMD::copy(uint64 d)
{
return d;
}
int64 NMD::copy(int64 d)
{
return d;
}
int64 NMD::neg_copy(uint64 d)
{
return 0ll - d;
}
int64 NMD::neg_copy(int64 d)
{
return -d;
}
/* strange wrapper around gpr3 */
uint64 NMD::encode_rs3_and_check_rs3_ge_rt3(uint64 d)
{
return decode_gpr_gpr3(d);
}
/* strange wrapper around gpr3 */
uint64 NMD::encode_rs3_and_check_rs3_lt_rt3(uint64 d)
{
return decode_gpr_gpr3(d);
}
/* nop - done by extraction function */
uint64 NMD::encode_s_from_address(uint64 d)
{
return d;
}
/* nop - done by extraction function */
uint64 NMD::encode_u_from_address(uint64 d)
{
return d;
}
/* nop - done by extraction function */
uint64 NMD::encode_s_from_s_hi(uint64 d)
{
return d;
}
uint64 NMD::encode_count3_from_count(uint64 d)
{
IMGASSERTONCE(d < 8);
return d == 0ull ? 8ull : d;
}
uint64 NMD::encode_shift3_from_shift(uint64 d)
{
IMGASSERTONCE(d < 8);
return d == 0ull ? 8ull : d;
}
/* special value for load literal */
int64 NMD::encode_eu_from_s_li16(uint64 d)
{
IMGASSERTONCE(d < 128);
return d == 127 ? -1 : (int64)d;
}
uint64 NMD::encode_msbd_from_size(uint64 d)
{
IMGASSERTONCE(d < 32);
return d + 1;
}
uint64 NMD::encode_eu_from_u_andi16(uint64 d)
{
IMGASSERTONCE(d < 16);
if (d == 12) {
return 0x00ffull;
}
if (d == 13) {
return 0xffffull;
}
return d;
}
uint64 NMD::encode_msbd_from_pos_and_size(uint64 d)
{
IMGASSERTONCE(0);
return d;
}
/* save16 / restore16 ???? */
uint64 NMD::encode_rt1_from_rt(uint64 d)
{
return d ? 31 : 30;
}
/* ? */
uint64 NMD::encode_lsb_from_pos_and_size(uint64 d)
{
return d;
}
std::string NMD::save_restore_list(uint64 rt, uint64 count, uint64 gp)
{
std::string str;
for (uint64 counter = 0; counter != count; counter++) {
bool use_gp = gp && (counter == count - 1);
uint64 this_rt = use_gp ? 28 : ((rt & 0x10) | (rt + counter)) & 0x1f;
str += img::format(",%s", GPR(this_rt));
}
return str;
}
std::string NMD::GPR(uint64 reg)
{
static const char *gpr_reg[32] = {
"zero", "at", "v0", "v1", "a0", "a1", "a2", "a3",
"a4", "a5", "a6", "a7", "r12", "r13", "r14", "r15",
"s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7",
"r24", "r25", "k0", "k1", "gp", "sp", "fp", "ra"
};
if (reg < 32) {
return gpr_reg[reg];
}
throw std::runtime_error(img::format("Invalid GPR register index %" PRIu64,
reg));
}
std::string NMD::FPR(uint64 reg)
{
static const char *fpr_reg[32] = {
"f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7",
"f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15",
"f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",
"f24", "f25", "f26", "f27", "f28", "f29", "f30", "f31"
};
if (reg < 32) {
return fpr_reg[reg];
}
throw std::runtime_error(img::format("Invalid FPR register index %" PRIu64,
reg));
}
std::string NMD::AC(uint64 reg)
{
static const char *ac_reg[4] = {
"ac0", "ac1", "ac2", "ac3"
};
if (reg < 4) {
return ac_reg[reg];
}
throw std::runtime_error(img::format("Invalid AC register index %" PRIu64,
reg));
}
std::string NMD::IMMEDIATE(uint64 value)
{
return img::format("0x%" PRIx64, value);
}
std::string NMD::IMMEDIATE(int64 value)
{
return img::format("%" PRId64, value);
}
std::string NMD::CPR(uint64 reg)
{
/* needs more work */
return img::format("CP%" PRIu64, reg);
}
std::string NMD::ADDRESS(uint64 value, int instruction_size)
{
/* token for string replace */
/* const char TOKEN_REPLACE = (char)0xa2; */
img::address address = m_pc + value + instruction_size;
/* symbol replacement */
/* return img::as_char(TOKEN_REPLACE) + to_string(address); */
return to_string(address);
}
uint64 NMD::extract_op_code_value(const uint16 * data, int size)
{
switch (size) {
case 16:
return data[0];
case 32:
return ((uint64)data[0] << 16) | data[1];
case 48:
return ((uint64)data[0] << 32) | ((uint64)data[1] << 16) | data[2];
default:
return data[0];
}
}
int NMD::Disassemble(const uint16 * data, std::string & dis,
NMD::TABLE_ENTRY_TYPE & type)
{
return Disassemble(data, dis, type, MAJOR, 2);
}
/*
* Recurse through tables until the instruction is found then return
* the string and size
*
* inputs:
* pointer to a word stream,
* disassember table and size
* returns:
* instruction size - negative is error
* disassembly string - on error will constain error string
*/
int NMD::Disassemble(const uint16 * data, std::string & dis,
NMD::TABLE_ENTRY_TYPE & type, const Pool *table,
int table_size)
{
try
{
for (int i = 0; i < table_size; i++) {
uint64 op_code = extract_op_code_value(data,
table[i].instructions_size);
if ((op_code & table[i].mask) == table[i].value) {
/* possible match */
conditional_function cond = table[i].condition;
if ((cond == 0) || (this->*cond)(op_code)) {
try
{
if (table[i].type == pool) {
return Disassemble(data, dis, type,
table[i].next_table,
table[i].next_table_size);
} else if ((table[i].type == instruction) ||
(table[i].type == call_instruction) ||
(table[i].type == branch_instruction) ||
(table[i].type == return_instruction)) {
if ((table[i].attributes != 0) &&
(m_requested_instruction_categories &
table[i].attributes) == 0) {
/*
* failed due to instruction having
* an ASE attribute and the requested version
* not having that attribute
*/
dis = "ASE attribute missmatch";
return -5;
}
disassembly_function dis_fn = table[i].disassembly;
if (dis_fn == 0) {
dis = "disassembler failure - bad table entry";
return -6;
}
type = table[i].type;
dis = (this->*dis_fn)(op_code);
return table[i].instructions_size;
} else {
dis = "reserved instruction";
return -2;
}
}
catch (std::runtime_error & e)
{
dis = e.what();
return -3; /* runtime error */
}
}
}
}
}
catch (std::exception & e)
{
dis = e.what();
return -4; /* runtime error */
}
dis = "failed to disassemble";
return -1; /* failed to disassemble */
}
uint64 NMD::extract_code_18_to_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 19);
return value;
}
uint64 NMD::extract_shift3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 3);
return value;
}
uint64 NMD::extract_u_11_10_9_8_7_6_5_4_3__s3(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 9) << 3;
return value;
}
uint64 NMD::extract_count_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 4);
return value;
}
uint64 NMD::extract_rtz3_9_8_7(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 7, 3);
return value;
}
uint64 NMD::extract_u_17_to_1__s1(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 1, 17) << 1;
return value;
}
int64 NMD::extract_s__se9_20_19_18_17_16_15_14_13_12_11(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 11, 10);
value = sign_extend(value, 9);
return value;
}
int64 NMD::extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 11;
value |= extract_bits(instruction, 1, 10) << 1;
value = sign_extend(value, 11);
return value;
}
uint64 NMD::extract_u_10(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 10, 1);
return value;
}
uint64 NMD::extract_rtz4_27_26_25_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 3);
value |= extract_bits(instruction, 25, 1) << 3;
return value;
}
uint64 NMD::extract_sa_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 5);
return value;
}
uint64 NMD::extract_shift_4_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 5);
return value;
}
uint64 NMD::extract_shiftx_10_9_8_7__s1(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 7, 4) << 1;
return value;
}
uint64 NMD::extract_hint_25_24_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 5);
return value;
}
uint64 NMD::extract_count3_14_13_12(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 12, 3);
return value;
}
int64 NMD::extract_s__se31_0_11_to_2_20_to_12_s12(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 31;
value |= extract_bits(instruction, 2, 10) << 21;
value |= extract_bits(instruction, 12, 9) << 12;
value = sign_extend(value, 31);
return value;
}
int64 NMD::extract_s__se7_0_6_5_4_3_2_1_s1(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 7;
value |= extract_bits(instruction, 1, 6) << 1;
value = sign_extend(value, 7);
return value;
}
uint64 NMD::extract_u2_10_9(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 9, 2);
return value;
}
uint64 NMD::extract_code_25_24_23_22_21_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 10);
return value;
}
uint64 NMD::extract_rs_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
uint64 NMD::extract_u_2_1__s1(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 1, 2) << 1;
return value;
}
uint64 NMD::extract_stripe_6(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 6, 1);
return value;
}
uint64 NMD::extract_ac_15_14(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 14, 2);
return value;
}
uint64 NMD::extract_shift_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
uint64 NMD::extract_rdl_25_24(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 24, 1);
return value;
}
int64 NMD::extract_s__se10_0_9_8_7_6_5_4_3_2_1_s1(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 10;
value |= extract_bits(instruction, 1, 9) << 1;
value = sign_extend(value, 10);
return value;
}
uint64 NMD::extract_eu_6_5_4_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 7);
return value;
}
uint64 NMD::extract_shift_5_4_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 6);
return value;
}
uint64 NMD::extract_count_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 4);
return value;
}
uint64 NMD::extract_code_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 3);
return value;
}
uint64 NMD::extract_u_11_10_9_8_7_6_5_4_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 12);
return value;
}
uint64 NMD::extract_rs_4_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 5);
return value;
}
uint64 NMD::extract_u_20_to_3__s3(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 18) << 3;
return value;
}
uint64 NMD::extract_u_3_2_1_0__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 4) << 2;
return value;
}
uint64 NMD::extract_cofun_25_24_23(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 23);
return value;
}
uint64 NMD::extract_u_2_1_0__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 3) << 2;
return value;
}
uint64 NMD::extract_rd3_3_2_1(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 1, 3);
return value;
}
uint64 NMD::extract_sa_15_14_13_12(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 12, 4);
return value;
}
uint64 NMD::extract_rt_25_24_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 5);
return value;
}
uint64 NMD::extract_ru_7_6_5_4_3(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 5);
return value;
}
uint64 NMD::extract_u_17_to_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 18);
return value;
}
uint64 NMD::extract_rsz4_4_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 3);
value |= extract_bits(instruction, 4, 1) << 3;
return value;
}
int64 NMD::extract_s__se21_0_20_to_1_s1(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 21;
value |= extract_bits(instruction, 1, 20) << 1;
value = sign_extend(value, 21);
return value;
}
uint64 NMD::extract_op_25_to_3(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 23);
return value;
}
uint64 NMD::extract_rs4_4_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 3);
value |= extract_bits(instruction, 4, 1) << 3;
return value;
}
uint64 NMD::extract_bit_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 3);
return value;
}
uint64 NMD::extract_rt_41_40_39_38_37(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 37, 5);
return value;
}
int64 NMD::extract_shift__se5_21_20_19_18_17_16(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 16, 6);
value = sign_extend(value, 5);
return value;
}
uint64 NMD::extract_rd2_3_8(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 1) << 1;
value |= extract_bits(instruction, 8, 1);
return value;
}
uint64 NMD::extract_code_17_to_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 18);
return value;
}
uint64 NMD::extract_size_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
int64 NMD::extract_s__se8_15_7_6_5_4_3_2_s2(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 2, 6) << 2;
value |= extract_bits(instruction, 15, 1) << 8;
value = sign_extend(value, 8);
return value;
}
uint64 NMD::extract_u_15_to_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 16);
return value;
}
uint64 NMD::extract_fs_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
int64 NMD::extract_s__se8_15_7_6_5_4_3_2_1_0(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 8);
value |= extract_bits(instruction, 15, 1) << 8;
value = sign_extend(value, 8);
return value;
}
uint64 NMD::extract_stype_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
uint64 NMD::extract_rtl_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 9, 1);
return value;
}
uint64 NMD::extract_hs_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
uint64 NMD::extract_sel_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 3);
return value;
}
uint64 NMD::extract_lsb_4_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 5);
return value;
}
uint64 NMD::extract_gp_2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 2, 1);
return value;
}
uint64 NMD::extract_rt3_9_8_7(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 7, 3);
return value;
}
uint64 NMD::extract_ft_25_24_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 5);
return value;
}
uint64 NMD::extract_u_17_16_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 7);
return value;
}
uint64 NMD::extract_cs_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
uint64 NMD::extract_rt4_9_7_6_5(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 5, 3);
value |= extract_bits(instruction, 9, 1) << 3;
return value;
}
uint64 NMD::extract_msbt_10_9_8_7_6(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 6, 5);
return value;
}
uint64 NMD::extract_u_5_4_3_2_1_0__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 6) << 2;
return value;
}
uint64 NMD::extract_sa_15_14_13(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 13, 3);
return value;
}
int64 NMD::extract_s__se14_0_13_to_1_s1(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 14;
value |= extract_bits(instruction, 1, 13) << 1;
value = sign_extend(value, 14);
return value;
}
uint64 NMD::extract_rs3_6_5_4(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 4, 3);
return value;
}
uint64 NMD::extract_u_31_to_0__s32(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 32) << 32;
return value;
}
uint64 NMD::extract_shift_10_9_8_7_6(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 6, 5);
return value;
}
uint64 NMD::extract_cs_25_24_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 5);
return value;
}
uint64 NMD::extract_shiftx_11_10_9_8_7_6(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 6, 6);
return value;
}
uint64 NMD::extract_rt_9_8_7_6_5(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 5, 5);
return value;
}
uint64 NMD::extract_op_25_24_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 5);
return value;
}
uint64 NMD::extract_u_6_5_4_3_2_1_0__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 7) << 2;
return value;
}
uint64 NMD::extract_bit_16_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 6);
return value;
}
uint64 NMD::extract_mask_20_19_18_17_16_15_14(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 14, 7);
return value;
}
uint64 NMD::extract_eu_3_2_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 4);
return value;
}
uint64 NMD::extract_u_7_6_5_4__s4(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 4, 4) << 4;
return value;
}
int64 NMD::extract_s__se8_15_7_6_5_4_3_s3(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 3, 5) << 3;
value |= extract_bits(instruction, 15, 1) << 8;
value = sign_extend(value, 8);
return value;
}
uint64 NMD::extract_ft_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 5);
return value;
}
int64 NMD::extract_s__se31_15_to_0_31_to_16(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 16) << 16;
value |= extract_bits(instruction, 16, 16);
value = sign_extend(value, 31);
return value;
}
uint64 NMD::extract_u_20_19_18_17_16_15_14_13(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 13, 8);
return value;
}
uint64 NMD::extract_u_17_to_2__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 2, 16) << 2;
return value;
}
uint64 NMD::extract_rd_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 5);
return value;
}
uint64 NMD::extract_c0s_20_19_18_17_16(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 16, 5);
return value;
}
uint64 NMD::extract_code_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 2);
return value;
}
int64 NMD::extract_s__se25_0_24_to_1_s1(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 1) << 25;
value |= extract_bits(instruction, 1, 24) << 1;
value = sign_extend(value, 25);
return value;
}
uint64 NMD::extract_u_1_0(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 2);
return value;
}
uint64 NMD::extract_u_3_8__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 3, 1) << 3;
value |= extract_bits(instruction, 8, 1) << 2;
return value;
}
uint64 NMD::extract_fd_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 5);
return value;
}
uint64 NMD::extract_u_4_3_2_1_0__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 5) << 2;
return value;
}
uint64 NMD::extract_rtz4_9_7_6_5(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 5, 3);
value |= extract_bits(instruction, 9, 1) << 3;
return value;
}
uint64 NMD::extract_sel_15_14_13_12_11(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 11, 5);
return value;
}
uint64 NMD::extract_ct_25_24_23_22_21(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 21, 5);
return value;
}
uint64 NMD::extract_u_20_to_2__s2(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 2, 19) << 2;
return value;
}
int64 NMD::extract_s__se3_4_2_1_0(uint64 instruction)
{
int64 value = 0;
value |= extract_bits(instruction, 0, 3);
value |= extract_bits(instruction, 4, 1) << 3;
value = sign_extend(value, 3);
return value;
}
uint64 NMD::extract_u_3_2_1_0__s1(uint64 instruction)
{
uint64 value = 0;
value |= extract_bits(instruction, 0, 4) << 1;
return value;
}
bool NMD::ADDIU_32__cond(uint64 instruction)
{
uint64 rt = extract_rt_25_24_23_22_21(instruction);
return rt != 0;
}
bool NMD::ADDIU_RS5__cond(uint64 instruction)
{
uint64 rt = extract_rt_9_8_7_6_5(instruction);
return rt != 0;
}
bool NMD::BALRSC_cond(uint64 instruction)
{
uint64 rt = extract_rt_25_24_23_22_21(instruction);
return rt != 0;
}
bool NMD::BEQC_16__cond(uint64 instruction)
{
uint64 rs3 = extract_rs3_6_5_4(instruction);
uint64 rt3 = extract_rt3_9_8_7(instruction);
uint64 u = extract_u_3_2_1_0__s1(instruction);
return rs3 < rt3 && u != 0;
}
bool NMD::BNEC_16__cond(uint64 instruction)
{
uint64 rs3 = extract_rs3_6_5_4(instruction);
uint64 rt3 = extract_rt3_9_8_7(instruction);
uint64 u = extract_u_3_2_1_0__s1(instruction);
return rs3 >= rt3 && u != 0;
}
bool NMD::MOVE_cond(uint64 instruction)
{
uint64 rt = extract_rt_9_8_7_6_5(instruction);
return rt != 0;
}
bool NMD::P16_BR1_cond(uint64 instruction)
{
uint64 u = extract_u_3_2_1_0__s1(instruction);
return u != 0;
}
bool NMD::PREF_S9__cond(uint64 instruction)
{
uint64 hint = extract_hint_25_24_23_22_21(instruction);
return hint != 31;
}
bool NMD::PREFE_cond(uint64 instruction)
{
uint64 hint = extract_hint_25_24_23_22_21(instruction);
return hint != 31;
}
bool NMD::SLTU_cond(uint64 instruction)
{
uint64 rd = extract_rd_15_14_13_12_11(instruction);
return rd != 0;
}
/*
* ABS.D fd, fs - Floating Point Absolute Value
*
* 3 2 1
* 10987654321098765432109876543210
* 010001 00000 000101
* fmt -----
* fs -----
* fd -----
*/
std::string NMD::ABS_D(uint64 instruction)
{
uint64 fd_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string fs = FPR(copy(fs_value));
std::string fd = FPR(copy(fd_value));
return img::format("ABS.D %s, %s", fd, fs);
}
/*
* ABS.S fd, fs - Floating Point Absolute Value
*
* 3 2 1
* 10987654321098765432109876543210
* 010001 00000 000101
* fmt -----
* fd -----
* fs -----
*/
std::string NMD::ABS_S(uint64 instruction)
{
uint64 fd_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string fs = FPR(copy(fs_value));
std::string fd = FPR(copy(fd_value));
return img::format("ABS.S %s, %s", fd, fs);
}
/*
* [DSP] ABSQ_S.PH rt, rs - Find absolute value of two fractional halfwords
* with 16-bit saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0001000100111111
* rt -----
* rs -----
*/
std::string NMD::ABSQ_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("ABSQ_S.PH %s, %s", rt, rs);
}
/*
* [DSP] ABSQ_S.QB rt, rs - Find absolute value of four fractional byte values
* with 8-bit saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0000000100111111
* rt -----
* rs -----
*/
std::string NMD::ABSQ_S_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("ABSQ_S.QB %s, %s", rt, rs);
}
/*
* [DSP] ABSQ_S.W rt, rs - Find absolute value of fractional word with 32-bit
* saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ABSQ_S_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("ABSQ_S.W %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ACLR(uint64 instruction)
{
uint64 bit_value = extract_bit_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string bit = IMMEDIATE(copy(bit_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("ACLR %s, %s(%s)", bit, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADD %s, %s, %s", rd, rs, rt);
}
/*
* ADD.D fd, fs, ft - Floating Point Add
*
* 3 2 1
* 10987654321098765432109876543210
* 010001 000101
* fmt -----
* ft -----
* fs -----
* fd -----
*/
std::string NMD::ADD_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
std::string fd = FPR(copy(fd_value));
return img::format("ADD.D %s, %s, %s", fd, fs, ft);
}
/*
* ADD.S fd, fs, ft - Floating Point Add
*
* 3 2 1
* 10987654321098765432109876543210
* 010001 000101
* fmt -----
* ft -----
* fs -----
* fd -----
*/
std::string NMD::ADD_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
std::string fd = FPR(copy(fd_value));
return img::format("ADD.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_15_to_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ADDIU %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("ADDIU %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_GP48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("ADDIU %s, $%d, %s", rt, 28, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_GP_B_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ADDIU %s, $%d, %s", rt, 28, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_GP_W_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_20_to_2__s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ADDIU %s, $%d, %s", rt, 28, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_NEG_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(neg_copy(u_value));
return img::format("ADDIU %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_R1_SP_(uint64 instruction)
{
uint64 u_value = extract_u_5_4_3_2_1_0__s2(instruction);
uint64 rt3_value = extract_rt3_9_8_7(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ADDIU %s, $%d, %s", rt3, 29, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0010000100111111
* rt -----
* rs -----
*/
std::string NMD::ADDIU_R2_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_2_1_0__s2(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ADDIU %s, %s, %s", rt3, rs3, u);
}
/*
* ADDIU[RS5] rt, s5 - Add Signed Word and Set Carry Bit
*
* 5432109876543210
* 100100 1
* rt -----
* s - ---
*/
std::string NMD::ADDIU_RS5_(uint64 instruction)
{
uint64 rt_value = extract_rt_9_8_7_6_5(instruction);
int64 s_value = extract_s__se3_4_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("ADDIU %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDIUPC_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
int64 s_value = extract_s__se21_0_20_to_1_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("ADDIUPC %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDIUPC_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 6);
return img::format("ADDIUPC %s, %s", rt, s);
}
/*
* [DSP] ADDQ.PH rd, rt, rs - Add fractional halfword vectors
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00000001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQ_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQ.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDQ_S.PH rd, rt, rs - Add fractional halfword vectors with 16-bit
* saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10000001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQ_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQ_S.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDQ_S.W rd, rt, rs - Add fractional words with 32-bit saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1100000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQ_S_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQ_S.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDQH.PH rd, rt, rs - Add fractional halfword vectors and shift
* right to halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQH_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQH.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDQH_R.PH rd, rt, rs - Add fractional halfword vectors and shift
* right to halve results with rounding
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQH_R_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQH_R.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDQH_R.W rd, rt, rs - Add fractional words and shift right to halve
* results with rounding
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQH_R_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQH_R.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDQH.W rd, rt, rs - Add fractional words and shift right to halve
* results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDQH_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDQH.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDSC rd, rt, rs - Add two signed words and set carry bit
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDSC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDSC %s, %s, %s", rd, rs, rt);
}
/*
* ADDU[16] rd3, rs3, rt3 -
*
* 5432109876543210
* 101100 0
* rt3 ---
* rs3 ---
* rd3 ---
*/
std::string NMD::ADDU_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 rd3_value = extract_rd3_3_2_1(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string rd3 = GPR(decode_gpr_gpr3(rd3_value));
return img::format("ADDU %s, %s, %s", rd3, rs3, rt3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDU_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDU_4X4_(uint64 instruction)
{
uint64 rt4_value = extract_rt4_9_7_6_5(instruction);
uint64 rs4_value = extract_rs4_4_2_1_0(instruction);
std::string rs4 = GPR(decode_gpr_gpr4(rs4_value));
std::string rt4 = GPR(decode_gpr_gpr4(rt4_value));
return img::format("ADDU %s, %s", rs4, rt4);
}
/*
* [DSP] ADDU.PH rd, rt, rs - Add two pairs of unsigned halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00100001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDU_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDU.PH %s, %s, %s", rd, rs, rt);
}
/*
* ADDU.QB rd, rt, rs - Unsigned Add Quad Byte Vectors
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00011001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDU_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDU.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] ADDU_S.PH rd, rt, rs - Add two pairs of unsigned halfwords with 16-bit
* saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10100001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDU_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDU_S.PH %s, %s, %s", rd, rs, rt);
}
/*
* ADDU_S.QB rd, rt, rs - Unsigned Add Quad Byte Vectors
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10011001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDU_S_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDU_S.QB %s, %s, %s", rd, rs, rt);
}
/*
* ADDUH.QB rd, rt, rs - Unsigned Add Vector Quad-Bytes And Right Shift
* to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00101001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDUH_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDUH.QB %s, %s, %s", rd, rs, rt);
}
/*
* ADDUH_R.QB rd, rt, rs - Unsigned Add Vector Quad-Bytes And Right Shift
* to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10101001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDUH_R_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDUH_R.QB %s, %s, %s", rd, rs, rt);
}
/*
* ADDWC rd, rt, rs - Add Word with Carry Bit
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1111000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ADDWC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ADDWC %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ALUIPC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
int64 s_value = extract_s__se31_0_11_to_2_20_to_12_s12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("ALUIPC %s, %%pcrel_hi(%s)", rt, s);
}
/*
* AND[16] rt3, rs3 -
*
* 5432109876543210
* 101100
* rt3 ---
* rs3 ---
* eu ----
*/
std::string NMD::AND_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("AND %s, %s", rs3, rt3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::AND_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("AND %s, %s, %s", rd, rs, rt);
}
/*
* ANDI rt, rs, u -
*
* 5432109876543210
* 101100
* rt3 ---
* rs3 ---
* eu ----
*/
std::string NMD::ANDI_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 eu_value = extract_eu_3_2_1_0(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string eu = IMMEDIATE(encode_eu_from_u_andi16(eu_value));
return img::format("ANDI %s, %s, %s", rt3, rs3, eu);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ANDI_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ANDI %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::APPEND(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("APPEND %s, %s, %s", rt, rs, sa);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ASET(uint64 instruction)
{
uint64 bit_value = extract_bit_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string bit = IMMEDIATE(copy(bit_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("ASET %s, %s(%s)", bit, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BALC_16_(uint64 instruction)
{
int64 s_value = extract_s__se10_0_9_8_7_6_5_4_3_2_1_s1(instruction);
std::string s = ADDRESS(encode_s_from_address(s_value), 2);
return img::format("BALC %s", s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BALC_32_(uint64 instruction)
{
int64 s_value = extract_s__se25_0_24_to_1_s1(instruction);
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BALC %s", s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BALRSC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("BALRSC %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BBEQZC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 bit_value = extract_bit_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string bit = IMMEDIATE(copy(bit_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BBEQZC %s, %s, %s", rt, bit, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BBNEZC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 bit_value = extract_bit_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string bit = IMMEDIATE(copy(bit_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BBNEZC %s, %s, %s", rt, bit, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BC_16_(uint64 instruction)
{
int64 s_value = extract_s__se10_0_9_8_7_6_5_4_3_2_1_s1(instruction);
std::string s = ADDRESS(encode_s_from_address(s_value), 2);
return img::format("BC %s", s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BC_32_(uint64 instruction)
{
int64 s_value = extract_s__se25_0_24_to_1_s1(instruction);
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BC %s", s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BC1EQZC(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string ft = FPR(copy(ft_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BC1EQZC %s, %s", ft, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BC1NEZC(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string ft = FPR(copy(ft_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BC1NEZC %s, %s", ft, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BC2EQZC(uint64 instruction)
{
uint64 ct_value = extract_ct_25_24_23_22_21(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string ct = CPR(copy(ct_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BC2EQZC %s, %s", ct, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BC2NEZC(uint64 instruction)
{
uint64 ct_value = extract_ct_25_24_23_22_21(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string ct = CPR(copy(ct_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BC2NEZC %s, %s", ct, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BEQC_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_3_2_1_0__s1(instruction);
std::string rs3 = GPR(encode_rs3_and_check_rs3_lt_rt3(rs3_value));
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = ADDRESS(encode_u_from_address(u_value), 2);
return img::format("BEQC %s, %s, %s", rs3, rt3, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BEQC_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BEQC %s, %s, %s", rs, rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BEQIC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BEQIC %s, %s, %s", rt, u, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BEQZC_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
int64 s_value = extract_s__se7_0_6_5_4_3_2_1_s1(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 2);
return img::format("BEQZC %s, %s", rt3, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BGEC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BGEC %s, %s, %s", rs, rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BGEIC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BGEIC %s, %s, %s", rt, u, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BGEIUC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BGEIUC %s, %s, %s", rt, u, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BGEUC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BGEUC %s, %s, %s", rs, rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BLTC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BLTC %s, %s, %s", rs, rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BLTIC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BLTIC %s, %s, %s", rt, u, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BLTIUC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BLTIUC %s, %s, %s", rt, u, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BLTUC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BLTUC %s, %s, %s", rs, rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BNEC_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_3_2_1_0__s1(instruction);
std::string rs3 = GPR(encode_rs3_and_check_rs3_ge_rt3(rs3_value));
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = ADDRESS(encode_u_from_address(u_value), 2);
return img::format("BNEC %s, %s, %s", rs3, rt3, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BNEC_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BNEC %s, %s, %s", rs, rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BNEIC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_16_15_14_13_12_11(instruction);
int64 s_value = extract_s__se11_0_10_9_8_7_6_5_4_3_2_1_0_s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BNEIC %s, %s, %s", rt, u, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BNEZC_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
int64 s_value = extract_s__se7_0_6_5_4_3_2_1_s1(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 2);
return img::format("BNEZC %s, %s", rt3, s);
}
/*
* [DSP] BPOSGE32C offset - Branch on greater than or equal to value 32 in
* DSPControl Pos field
*
* 3 2 1
* 10987654321098765432109876543210
* 100010xxxxx0010001
* s[13:1] -------------
* s[14] -
*/
std::string NMD::BPOSGE32C(uint64 instruction)
{
int64 s_value = extract_s__se14_0_13_to_1_s1(instruction);
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("BPOSGE32C %s", s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BREAK_16_(uint64 instruction)
{
uint64 code_value = extract_code_2_1_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("BREAK %s", code);
}
/*
* BREAK code - Break. Cause a Breakpoint exception
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BREAK_32_(uint64 instruction)
{
uint64 code_value = extract_code_18_to_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("BREAK %s", code);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::BRSC(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
return img::format("BRSC %s", rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CACHE(uint64 instruction)
{
uint64 op_value = extract_op_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string op = IMMEDIATE(copy(op_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("CACHE %s, %s(%s)", op, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CACHEE(uint64 instruction)
{
uint64 op_value = extract_op_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string op = IMMEDIATE(copy(op_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("CACHEE %s, %s(%s)", op, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CEIL_L_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CEIL.L.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CEIL_L_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CEIL.L.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CEIL_W_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CEIL.W.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CEIL_W_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CEIL.W.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CFC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("CFC1 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CFC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("CFC2 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CLASS_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CLASS.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CLASS_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CLASS.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CLO(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("CLO %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CLZ(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("CLZ %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_AF_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.AF.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_AF_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.AF.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_EQ_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.EQ.D %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] CMP.EQ.PH rs, rt - Compare vectors of signed integer halfword values
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxxx0000000101
* rt -----
* rs -----
*/
std::string NMD::CMP_EQ_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMP.EQ.PH %s, %s", rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_EQ_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.EQ.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_LE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.LE.D %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] CMP.LE.PH rs, rt - Compare vectors of signed integer halfword values
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxxx0010000101
* rt -----
* rs -----
*/
std::string NMD::CMP_LE_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMP.LE.PH %s, %s", rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_LE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.LE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_LT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.LT.D %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] CMP.LT.PH rs, rt - Compare vectors of signed integer halfword values
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxxx0001000101
* rt -----
* rs -----
*/
std::string NMD::CMP_LT_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMP.LT.PH %s, %s", rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_LT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.LT.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_NE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.NE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_NE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.NE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_OR_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.OR.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_OR_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.OR.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SAF_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SAF.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SAF_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SAF.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SEQ_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SEQ.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SEQ_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SEQ.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SLE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SLE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SLE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SLE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SLT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SLT.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SLT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SLT.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SNE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SNE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SNE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SNE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SOR_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SOR.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SOR_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SOR.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SUEQ_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SUEQ.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SUEQ_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SUEQ.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SULE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SULE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SULE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SULE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SULT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SULT.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SULT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SULT.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SUN_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SUN.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SUNE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SUNE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SUNE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SUNE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_SUN_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.SUN.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_UEQ_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.UEQ.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_UEQ_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.UEQ.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_ULE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.ULE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_ULE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.ULE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_ULT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.ULT.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_ULT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.ULT.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_UN_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.UN.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_UNE_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.UNE.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_UNE_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.UNE.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMP_UN_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("CMP.UN.S %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] CMPGDU.EQ.QB rd, rs, rt - Compare unsigned vector of
* four bytes and write result to GPR and DSPControl
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMPGDU_EQ_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPGDU.EQ.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] CMPGDU.LE.QB rd, rs, rt - Compare unsigned vector of
* four bytes and write result to GPR and DSPControl
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1000000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMPGDU_LE_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPGDU.LE.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] CMPGDU.EQ.QB rd, rs, rt - Compare unsigned vector of
* four bytes and write result to GPR and DSPControl
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0111000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMPGDU_LT_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPGDU.LT.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] CMPGU.EQ.QB rd, rs, rt - Compare vectors of unsigned
* byte values and write result to a GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0011000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMPGU_EQ_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPGU.EQ.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] CMPGU.LE.QB rd, rs, rt - Compare vectors of unsigned
* byte values and write result to a GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0101000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMPGU_LE_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPGU.LE.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] CMPGU.LT.QB rd, rs, rt - Compare vectors of unsigned
* byte values and write result to a GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0100000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CMPGU_LT_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPGU.LT.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] CMPU.EQ.QB rd, rs, rt - Compare vectors of unsigned
* byte values
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxxx1001000101
* rt -----
* rs -----
*/
std::string NMD::CMPU_EQ_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPU.EQ.QB %s, %s", rs, rt);
}
/*
* [DSP] CMPU.LE.QB rd, rs, rt - Compare vectors of unsigned
* byte values
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxxx1011000101
* rt -----
* rs -----
*/
std::string NMD::CMPU_LE_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPU.LE.QB %s, %s", rs, rt);
}
/*
* [DSP] CMPU.LT.QB rd, rs, rt - Compare vectors of unsigned
* byte values
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxxx1010000101
* rt -----
* rs -----
*/
std::string NMD::CMPU_LT_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("CMPU.LT.QB %s, %s", rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::COP2_1(uint64 instruction)
{
uint64 cofun_value = extract_cofun_25_24_23(instruction);
std::string cofun = IMMEDIATE(copy(cofun_value));
return img::format("COP2_1 %s", cofun);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CTC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("CTC1 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CTC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("CTC2 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_D_L(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.D.L %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_D_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.D.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_D_W(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.D.W %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_L_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.L.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_L_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.L.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_S_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.S.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_S_L(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.S.L %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_S_PL(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.S.PL %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_S_PU(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.S.PU %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_S_W(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.S.W %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_W_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.W.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::CVT_W_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("CVT.W.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DADDIU_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("DADDIU %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DADDIU_NEG_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(neg_copy(u_value));
return img::format("DADDIU %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DADDIU_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("DADDIU %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DADD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DADD %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DADDU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DADDU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DCLO(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("DCLO %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DCLZ(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("DCLZ %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DDIV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DDIV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DDIVU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DDIVU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DERET(uint64 instruction)
{
(void)instruction;
return "DERET ";
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DEXTM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string lsb = IMMEDIATE(copy(lsb_value));
std::string msbd = IMMEDIATE(encode_msbd_from_size(msbd_value));
return img::format("DEXTM %s, %s, %s, %s", rt, rs, lsb, msbd);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DEXT(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string lsb = IMMEDIATE(copy(lsb_value));
std::string msbd = IMMEDIATE(encode_msbd_from_size(msbd_value));
return img::format("DEXT %s, %s, %s, %s", rt, rs, lsb, msbd);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DEXTU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string lsb = IMMEDIATE(copy(lsb_value));
std::string msbd = IMMEDIATE(encode_msbd_from_size(msbd_value));
return img::format("DEXTU %s, %s, %s, %s", rt, rs, lsb, msbd);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DINSM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string pos = IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value));
std::string size = IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value));
/* !!!!!!!!!! - no conversion function */
return img::format("DINSM %s, %s, %s, %s", rt, rs, pos, size);
/* hand edited */
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DINS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string pos = IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value));
std::string size = IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value));
/* !!!!!!!!!! - no conversion function */
return img::format("DINS %s, %s, %s, %s", rt, rs, pos, size);
/* hand edited */
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DINSU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string pos = IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value));
std::string size = IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value));
/* !!!!!!!!!! - no conversion function */
return img::format("DINSU %s, %s, %s, %s", rt, rs, pos, size);
/* hand edited */
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("DI %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DIV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DIV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DIV_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("DIV.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DIV_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("DIV.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DIVU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DIVU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DLSA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
uint64 u2_value = extract_u2_10_9(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string u2 = IMMEDIATE(copy(u2_value));
return img::format("DLSA %s, %s, %s, %s", rd, rs, rt, u2);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DLUI_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
uint64 u_value = extract_u_31_to_0__s32(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("DLUI %s, %s", rt, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMFC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("DMFC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMFC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string fs = FPR(copy(fs_value));
return img::format("DMFC1 %s, %s", rt, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMFC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("DMFC2 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMFGC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("DMFGC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMOD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DMOD %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMODU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DMODU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMTC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("DMTC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMTC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string fs = FPR(copy(fs_value));
return img::format("DMTC1 %s, %s", rt, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMTC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("DMTC2 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMTGC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("DMTGC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMT(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("DMT %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMUH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DMUH %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMUHU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DMUHU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMUL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DMUL %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DMULU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DMULU %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] DPA.W.PH ac, rs, rt - Dot product with accumulate on
* vector integer halfword elements
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00000010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::DPA_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPA.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAQ_SA_L_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAQ_SA.L.W %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAQ_S_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAQ_S.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAQX_SA_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAQX_SA.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAQX_S_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAQX_S.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAU_H_QBL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAU.H.QBL %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAU_H_QBR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAU.H.QBR %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPAX_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPAX.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPS_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPS.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSQ_SA_L_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSQ_SA.L.W %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSQ_S_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSQ_S.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSQX_SA_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSQX_SA.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSQX_S_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSQX_S.W.PH %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSU_H_QBL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSU.H.QBL %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSU_H_QBR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSU.H.QBR %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DPSX_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DPSX.W.PH %s, %s, %s", ac, rs, rt);
}
/*
* DROTR -
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DROTR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DROTR %s, %s, %s", rt, rs, shift);
}
/*
* DROTR[32] -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0110
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DROTR32(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DROTR32 %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DROTRV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DROTRV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DROTX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shiftx_value = extract_shiftx_11_10_9_8_7_6(instruction);
uint64 shift_value = extract_shift_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
std::string shiftx = IMMEDIATE(copy(shiftx_value));
return img::format("DROTX %s, %s, %s, %s", rt, rs, shift, shiftx);
}
/*
* DSLL -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0000
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DSLL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DSLL %s, %s, %s", rt, rs, shift);
}
/*
* DSLL[32] -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0000
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DSLL32(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DSLL32 %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DSLLV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DSLLV %s, %s, %s", rd, rs, rt);
}
/*
* DSRA -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0100
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DSRA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DSRA %s, %s, %s", rt, rs, shift);
}
/*
* DSRA[32] -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0100
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DSRA32(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DSRA32 %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DSRAV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DSRAV %s, %s, %s", rd, rs, rt);
}
/*
* DSRL -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0100
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DSRL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DSRL %s, %s, %s", rt, rs, shift);
}
/*
* DSRL[32] -
*
* 3 2 1
* 10987654321098765432109876543210
* 10o000 1100xxx0010
* rt -----
* rs -----
* shift -----
*/
std::string NMD::DSRL32(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("DSRL32 %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DSRLV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DSRLV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DSUB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DSUB %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DSUBU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("DSUBU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DVPE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("DVPE %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::DVP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("DVP %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EHB(uint64 instruction)
{
(void)instruction;
return "EHB ";
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("EI %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EMT(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("EMT %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ERET(uint64 instruction)
{
(void)instruction;
return "ERET ";
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ERETNC(uint64 instruction)
{
(void)instruction;
return "ERETNC ";
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EVP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("EVP %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EVPE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("EVPE %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXT(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string lsb = IMMEDIATE(copy(lsb_value));
std::string msbd = IMMEDIATE(encode_msbd_from_size(msbd_value));
return img::format("EXT %s, %s, %s, %s", rt, rs, lsb, msbd);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXTD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
uint64 shift_value = extract_shift_10_9_8_7_6(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTD %s, %s, %s, %s", rd, rs, rt, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXTD32(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
uint64 shift_value = extract_shift_10_9_8_7_6(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTD32 %s, %s, %s, %s", rd, rs, rt, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXTPDP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 size_value = extract_size_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string size = IMMEDIATE(copy(size_value));
return img::format("EXTPDP %s, %s, %s", rt, ac, size);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXTPDPV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
return img::format("EXTPDPV %s, %s, %s", rt, ac, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXTP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 size_value = extract_size_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string size = IMMEDIATE(copy(size_value));
return img::format("EXTP %s, %s, %s", rt, ac, size);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::EXTPV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
return img::format("EXTPV %s, %s, %s", rt, ac, rs);
}
/*
* [DSP] EXTR_RS.W rt, ac, shift - Extract word value from accumulator to GPR
* with right shift
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10111001111111
* rt -----
* shift -----
* ac --
*/
std::string NMD::EXTR_RS_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 shift_value = extract_shift_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTR_RS.W %s, %s, %s", rt, ac, shift);
}
/*
* [DSP] EXTR_R.W rt, ac, shift - Extract word value from accumulator to GPR
* with right shift
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01111001111111
* rt -----
* shift -----
* ac --
*/
std::string NMD::EXTR_R_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 shift_value = extract_shift_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTR_R.W %s, %s, %s", rt, ac, shift);
}
/*
* [DSP] EXTR_S.H rt, ac, shift - Extract halfword value from accumulator
* to GPR with right shift and saturate
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11111001111111
* rt -----
* shift -----
* ac --
*/
std::string NMD::EXTR_S_H(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 shift_value = extract_shift_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTR_S.H %s, %s, %s", rt, ac, shift);
}
/*
* [DSP] EXTR.W rt, ac, shift - Extract word value from accumulator to GPR
* with right shift
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00111001111111
* rt -----
* shift -----
* ac --
*/
std::string NMD::EXTR_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 shift_value = extract_shift_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTR.W %s, %s, %s", rt, ac, shift);
}
/*
* [DSP] EXTRV_RS.W rt, ac, rs - Extract word value with variable
* right shift from accumulator to GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10111010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::EXTRV_RS_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
return img::format("EXTRV_RS.W %s, %s, %s", rt, ac, rs);
}
/*
* [DSP] EXTRV_R.W rt, ac, rs - Extract word value with variable
* right shift from accumulator to GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01111010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::EXTRV_R_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
return img::format("EXTRV_R.W %s, %s, %s", rt, ac, rs);
}
/*
* [DSP] EXTRV_S.H rt, ac, rs - Extract halfword value variable from
* accumulator to GPR with right shift and saturate
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11111010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::EXTRV_S_H(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
return img::format("EXTRV_S.H %s, %s, %s", rt, ac, rs);
}
/*
* [DSP] EXTRV.W rt, ac, rs - Extract word value with variable
* right shift from accumulator to GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00111010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::EXTRV_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
return img::format("EXTRV.W %s, %s, %s", rt, ac, rs);
}
/*
* EXTW - Extract Word
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 011111
* rt -----
* rs -----
* rd -----
* shift -----
*/
std::string NMD::EXTW(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
uint64 shift_value = extract_shift_10_9_8_7_6(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("EXTW %s, %s, %s, %s", rd, rs, rt, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::FLOOR_L_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("FLOOR.L.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::FLOOR_L_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("FLOOR.L.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::FLOOR_W_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("FLOOR.W.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::FLOOR_W_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("FLOOR.W.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::FORK(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("FORK %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::HYPCALL(uint64 instruction)
{
uint64 code_value = extract_code_17_to_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("HYPCALL %s", code);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::HYPCALL_16_(uint64 instruction)
{
uint64 code_value = extract_code_1_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("HYPCALL %s", code);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::INS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 msbd_value = extract_msbt_10_9_8_7_6(instruction);
uint64 lsb_value = extract_lsb_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string pos = IMMEDIATE(encode_lsb_from_pos_and_size(lsb_value));
std::string size = IMMEDIATE(encode_lsb_from_pos_and_size(msbd_value));
/* !!!!!!!!!! - no conversion function */
return img::format("INS %s, %s, %s, %s", rt, rs, pos, size);
/* hand edited */
}
/*
* [DSP] INSV rt, rs - Insert bit field variable
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0100000100111111
* rt -----
* rs -----
*/
std::string NMD::INSV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("INSV %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::IRET(uint64 instruction)
{
(void)instruction;
return "IRET ";
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::JALRC_16_(uint64 instruction)
{
uint64 rt_value = extract_rt_9_8_7_6_5(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("JALRC $%d, %s", 31, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::JALRC_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("JALRC %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::JALRC_HB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("JALRC.HB %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::JRC(uint64 instruction)
{
uint64 rt_value = extract_rt_9_8_7_6_5(instruction);
std::string rt = GPR(copy(rt_value));
return img::format("JRC %s", rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LB_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_1_0(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("LB %s, %s(%s)", rt3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LB_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LB %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LB_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LB %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LB_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LB %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LBE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBU_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_1_0(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("LBU %s, %s(%s)", rt3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBU_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LBU %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBU_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LBU %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBU_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LBU %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBUE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LBUE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBUX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LBUX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LBX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LBX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LD_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_20_to_3__s3(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LD %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LD_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LD %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LD_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LD %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDC1_GP_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_2__s2(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LDC1 %s, %s($%d)", ft, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDC1_S9_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LDC1 %s, %s(%s)", ft, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDC1_U12_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LDC1 %s, %s(%s)", ft, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDC1XS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LDC1XS %s, %s(%s)", ft, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDC1X(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LDC1X %s, %s(%s)", ft, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDC2(uint64 instruction)
{
uint64 ct_value = extract_ct_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string ct = CPR(copy(ct_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LDC2 %s, %s(%s)", ct, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("LDM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDPC_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 6);
return img::format("LDPC %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LDX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LDXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LDXS %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LH_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_2_1__s1(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("LH %s, %s(%s)", rt3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LH_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_1__s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LH %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LH_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LH %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LH_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LH %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LHE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHU_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_2_1__s1(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("LHU %s, %s(%s)", rt3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHU_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_1__s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LHU %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHU_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LHU %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHU_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LHU %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHUE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LHUE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHUX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LHUX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHUXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LHUXS %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LHXS %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LHX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LHX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LI_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 eu_value = extract_eu_6_5_4_3_2_1_0(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string eu = IMMEDIATE(encode_eu_from_s_li16(eu_value));
return img::format("LI %s, %s", rt3, eu);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LI_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("LI %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LL %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LLD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_s3(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LLD %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LLDP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ru_value = extract_ru_7_6_5_4_3(instruction);
std::string rt = GPR(copy(rt_value));
std::string ru = GPR(copy(ru_value));
std::string rs = GPR(copy(rs_value));
return img::format("LLDP %s, %s, (%s)", rt, ru, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LLE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LLE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LLWP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ru_value = extract_ru_7_6_5_4_3(instruction);
std::string rt = GPR(copy(rt_value));
std::string ru = GPR(copy(ru_value));
std::string rs = GPR(copy(rs_value));
return img::format("LLWP %s, %s, (%s)", rt, ru, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LLWPE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ru_value = extract_ru_7_6_5_4_3(instruction);
std::string rt = GPR(copy(rt_value));
std::string ru = GPR(copy(ru_value));
std::string rs = GPR(copy(rs_value));
return img::format("LLWPE %s, %s, (%s)", rt, ru, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LSA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
uint64 u2_value = extract_u2_10_9(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
std::string u2 = IMMEDIATE(copy(u2_value));
return img::format("LSA %s, %s, %s, %s", rd, rs, rt, u2);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LUI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
int64 s_value = extract_s__se31_0_11_to_2_20_to_12_s12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("LUI %s, %%hi(%s)", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_3_2_1_0__s2(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("LW %s, %s(%s)", rt3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_4X4_(uint64 instruction)
{
uint64 rt4_value = extract_rt4_9_7_6_5(instruction);
uint64 rs4_value = extract_rs4_4_2_1_0(instruction);
uint64 u_value = extract_u_3_8__s2(instruction);
std::string rt4 = GPR(decode_gpr_gpr4(rt4_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs4 = GPR(decode_gpr_gpr4(rs4_value));
return img::format("LW %s, %s(%s)", rt4, u, rs4);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_20_to_2__s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LW %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_GP16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 u_value = extract_u_6_5_4_3_2_1_0__s2(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LW %s, %s($%d)", rt3, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LW %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_SP_(uint64 instruction)
{
uint64 rt_value = extract_rt_9_8_7_6_5(instruction);
uint64 u_value = extract_u_4_3_2_1_0__s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LW %s, %s($%d)", rt, u, 29);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LW_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LW %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWC1_GP_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_2__s2(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LWC1 %s, %s($%d)", ft, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWC1_S9_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LWC1 %s, %s(%s)", ft, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWC1_U12_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LWC1 %s, %s(%s)", ft, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWC1X(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LWC1X %s, %s(%s)", ft, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWC1XS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LWC1XS %s, %s(%s)", ft, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWC2(uint64 instruction)
{
uint64 ct_value = extract_ct_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string ct = CPR(copy(ct_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LWC2 %s, %s(%s)", ct, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LWE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("LWM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWPC_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 6);
return img::format("LWPC %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWU_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_2__s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("LWU %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWU_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("LWU %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWU_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("LWU %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWUX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LWUX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWUXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LWUXS %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LWX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWXS_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 rd3_value = extract_rd3_3_2_1(instruction);
std::string rd3 = GPR(decode_gpr_gpr3(rd3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string rt3 = IMMEDIATE(decode_gpr_gpr3(rt3_value));
return img::format("LWXS %s, %s(%s)", rd3, rs3, rt3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::LWXS_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("LWXS %s, %s(%s)", rd, rs, rt);
}
/*
* [DSP] MADD ac, rs, rt - Multiply two words and add to the specified
* accumulator
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MADD_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MADD %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MADDF_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MADDF.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MADDF_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MADDF.S %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] MADDU ac, rs, rt - Multiply two unsigned words and add to the
* specified accumulator
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MADDU_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MADDU %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MAQ_S.W.PHL ac, rs, rt - Multiply the left-most single vector
* fractional halfword elements with accumulation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAQ_S_W_PHL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MAQ_S.W.PHL %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MAQ_S.W.PHR ac, rs, rt - Multiply the right-most single vector
* fractional halfword elements with accumulation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAQ_S_W_PHR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MAQ_S.W.PHR %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MAQ_SA.W.PHL ac, rs, rt - Multiply the left-most single vector
* fractional halfword elements with saturating accumulation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAQ_SA_W_PHL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MAQ_SA.W.PHL %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MAQ_SA.W.PHR ac, rs, rt - Multiply the right-most single vector
* fractional halfword elements with saturating accumulation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAQ_SA_W_PHR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MAQ_SA.W.PHR %s, %s, %s", ac, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAX_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MAX.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAX_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MAX.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAXA_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MAXA.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MAXA_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MAXA.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MFC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string fs = FPR(copy(fs_value));
return img::format("MFC1 %s, %s", rt, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("MFC2 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFGC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MFGC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFHC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MFHC0 %s, %s, %s", rt, c0s, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFHC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string fs = FPR(copy(fs_value));
return img::format("MFHC1 %s, %s", rt, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFHC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("MFHC2 %s, %s", rt, cs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFHGC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MFHGC0 %s, %s, %s", rt, c0s, sel);
}
/*
* [DSP] MFHI rs, ac - Move from HI register
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxx 00000001111111
* rt -----
* ac --
*/
std::string NMD::MFHI_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
return img::format("MFHI %s, %s", rt, ac);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFHTR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
uint64 u_value = extract_u_10(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = IMMEDIATE(copy(c0s_value));
std::string u = IMMEDIATE(copy(u_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MFHTR %s, %s, %s, %s", rt, c0s, u, sel);
}
/*
* [DSP] MFLO rs, ac - Move from HI register
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 xxxxx 01000001111111
* rt -----
* ac --
*/
std::string NMD::MFLO_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string ac = AC(copy(ac_value));
return img::format("MFLO %s, %s", rt, ac);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MFTR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
uint64 u_value = extract_u_10(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = IMMEDIATE(copy(c0s_value));
std::string u = IMMEDIATE(copy(u_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MFTR %s, %s, %s, %s", rt, c0s, u, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MIN_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MIN.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MIN_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MIN.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MINA_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MINA.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MINA_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MINA.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MOD %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MODSUB rd, rs, rt - Modular subtraction on an index value
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MODSUB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MODSUB %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1010010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MODU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MODU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOV_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("MOV.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOV_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("MOV.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOVE_BALC(uint64 instruction)
{
uint64 rtz4_value = extract_rtz4_27_26_25_23_22_21(instruction);
uint64 rd1_value = extract_rdl_25_24(instruction);
int64 s_value = extract_s__se21_0_20_to_1_s1(instruction);
std::string rd1 = GPR(decode_gpr_gpr1(rd1_value));
std::string rtz4 = GPR(decode_gpr_gpr4_zero(rtz4_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 4);
return img::format("MOVE.BALC %s, %s, %s", rd1, rtz4, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOVEP(uint64 instruction)
{
uint64 rtz4_value = extract_rtz4_9_7_6_5(instruction);
uint64 rd2_value = extract_rd2_3_8(instruction);
uint64 rsz4_value = extract_rsz4_4_2_1_0(instruction);
std::string rd2 = GPR(decode_gpr_gpr2_reg1(rd2_value));
std::string re2 = GPR(decode_gpr_gpr2_reg2(rd2_value));
/* !!!!!!!!!! - no conversion function */
std::string rsz4 = GPR(decode_gpr_gpr4_zero(rsz4_value));
std::string rtz4 = GPR(decode_gpr_gpr4_zero(rtz4_value));
return img::format("MOVEP %s, %s, %s, %s", rd2, re2, rsz4, rtz4);
/* hand edited */
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOVEP_REV_(uint64 instruction)
{
uint64 rt4_value = extract_rt4_9_7_6_5(instruction);
uint64 rd2_value = extract_rd2_3_8(instruction);
uint64 rs4_value = extract_rs4_4_2_1_0(instruction);
std::string rs4 = GPR(decode_gpr_gpr4(rs4_value));
std::string rt4 = GPR(decode_gpr_gpr4(rt4_value));
std::string rd2 = GPR(decode_gpr_gpr2_reg1(rd2_value));
std::string rs2 = GPR(decode_gpr_gpr2_reg2(rd2_value));
/* !!!!!!!!!! - no conversion function */
return img::format("MOVEP %s, %s, %s, %s", rs4, rt4, rd2, rs2);
/* hand edited */
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOVE(uint64 instruction)
{
uint64 rt_value = extract_rt_9_8_7_6_5(instruction);
uint64 rs_value = extract_rs_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("MOVE %s, %s", rt, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOVN(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MOVN %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MOVZ(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MOVZ %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MSUB ac, rs, rt - Multiply word and subtract from accumulator
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10101010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::MSUB_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MSUB %s, %s, %s", ac, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MSUBF_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MSUBF.D %s, %s, %s", fd, fs, ft);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MSUBF_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MSUBF.S %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] MSUBU ac, rs, rt - Multiply word and add to accumulator
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11101010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::MSUBU_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MSUBU %s, %s, %s", ac, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MTC0 %s, %s, %s", rt, c0s, sel);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string fs = FPR(copy(fs_value));
return img::format("MTC1 %s, %s", rt, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("MTC2 %s, %s", rt, cs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTGC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MTGC0 %s, %s, %s", rt, c0s, sel);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTHC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MTHC0 %s, %s, %s", rt, c0s, sel);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTHC1(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string fs = FPR(copy(fs_value));
return img::format("MTHC1 %s, %s", rt, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTHC2(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 cs_value = extract_cs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string cs = CPR(copy(cs_value));
return img::format("MTHC2 %s, %s", rt, cs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTHGC0(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = CPR(copy(c0s_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MTHGC0 %s, %s, %s", rt, c0s, sel);
}
/*
* [DSP] MTHI rs, ac - Move to HI register
*
* 3 2 1
* 10987654321098765432109876543210
* 001000xxxxx 10000001111111
* rs -----
* ac --
*/
std::string NMD::MTHI_DSP_(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rs = GPR(copy(rs_value));
std::string ac = AC(copy(ac_value));
return img::format("MTHI %s, %s", rs, ac);
}
/*
* [DSP] MTHLIP rs, ac - Copy LO to HI and a GPR to LO and increment pos by 32
*
* 3 2 1
* 10987654321098765432109876543210
* 001000xxxxx 00001001111111
* rs -----
* ac --
*/
std::string NMD::MTHLIP(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rs = GPR(copy(rs_value));
std::string ac = AC(copy(ac_value));
return img::format("MTHLIP %s, %s", rs, ac);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTHTR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
uint64 u_value = extract_u_10(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = IMMEDIATE(copy(c0s_value));
std::string u = IMMEDIATE(copy(u_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MTHTR %s, %s, %s, %s", rt, c0s, u, sel);
}
/*
* [DSP] MTLO rs, ac - Move to LO register
*
* 3 2 1
* 10987654321098765432109876543210
* 001000xxxxx 11000001111111
* rs -----
* ac --
*/
std::string NMD::MTLO_DSP_(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rs = GPR(copy(rs_value));
std::string ac = AC(copy(ac_value));
return img::format("MTLO %s, %s", rs, ac);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MTTR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 c0s_value = extract_c0s_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_15_14_13_12_11(instruction);
uint64 u_value = extract_u_10(instruction);
std::string rt = GPR(copy(rt_value));
std::string c0s = IMMEDIATE(copy(c0s_value));
std::string u = IMMEDIATE(copy(u_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("MTTR %s, %s, %s, %s", rt, c0s, u, sel);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MUH %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUHU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MUHU %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUL_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MUL %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUL_4X4_(uint64 instruction)
{
uint64 rt4_value = extract_rt4_9_7_6_5(instruction);
uint64 rs4_value = extract_rs4_4_2_1_0(instruction);
std::string rs4 = GPR(decode_gpr_gpr4(rs4_value));
std::string rt4 = GPR(decode_gpr_gpr4(rt4_value));
return img::format("MUL %s, %s", rs4, rt4);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUL_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MUL.D %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] MUL.PH rd, rs, rt - Multiply vector integer half words to same size
* products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00000101101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUL_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MUL.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MUL_S.PH rd, rs, rt - Multiply vector integer half words to same size
* products (saturated)
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10000101101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUL_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MUL_S.PH %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MUL_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("MUL.S %s, %s, %s", fd, fs, ft);
}
/*
* [DSP] MULEQ_S.W.PHL rd, rs, rt - Multiply vector fractional left halfwords
* to expanded width products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0000100101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULEQ_S_W_PHL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULEQ_S.W.PHL %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULEQ_S.W.PHR rd, rs, rt - Multiply vector fractional right halfwords
* to expanded width products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0001100101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULEQ_S_W_PHR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULEQ_S.W.PHR %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULEU_S.PH.QBL rd, rs, rt - Multiply vector fractional left bytes
* by halfwords to halfword products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0010010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULEU_S_PH_QBL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULEU_S.PH.QBL %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULEU_S.PH.QBR rd, rs, rt - Multiply vector fractional right bytes
* by halfwords to halfword products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0011010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULEU_S_PH_QBR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULEU_S.PH.QBR %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULQ_RS.PH rd, rs, rt - Multiply vector fractional halfwords
* to fractional halfword products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0100010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULQ_RS_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULQ_RS.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULQ_RS.W rd, rs, rt - Multiply fractional words to same size
* product with saturation and rounding
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0110010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULQ_RS_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULQ_RS.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULQ_S.PH rd, rs, rt - Multiply fractional halfwords to same size
* products
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0101010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULQ_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULQ_S.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULQ_S.W rd, rs, rt - Multiply fractional words to same size product
* with saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0111010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULQ_S_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULQ_S.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] MULSA.W.PH ac, rs, rt - Multiply and subtract vector integer halfword
* elements and accumulate
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 10110010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::MULSA_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULSA.W.PH %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MULSAQ_S.W.PH ac, rs, rt - Multiply and subtract vector fractional
* halfwords and accumulate
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11110010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::MULSAQ_S_W_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULSAQ_S.W.PH %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MULT ac, rs, rt - Multiply word
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00110010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::MULT_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULT %s, %s, %s", ac, rs, rt);
}
/*
* [DSP] MULTU ac, rs, rt - Multiply unsigned word
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01110010111111
* rt -----
* rs -----
* ac --
*/
std::string NMD::MULTU_DSP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string ac = AC(copy(ac_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULTU %s, %s, %s", ac, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::MULU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("MULU %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::NEG_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("NEG.D %s, %s", ft, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::NEG_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("NEG.S %s, %s", ft, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::NOP_16_(uint64 instruction)
{
(void)instruction;
return "NOP ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::NOP_32_(uint64 instruction)
{
(void)instruction;
return "NOP ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::NOR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("NOR %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::NOT_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("NOT %s, %s", rt3, rs3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::OR_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
return img::format("OR %s, %s", rs3, rt3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::OR_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("OR %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ORI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("ORI %s, %s, %s", rt, rs, u);
}
/*
* [DSP] PACKRL.PH rd, rs, rt - Pack a word using the right halfword from one
* source register and left halfword from another source register
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PACKRL_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PACKRL.PH %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PAUSE(uint64 instruction)
{
(void)instruction;
return "PAUSE ";
}
/*
* [DSP] PICK.PH rd, rs, rt - Pick a vector of halfwords based on condition
* code bits
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PICK_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PICK.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] PICK.QB rd, rs, rt - Pick a vector of byte values based on condition
* code bits
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PICK_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PICK.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] PRECEQ.W.PHL rt, rs - Expand the precision of the left-most element
* of a paired halfword
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEQ_W_PHL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEQ.W.PHL %s, %s", rt, rs);
}
/*
* [DSP] PRECEQ.W.PHR rt, rs - Expand the precision of the right-most element
* of a paired halfword
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEQ_W_PHR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEQ.W.PHR %s, %s", rt, rs);
}
/*
* [DSP] PRECEQU.PH.QBLA rt, rs - Expand the precision of the two
* left-alternate elements of a quad byte vector
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEQU_PH_QBLA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEQU.PH.QBLA %s, %s", rt, rs);
}
/*
* [DSP] PRECEQU.PH.QBL rt, rs - Expand the precision of the two left-most
* elements of a quad byte vector
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEQU_PH_QBL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEQU.PH.QBL %s, %s", rt, rs);
}
/*
* [DSP] PRECEQU.PH.QBRA rt, rs - Expand the precision of the two
* right-alternate elements of a quad byte vector
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEQU_PH_QBRA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEQU.PH.QBRA %s, %s", rt, rs);
}
/*
* [DSP] PRECEQU.PH.QBR rt, rs - Expand the precision of the two right-most
* elements of a quad byte vector
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEQU_PH_QBR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEQU.PH.QBR %s, %s", rt, rs);
}
/*
* [DSP] PRECEU.PH.QBLA rt, rs - Expand the precision of the two
* left-alternate elements of a quad byte vector to four unsigned
* halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEU_PH_QBLA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEU.PH.QBLA %s, %s", rt, rs);
}
/*
* [DSP] PRECEU.PH.QBL rt, rs - Expand the precision of the two left-most
* elements of a quad byte vector to form unsigned halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEU_PH_QBL(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEU.PH.QBL %s, %s", rt, rs);
}
/*
* [DSP] PRECEU.PH.QBRA rt, rs - Expand the precision of the two
* right-alternate elements of a quad byte vector to form four
* unsigned halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEU_PH_QBRA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEU.PH.QBRA %s, %s", rt, rs);
}
/*
* [DSP] PRECEU.PH.QBR rt, rs - Expand the precision of the two right-most
* elements of a quad byte vector to form unsigned halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECEU_PH_QBR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("PRECEU.PH.QBR %s, %s", rt, rs);
}
/*
* [DSP] PRECR.QB.PH rd, rs, rt - Reduce the precision of four integer
* halfwords to four bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0001101101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECR_QB_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PRECR.QB.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] PRECR_SRA.PH.W rt, rs, sa - Reduce the precision of two integer
* words to halfwords after a right shift
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECR_SRA_PH_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("PRECR_SRA.PH.W %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] PRECR_SRA_R.PH.W rt, rs, sa - Reduce the precision of two integer
* words to halfwords after a right shift with rounding
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECR_SRA_R_PH_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("PRECR_SRA_R.PH.W %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] PRECRQ.PH.W rd, rs, rt - Reduce the precision of fractional
* words to fractional halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECRQ_PH_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PRECRQ.PH.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] PRECRQ.QB.PH rd, rs, rt - Reduce the precision of four fractional
* halfwords to four bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0010101101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECRQ_QB_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PRECRQ.QB.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] PRECRQ_RS.PH.W rd, rs, rt - Reduce the precision of fractional
* words to halfwords with rounding and saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECRQ_RS_PH_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PRECRQ_RS.PH.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] PRECRQU_S.QB.PH rd, rs, rt - Reduce the precision of fractional
* halfwords to unsigned bytes with saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PRECRQU_S_QB_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("PRECRQU_S.QB.PH %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PREF_S9_(uint64 instruction)
{
uint64 hint_value = extract_hint_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string hint = IMMEDIATE(copy(hint_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("PREF %s, %s(%s)", hint, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PREF_U12_(uint64 instruction)
{
uint64 hint_value = extract_hint_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string hint = IMMEDIATE(copy(hint_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("PREF %s, %s(%s)", hint, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PREFE(uint64 instruction)
{
uint64 hint_value = extract_hint_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string hint = IMMEDIATE(copy(hint_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("PREFE %s, %s(%s)", hint, s, rs);
}
/*
* [DSP] PREPEND rt, rs, sa - Right shift and prepend bits to the MSB
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::PREPEND(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("PREPEND %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] RADDU.W.QB rt, rs - Unsigned reduction add of vector quad bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 1111000100111111
* rt -----
* rs -----
*/
std::string NMD::RADDU_W_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("RADDU.W.QB %s, %s", rt, rs);
}
/*
* [DSP] RDDSP rt, mask - Read DSPControl register fields to a GPR
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00011001111111
* rt -----
* mask -------
*/
std::string NMD::RDDSP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 mask_value = extract_mask_20_19_18_17_16_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string mask = IMMEDIATE(copy(mask_value));
return img::format("RDDSP %s, %s", rt, mask);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RDHWR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 hs_value = extract_hs_20_19_18_17_16(instruction);
uint64 sel_value = extract_sel_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string hs = CPR(copy(hs_value));
std::string sel = IMMEDIATE(copy(sel_value));
return img::format("RDHWR %s, %s, %s", rt, hs, sel);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RDPGPR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("RDPGPR %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RECIP_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("RECIP.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RECIP_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("RECIP.S %s, %s", ft, fs);
}
/*
* [DSP] REPL.PH rd, s - Replicate immediate integer into all vector element
* positions
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x0000111101
* rt -----
* s ----------
*/
std::string NMD::REPL_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
int64 s_value = extract_s__se9_20_19_18_17_16_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
return img::format("REPL.PH %s, %s", rt, s);
}
/*
* [DSP] REPL.QB rd, u - Replicate immediate integer into all vector element
* positions
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x010111111111
* rt -----
* u --------
*/
std::string NMD::REPL_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_20_19_18_17_16_15_14_13(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("REPL.QB %s, %s", rt, u);
}
/*
* [DSP] REPLV.PH rt, rs - Replicate a halfword into all vector element
* positions
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0000001100111111
* rt -----
* rs -----
*/
std::string NMD::REPLV_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("REPLV.PH %s, %s", rt, rs);
}
/*
* [DSP] REPLV.QB rt, rs - Replicate byte into all vector element positions
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0001001100111111
* rt -----
* rs -----
*/
std::string NMD::REPLV_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("REPLV.QB %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RESTORE_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 count_value = extract_count_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3__s3(instruction);
uint64 gp_value = extract_gp_2(instruction);
std::string u = IMMEDIATE(copy(u_value));
return img::format("RESTORE %s%s", u,
save_restore_list(rt_value, count_value, gp_value));
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RESTORE_JRC_16_(uint64 instruction)
{
uint64 rt1_value = extract_rtl_11(instruction);
uint64 u_value = extract_u_7_6_5_4__s4(instruction);
uint64 count_value = extract_count_3_2_1_0(instruction);
std::string u = IMMEDIATE(copy(u_value));
return img::format("RESTORE.JRC %s%s", u,
save_restore_list(encode_rt1_from_rt(rt1_value), count_value, 0));
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RESTORE_JRC_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 count_value = extract_count_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3__s3(instruction);
uint64 gp_value = extract_gp_2(instruction);
std::string u = IMMEDIATE(copy(u_value));
return img::format("RESTORE.JRC %s%s", u,
save_restore_list(rt_value, count_value, gp_value));
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RESTOREF(uint64 instruction)
{
uint64 count_value = extract_count_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3__s3(instruction);
std::string u = IMMEDIATE(copy(u_value));
std::string count = IMMEDIATE(copy(count_value));
return img::format("RESTOREF %s, %s", u, count);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RINT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("RINT.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RINT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("RINT.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROTR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("ROTR %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROTRV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("ROTRV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROTX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shiftx_value = extract_shiftx_10_9_8_7__s1(instruction);
uint64 stripe_value = extract_stripe_6(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
std::string shiftx = IMMEDIATE(copy(shiftx_value));
std::string stripe = IMMEDIATE(copy(stripe_value));
return img::format("ROTX %s, %s, %s, %s, %s",
rt, rs, shift, shiftx, stripe);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROUND_L_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("ROUND.L.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROUND_L_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("ROUND.L.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROUND_W_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("ROUND.W.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::ROUND_W_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("ROUND.W.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RSQRT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("RSQRT.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110000101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::RSQRT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("RSQRT.S %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SAVE_16_(uint64 instruction)
{
uint64 rt1_value = extract_rtl_11(instruction);
uint64 u_value = extract_u_7_6_5_4__s4(instruction);
uint64 count_value = extract_count_3_2_1_0(instruction);
std::string u = IMMEDIATE(copy(u_value));
return img::format("SAVE %s%s", u,
save_restore_list(encode_rt1_from_rt(rt1_value), count_value, 0));
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SAVE_32_(uint64 instruction)
{
uint64 count_value = extract_count_19_18_17_16(instruction);
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3__s3(instruction);
uint64 gp_value = extract_gp_2(instruction);
std::string u = IMMEDIATE(copy(u_value));
return img::format("SAVE %s%s", u,
save_restore_list(rt_value, count_value, gp_value));
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SAVEF(uint64 instruction)
{
uint64 count_value = extract_count_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3__s3(instruction);
std::string u = IMMEDIATE(copy(u_value));
std::string count = IMMEDIATE(copy(count_value));
return img::format("SAVEF %s, %s", u, count);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SB_16_(uint64 instruction)
{
uint64 rtz3_value = extract_rtz3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_1_0(instruction);
std::string rtz3 = GPR(decode_gpr_gpr3_src_store(rtz3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("SB %s, %s(%s)", rtz3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SB_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SB %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SB_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SB %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SB_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("SB %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SBE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SBE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SBX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SBX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SC(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SC %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SCD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_s3(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SCD %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SCDP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ru_value = extract_ru_7_6_5_4_3(instruction);
std::string rt = GPR(copy(rt_value));
std::string ru = GPR(copy(ru_value));
std::string rs = GPR(copy(rs_value));
return img::format("SCDP %s, %s, (%s)", rt, ru, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SCE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SCE %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SCWP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ru_value = extract_ru_7_6_5_4_3(instruction);
std::string rt = GPR(copy(rt_value));
std::string ru = GPR(copy(ru_value));
std::string rs = GPR(copy(rs_value));
return img::format("SCWP %s, %s, (%s)", rt, ru, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SCWPE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ru_value = extract_ru_7_6_5_4_3(instruction);
std::string rt = GPR(copy(rt_value));
std::string ru = GPR(copy(ru_value));
std::string rs = GPR(copy(rs_value));
return img::format("SCWPE %s, %s, (%s)", rt, ru, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SD_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_20_to_3__s3(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SD %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SD_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SD %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SD_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("SD %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDBBP_16_(uint64 instruction)
{
uint64 code_value = extract_code_2_1_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("SDBBP %s", code);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDBBP_32_(uint64 instruction)
{
uint64 code_value = extract_code_18_to_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("SDBBP %s", code);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDC1_GP_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_2__s2(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SDC1 %s, %s($%d)", ft, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDC1_S9_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SDC1 %s, %s(%s)", ft, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDC1_U12_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("SDC1 %s, %s(%s)", ft, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDC1X(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SDC1X %s, %s(%s)", ft, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDC1XS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SDC1XS %s, %s(%s)", ft, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDC2(uint64 instruction)
{
uint64 cs_value = extract_cs_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string cs = CPR(copy(cs_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SDC2 %s, %s(%s)", cs, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("SDM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDPC_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 6);
return img::format("SDPC %s, %s", rt, s);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SDXS %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SDX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SDX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SEB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SEB %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SEH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SEH %s, %s", rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SEL_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SEL.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SEL_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SEL.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SELEQZ_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SELEQZ.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SELEQZ_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SELEQZ.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SELNEZ_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SELNEZ.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SELNEZ_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SELNEZ.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SEQI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SEQI %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SH_16_(uint64 instruction)
{
uint64 rtz3_value = extract_rtz3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_2_1__s1(instruction);
std::string rtz3 = GPR(decode_gpr_gpr3_src_store(rtz3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("SH %s, %s(%s)", rtz3, u, rs3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SH_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_1__s1(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SH %s, %s($%d)", rt, u, 28);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SH_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SH %s, %s(%s)", rt, s, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SH_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("SH %s, %s(%s)", rt, u, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHE %s, %s(%s)", rt, s, rs);
}
/*
* [DSP] SHILO ac, shift - Shift an accumulator value leaving the result in
* the same accumulator
*
* 3 2 1
* 10987654321098765432109876543210
* 001000xxxx xxxx0000011101
* shift ------
* ac --
*/
std::string NMD::SHILO(uint64 instruction)
{
int64 shift_value = extract_shift__se5_21_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string shift = IMMEDIATE(copy(shift_value));
std::string ac = AC(copy(ac_value));
return img::format("SHILO %s, %s", ac, shift);
}
/*
* [DSP] SHILOV ac, rs - Variable shift of accumulator value leaving the result
* in the same accumulator
*
* 3 2 1
* 10987654321098765432109876543210
* 001000xxxxx 01001001111111
* rs -----
* ac --
*/
std::string NMD::SHILOV(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ac_value = extract_ac_15_14(instruction);
std::string rs = GPR(copy(rs_value));
std::string ac = AC(copy(ac_value));
return img::format("SHILOV %s, %s", ac, rs);
}
/*
* [DSP] SHLL.PH rt, rs, sa - Shift left logical vector pair halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 001110110101
* rt -----
* rs -----
* sa ----
*/
std::string NMD::SHLL_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHLL.PH %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] SHLL.QB rt, rs, sa - Shift left logical vector quad bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 0100001111111
* rt -----
* rs -----
* sa ---
*/
std::string NMD::SHLL_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHLL.QB %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] SHLL_S.PH rt, rs, sa - Shift left logical vector pair halfwords
* with saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 001110110101
* rt -----
* rs -----
* sa ----
*/
std::string NMD::SHLL_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHLL_S.PH %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] SHLL_S.PH rt, rs, sa - Shift left logical word with saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1111110101
* rt -----
* rs -----
* sa -----
*/
std::string NMD::SHLL_S_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHLL_S.W %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] SHLLV.PH rd, rt, rs - Shift left logical variable vector pair
* halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01110001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHLLV_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHLLV.PH %s, %s, %s", rd, rt, rs);
}
/*
* [DSP] SHLLV_S.QB rd, rt, rs - Shift left logical variable vector quad bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1110010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHLLV_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHLLV.QB %s, %s, %s", rd, rt, rs);
}
/*
* [DSP] SHLLV.PH rd, rt, rs - Shift left logical variable vector pair
* halfwords with saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11110001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHLLV_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHLLV_S.PH %s, %s, %s", rd, rt, rs);
}
/*
* [DSP] SHLLV_S.W rd, rt, rs - Shift left logical variable vector word
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1111010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHLLV_S_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHLLV_S.W %s, %s, %s", rd, rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRA_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRA.PH %s, %s, %s", rt, rs, sa);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRA_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRA.QB %s, %s, %s", rt, rs, sa);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRA_R_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRA_R.PH %s, %s, %s", rt, rs, sa);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRA_R_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRA_R.QB %s, %s, %s", rt, rs, sa);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRA_R_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12_11(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRA_R.W %s, %s, %s", rt, rs, sa);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRAV_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRAV.PH %s, %s, %s", rd, rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRAV_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRAV.QB %s, %s, %s", rd, rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRAV_R_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRAV_R.PH %s, %s, %s", rd, rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRAV_R_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRAV_R.QB %s, %s, %s", rd, rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRAV_R_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRAV_R.W %s, %s, %s", rd, rt, rs);
}
/*
* [DSP] SHRL.PH rt, rs, sa - Shift right logical two halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 001111111111
* rt -----
* rs -----
* sa ----
*/
std::string NMD::SHRL_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRL.PH %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] SHRL.QB rt, rs, sa - Shift right logical vector quad bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 1100001111111
* rt -----
* rs -----
* sa ---
*/
std::string NMD::SHRL_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 sa_value = extract_sa_15_14_13(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string sa = IMMEDIATE(copy(sa_value));
return img::format("SHRL.QB %s, %s, %s", rt, rs, sa);
}
/*
* [DSP] SHLLV.PH rd, rt, rs - Shift right logical variable vector pair of
* halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1100010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRLV_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRLV.PH %s, %s, %s", rd, rt, rs);
}
/*
* [DSP] SHLLV.QB rd, rt, rs - Shift right logical variable vector quad bytes
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 x1101010101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHRLV_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("SHRLV.QB %s, %s, %s", rd, rt, rs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SHX %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SHXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SHXS %s, %s(%s)", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SIGRIE(uint64 instruction)
{
uint64 code_value = extract_code_18_to_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("SIGRIE %s", code);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLL_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 shift3_value = extract_shift3_2_1_0(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string shift3 = IMMEDIATE(encode_shift3_from_shift(shift3_value));
return img::format("SLL %s, %s, %s", rt3, rs3, shift3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLL_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("SLL %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLLV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SLLV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLT(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SLT %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLTI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SLTI %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLTIU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SLTIU %s, %s, %s", rt, rs, u);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SLTU(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SLTU %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SOV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SOV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SPECIAL2(uint64 instruction)
{
uint64 op_value = extract_op_25_to_3(instruction);
std::string op = IMMEDIATE(copy(op_value));
return img::format("SPECIAL2 %s", op);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SQRT_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("SQRT.D %s, %s", ft, fs);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SQRT_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("SQRT.S %s, %s", ft, fs);
}
/*
* SRA rd, rt, sa - Shift Word Right Arithmetic
*
* 3 2 1
* 10987654321098765432109876543210
* 00000000000 000011
* rt -----
* rd -----
* sa -----
*/
std::string NMD::SRA(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("SRA %s, %s, %s", rt, rs, shift);
}
/*
* SRAV rd, rt, rs - Shift Word Right Arithmetic Variable
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00000000111
* rs -----
* rt -----
* rd -----
*/
std::string NMD::SRAV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SRAV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00000000111
* rs -----
* rt -----
* rd -----
*/
std::string NMD::SRL_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 shift3_value = extract_shift3_2_1_0(instruction);
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string shift3 = IMMEDIATE(encode_shift3_from_shift(shift3_value));
return img::format("SRL %s, %s, %s", rt3, rs3, shift3);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SRL_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 shift_value = extract_shift_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string shift = IMMEDIATE(copy(shift_value));
return img::format("SRL %s, %s, %s", rt, rs, shift);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SRLV(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SRLV %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUB %s, %s, %s", rd, rs, rt);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUB_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SUB.D %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUB_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
uint64 fd_value = extract_fd_15_14_13_12_11(instruction);
std::string fd = FPR(copy(fd_value));
std::string fs = FPR(copy(fs_value));
std::string ft = FPR(copy(ft_value));
return img::format("SUB.S %s, %s, %s", fd, fs, ft);
}
/*
*
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQ_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQ.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBQ.S.PH rd, rt, rs - Subtract fractional halfword vectors and shift
* right to halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQ_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQ_S.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBQ.S.W rd, rt, rs - Subtract fractional halfword vectors and shift
* right to halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQ_S_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQ_S.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBQH.PH rd, rt, rs - Subtract fractional halfword vectors and shift
* right to halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQH_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQH.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBQH_R.PH rd, rt, rs - Subtract fractional halfword vectors and shift
* right to halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQH_R_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQH_R.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBQH_R.W rd, rt, rs - Subtract fractional halfword vectors and shift
* right to halve results with rounding
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11001001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQH_R_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQH_R.W %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBQH.W rd, rs, rt - Subtract fractional words and shift right to
* halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBQH_W(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBQH.W %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBU_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 rd3_value = extract_rd3_3_2_1(instruction);
std::string rd3 = GPR(decode_gpr_gpr3(rd3_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
return img::format("SUBU %s, %s, %s", rd3, rs3, rt3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBU_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBU %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBU.PH rd, rs, rt - Subtract unsigned unsigned halfwords
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01100001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBU_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBU.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBU.QB rd, rs, rt - Subtract unsigned quad byte vectors
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01011001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBU_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBU.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBU_S.PH rd, rs, rt - Subtract unsigned unsigned halfwords with
* 8-bit saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11100001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBU_S_PH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBU_S.PH %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBU_S.QB rd, rs, rt - Subtract unsigned quad byte vectors with
* 8-bit saturation
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11011001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBU_S_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBU_S.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBUH.QB rd, rs, rt - Subtract unsigned bytes and right shift
* to halve results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01101001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBUH_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBUH.QB %s, %s, %s", rd, rs, rt);
}
/*
* [DSP] SUBUH_R.QB rd, rs, rt - Subtract unsigned bytes and right shift
* to halve results with rounding
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 11101001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SUBUH_R_QB(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SUBUH_R.QB %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_16_(uint64 instruction)
{
uint64 rtz3_value = extract_rtz3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
uint64 u_value = extract_u_3_2_1_0__s2(instruction);
std::string rtz3 = GPR(decode_gpr_gpr3_src_store(rtz3_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
return img::format("SW %s, %s(%s)", rtz3, u, rs3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_4X4_(uint64 instruction)
{
uint64 rtz4_value = extract_rtz4_9_7_6_5(instruction);
uint64 rs4_value = extract_rs4_4_2_1_0(instruction);
uint64 u_value = extract_u_3_8__s2(instruction);
std::string rtz4 = GPR(decode_gpr_gpr4_zero(rtz4_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs4 = GPR(decode_gpr_gpr4(rs4_value));
return img::format("SW %s, %s(%s)", rtz4, u, rs4);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_GP16_(uint64 instruction)
{
uint64 u_value = extract_u_6_5_4_3_2_1_0__s2(instruction);
uint64 rtz3_value = extract_rtz3_9_8_7(instruction);
std::string rtz3 = GPR(decode_gpr_gpr3_src_store(rtz3_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SW %s, %s($%d)", rtz3, u, 28);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_GP_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 u_value = extract_u_20_to_2__s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SW %s, %s($%d)", rt, u, 28);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_S9_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SW %s, %s(%s)", rt, s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_SP_(uint64 instruction)
{
uint64 rt_value = extract_rt_9_8_7_6_5(instruction);
uint64 u_value = extract_u_4_3_2_1_0__s2(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SW %s, %s($%d)", rt, u, 29);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SW_U12_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("SW %s, %s(%s)", rt, u, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWC1_GP_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 u_value = extract_u_17_to_2__s2(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("SWC1 %s, %s($%d)", ft, u, 28);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWC1_S9_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SWC1 %s, %s(%s)", ft, s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWC1_U12_(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string ft = FPR(copy(ft_value));
std::string u = IMMEDIATE(copy(u_value));
std::string rs = GPR(copy(rs_value));
return img::format("SWC1 %s, %s(%s)", ft, u, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWC1X(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SWC1X %s, %s(%s)", ft, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWC1XS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 ft_value = extract_ft_15_14_13_12_11(instruction);
std::string ft = FPR(copy(ft_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SWC1XS %s, %s(%s)", ft, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWC2(uint64 instruction)
{
uint64 cs_value = extract_cs_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string cs = CPR(copy(cs_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SWC2 %s, %s(%s)", cs, s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SWE %s, %s(%s)", rt, s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("SWM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWPC_48_(uint64 instruction)
{
uint64 rt_value = extract_rt_41_40_39_38_37(instruction);
int64 s_value = extract_s__se31_15_to_0_31_to_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = ADDRESS(encode_s_from_address(s_value), 6);
return img::format("SWPC %s, %s", rt, s);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWX(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SWX %s, %s(%s)", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SWXS(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("SWXS %s, %s(%s)", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SYNC(uint64 instruction)
{
uint64 stype_value = extract_stype_20_19_18_17_16(instruction);
std::string stype = IMMEDIATE(copy(stype_value));
return img::format("SYNC %s", stype);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SYNCI(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SYNCI %s(%s)", s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SYNCIE(uint64 instruction)
{
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("SYNCIE %s(%s)", s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::SYSCALL_16_(uint64 instruction)
{
uint64 code_value = extract_code_1_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("SYSCALL %s", code);
}
/*
* SYSCALL code - System Call. Cause a System Call Exception
*
* 3 2 1
* 10987654321098765432109876543210
* 00000000000010
* code ------------------
*/
std::string NMD::SYSCALL_32_(uint64 instruction)
{
uint64 code_value = extract_code_17_to_0(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("SYSCALL %s", code);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TEQ(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("TEQ %s, %s", rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBGINV(uint64 instruction)
{
(void)instruction;
return "TLBGINV ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBGINVF(uint64 instruction)
{
(void)instruction;
return "TLBGINVF ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBGP(uint64 instruction)
{
(void)instruction;
return "TLBGP ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBGR(uint64 instruction)
{
(void)instruction;
return "TLBGR ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBGWI(uint64 instruction)
{
(void)instruction;
return "TLBGWI ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBGWR(uint64 instruction)
{
(void)instruction;
return "TLBGWR ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBINV(uint64 instruction)
{
(void)instruction;
return "TLBINV ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBINVF(uint64 instruction)
{
(void)instruction;
return "TLBINVF ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBP(uint64 instruction)
{
(void)instruction;
return "TLBP ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBR(uint64 instruction)
{
(void)instruction;
return "TLBR ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBWI(uint64 instruction)
{
(void)instruction;
return "TLBWI ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TLBWR(uint64 instruction)
{
(void)instruction;
return "TLBWR ";
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TNE(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("TNE %s, %s", rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TRUNC_L_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("TRUNC.L.D %s, %s", ft, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TRUNC_L_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("TRUNC.L.S %s, %s", ft, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TRUNC_W_D(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("TRUNC.W.D %s, %s", ft, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::TRUNC_W_S(uint64 instruction)
{
uint64 ft_value = extract_ft_25_24_23_22_21(instruction);
uint64 fs_value = extract_fs_20_19_18_17_16(instruction);
std::string ft = FPR(copy(ft_value));
std::string fs = FPR(copy(fs_value));
return img::format("TRUNC.W.S %s, %s", ft, fs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UALDM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("UALDM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UALH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("UALH %s, %s(%s)", rt, s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UALWM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("UALWM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UASDM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("UASDM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UASH(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
return img::format("UASH %s, %s(%s)", rt, s, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UASWM(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
int64 s_value = extract_s__se8_15_7_6_5_4_3_2_1_0(instruction);
uint64 count3_value = extract_count3_14_13_12(instruction);
std::string rt = GPR(copy(rt_value));
std::string s = IMMEDIATE(copy(s_value));
std::string rs = GPR(copy(rs_value));
std::string count3 = IMMEDIATE(encode_count3_from_count(count3_value));
return img::format("UASWM %s, %s(%s), %s", rt, s, rs, count3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::UDI(uint64 instruction)
{
uint64 op_value = extract_op_25_to_3(instruction);
std::string op = IMMEDIATE(copy(op_value));
return img::format("UDI %s", op);
}
/*
* WAIT code - Enter Wait State
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 1100001101111111
* code ----------
*/
std::string NMD::WAIT(uint64 instruction)
{
uint64 code_value = extract_code_25_24_23_22_21_20_19_18_17_16(instruction);
std::string code = IMMEDIATE(copy(code_value));
return img::format("WAIT %s", code);
}
/*
* [DSP] WRDSP rt, mask - Write selected fields from a GPR to the DSPControl
* register
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 01011001111111
* rt -----
* mask -------
*/
std::string NMD::WRDSP(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 mask_value = extract_mask_20_19_18_17_16_15_14(instruction);
std::string rt = GPR(copy(rt_value));
std::string mask = IMMEDIATE(copy(mask_value));
return img::format("WRDSP %s, %s", rt, mask);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::WRPGPR(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("WRPGPR %s, %s", rt, rs);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::XOR_16_(uint64 instruction)
{
uint64 rt3_value = extract_rt3_9_8_7(instruction);
uint64 rs3_value = extract_rs3_6_5_4(instruction);
std::string rs3 = GPR(decode_gpr_gpr3(rs3_value));
std::string rt3 = GPR(decode_gpr_gpr3(rt3_value));
return img::format("XOR %s, %s", rs3, rt3);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::XOR_32_(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 rd_value = extract_rd_15_14_13_12_11(instruction);
std::string rd = GPR(copy(rd_value));
std::string rs = GPR(copy(rs_value));
std::string rt = GPR(copy(rt_value));
return img::format("XOR %s, %s, %s", rd, rs, rt);
}
/*
* ADDQH_R.W rd, rt, rs - Add Fractional Words And Shift Right to Halve Results
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
* rd -----
*/
std::string NMD::XORI(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
uint64 u_value = extract_u_11_10_9_8_7_6_5_4_3_2_1_0(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
std::string u = IMMEDIATE(copy(u_value));
return img::format("XORI %s, %s, %s", rt, rs, u);
}
/*
* YIELD rt, rs -
*
* 3 2 1
* 10987654321098765432109876543210
* 001000 00010001101
* rt -----
* rs -----
*/
std::string NMD::YIELD(uint64 instruction)
{
uint64 rt_value = extract_rt_25_24_23_22_21(instruction);
uint64 rs_value = extract_rs_20_19_18_17_16(instruction);
std::string rt = GPR(copy(rt_value));
std::string rs = GPR(copy(rs_value));
return img::format("YIELD %s, %s", rt, rs);
}
/*
* nanoMIPS instruction pool organization
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
*
* ┌─ P.ADDIU ─── P.RI ─── P.SYSCALL
* │
* │ ┌─ P.TRAP
* │ │
* │ ┌─ _POOL32A0_0 ─┼─ P.CMOVE
* │ │ │
* │ │ └─ P.SLTU
* │ ┌─ _POOL32A0 ─┤
* │ │ │
* │ │ │
* │ │ └─ _POOL32A0_1 ─── CRC32
* │ │
* ├─ P32A ─┤
* │ │ ┌─ PP.LSX
* │ │ ┌─ P.LSX ─────┤
* │ │ │ └─ PP.LSXS
* │ └─ _POOL32A7 ─┤
* │ │ ┌─ POOL32Axf_4
* │ └─ POOL32Axf ─┤
* │ └─ POOL32Axf_5
* │
* ├─ PBAL
* │
* ├─ P.GP.W ┌─ PP.LSX
* ┌─ P32 ─┤ │
* │ ├─ P.GP.BH ─┴─ PP.LSXS
* │ │
* │ ├─ P.J ─────── PP.BALRSC
* │ │
* │ ├─ P48I
* │ │ ┌─ P.SR
* │ │ │
* │ │ ├─ P.SHIFT
* │ │ │
* │ ├─ P.U12 ───┼─ P.ROTX
* │ │ │
* │ │ ├─ P.INS
* │ │ │
* │ │ └─ P.EXT
* │ │
* │ ├─ P.LS.U12 ── P.PREF.U12
* │ │
* │ ├─ P.BR1 ───── P.BR3A
* │ │
* │ │ ┌─ P.LS.S0 ─── P16.SYSCALL
* │ │ │
* │ │ │ ┌─ P.LL
* │ │ ├─ P.LS.S1 ─┤
* │ │ │ └─ P.SC
* │ │ │
* │ │ │ ┌─ P.PREFE
* MAJOR ─┤ ├─ P.LS.S9 ─┤ │
* │ │ ├─ P.LS.E0 ─┼─ P.LLE
* │ │ │ │
* │ │ │ └─ P.SCE
* │ │ │
* │ │ ├─ P.LS.WM
* │ │ │
* │ │ └─ P.LS.UAWM
* │ │
* │ │
* │ ├─ P.BR2
* │ │
* │ ├─ P.BRI
* │ │
* │ └─ P.LUI
* │
* │
* │ ┌─ P16.MV ──── P16.RI ─── P16.SYSCALL
* │ │
* │ ├─ P16.SR
* │ │
* │ ├─ P16.SHIFT
* │ │
* │ ├─ P16.4x4
* │ │
* │ ├─ P16C ────── POOL16C_0 ── POOL16C_00
* │ │
* └─ P16 ─┼─ P16.LB
* │
* ├─ P16.A1
* │
* ├─ P16.LH
* │
* ├─ P16.A2 ──── P.ADDIU[RS5]
* │
* ├─ P16.ADDU
* │
* └─ P16.BR ──┬─ P16.JRC
* │
* └─ P16.BR1
*
*
* (FP, DPS, and some minor instruction pools are omitted from the diagram)
*
*/
NMD::Pool NMD::P_SYSCALL[2] = {
{ instruction , 0 , 0 , 32,
0xfffc0000, 0x00080000, &NMD::SYSCALL_32_ , 0,
0x0 }, /* SYSCALL[32] */
{ instruction , 0 , 0 , 32,
0xfffc0000, 0x000c0000, &NMD::HYPCALL , 0,
CP0_ | VZ_ }, /* HYPCALL */
};
NMD::Pool NMD::P_RI[4] = {
{ instruction , 0 , 0 , 32,
0xfff80000, 0x00000000, &NMD::SIGRIE , 0,
0x0 }, /* SIGRIE */
{ pool , P_SYSCALL , 2 , 32,
0xfff80000, 0x00080000, 0 , 0,
0x0 }, /* P.SYSCALL */
{ instruction , 0 , 0 , 32,
0xfff80000, 0x00100000, &NMD::BREAK_32_ , 0,
0x0 }, /* BREAK[32] */
{ instruction , 0 , 0 , 32,
0xfff80000, 0x00180000, &NMD::SDBBP_32_ , 0,
EJTAG_ }, /* SDBBP[32] */
};
NMD::Pool NMD::P_ADDIU[2] = {
{ pool , P_RI , 4 , 32,
0xffe00000, 0x00000000, 0 , 0,
0x0 }, /* P.RI */
{ instruction , 0 , 0 , 32,
0xfc000000, 0x00000000, &NMD::ADDIU_32_ , &NMD::ADDIU_32__cond ,
0x0 }, /* ADDIU[32] */
};
NMD::Pool NMD::P_TRAP[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000000, &NMD::TEQ , 0,
XMMS_ }, /* TEQ */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000400, &NMD::TNE , 0,
XMMS_ }, /* TNE */
};
NMD::Pool NMD::P_CMOVE[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000210, &NMD::MOVZ , 0,
0x0 }, /* MOVZ */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000610, &NMD::MOVN , 0,
0x0 }, /* MOVN */
};
NMD::Pool NMD::P_D_MT_VPE[2] = {
{ instruction , 0 , 0 , 32,
0xfc1f3fff, 0x20010ab0, &NMD::DMT , 0,
MT_ }, /* DMT */
{ instruction , 0 , 0 , 32,
0xfc1f3fff, 0x20000ab0, &NMD::DVPE , 0,
MT_ }, /* DVPE */
};
NMD::Pool NMD::P_E_MT_VPE[2] = {
{ instruction , 0 , 0 , 32,
0xfc1f3fff, 0x20010eb0, &NMD::EMT , 0,
MT_ }, /* EMT */
{ instruction , 0 , 0 , 32,
0xfc1f3fff, 0x20000eb0, &NMD::EVPE , 0,
MT_ }, /* EVPE */
};
NMD::Pool NMD::_P_MT_VPE[2] = {
{ pool , P_D_MT_VPE , 2 , 32,
0xfc003fff, 0x20000ab0, 0 , 0,
0x0 }, /* P.D_MT_VPE */
{ pool , P_E_MT_VPE , 2 , 32,
0xfc003fff, 0x20000eb0, 0 , 0,
0x0 }, /* P.E_MT_VPE */
};
NMD::Pool NMD::P_MT_VPE[8] = {
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x200002b0, 0 , 0,
0x0 }, /* P.MT_VPE~*(0) */
{ pool , _P_MT_VPE , 2 , 32,
0xfc003bff, 0x20000ab0, 0 , 0,
0x0 }, /* _P.MT_VPE */
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x200012b0, 0 , 0,
0x0 }, /* P.MT_VPE~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x20001ab0, 0 , 0,
0x0 }, /* P.MT_VPE~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x200022b0, 0 , 0,
0x0 }, /* P.MT_VPE~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x20002ab0, 0 , 0,
0x0 }, /* P.MT_VPE~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x200032b0, 0 , 0,
0x0 }, /* P.MT_VPE~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc003bff, 0x20003ab0, 0 , 0,
0x0 }, /* P.MT_VPE~*(7) */
};
NMD::Pool NMD::P_DVP[2] = {
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20000390, &NMD::DVP , 0,
0x0 }, /* DVP */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20000790, &NMD::EVP , 0,
0x0 }, /* EVP */
};
NMD::Pool NMD::P_SLTU[2] = {
{ pool , P_DVP , 2 , 32,
0xfc00fbff, 0x20000390, 0 , 0,
0x0 }, /* P.DVP */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000390, &NMD::SLTU , &NMD::SLTU_cond ,
0x0 }, /* SLTU */
};
NMD::Pool NMD::_POOL32A0[128] = {
{ pool , P_TRAP , 2 , 32,
0xfc0003ff, 0x20000000, 0 , 0,
0x0 }, /* P.TRAP */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000008, &NMD::SEB , 0,
XMMS_ }, /* SEB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000010, &NMD::SLLV , 0,
0x0 }, /* SLLV */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000018, &NMD::MUL_32_ , 0,
0x0 }, /* MUL[32] */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000020, 0 , 0,
0x0 }, /* _POOL32A0~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000028, 0 , 0,
0x0 }, /* _POOL32A0~*(5) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000030, &NMD::MFC0 , 0,
0x0 }, /* MFC0 */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000038, &NMD::MFHC0 , 0,
CP0_ | MVH_ }, /* MFHC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000040, 0 , 0,
0x0 }, /* _POOL32A0~*(8) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000048, &NMD::SEH , 0,
0x0 }, /* SEH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000050, &NMD::SRLV , 0,
0x0 }, /* SRLV */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000058, &NMD::MUH , 0,
0x0 }, /* MUH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000060, 0 , 0,
0x0 }, /* _POOL32A0~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000068, 0 , 0,
0x0 }, /* _POOL32A0~*(13) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000070, &NMD::MTC0 , 0,
CP0_ }, /* MTC0 */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000078, &NMD::MTHC0 , 0,
CP0_ | MVH_ }, /* MTHC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000080, 0 , 0,
0x0 }, /* _POOL32A0~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000088, 0 , 0,
0x0 }, /* _POOL32A0~*(17) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000090, &NMD::SRAV , 0,
0x0 }, /* SRAV */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000098, &NMD::MULU , 0,
0x0 }, /* MULU */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000a0, 0 , 0,
0x0 }, /* _POOL32A0~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000a8, 0 , 0,
0x0 }, /* _POOL32A0~*(21) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000b0, &NMD::MFGC0 , 0,
CP0_ | VZ_ }, /* MFGC0 */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000b8, &NMD::MFHGC0 , 0,
CP0_ | VZ_ | MVH_ }, /* MFHGC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000c0, 0 , 0,
0x0 }, /* _POOL32A0~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000c8, 0 , 0,
0x0 }, /* _POOL32A0~*(25) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000d0, &NMD::ROTRV , 0,
0x0 }, /* ROTRV */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000d8, &NMD::MUHU , 0,
0x0 }, /* MUHU */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000e0, 0 , 0,
0x0 }, /* _POOL32A0~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000e8, 0 , 0,
0x0 }, /* _POOL32A0~*(29) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000f0, &NMD::MTGC0 , 0,
CP0_ | VZ_ }, /* MTGC0 */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000f8, &NMD::MTHGC0 , 0,
CP0_ | VZ_ | MVH_ }, /* MTHGC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000100, 0 , 0,
0x0 }, /* _POOL32A0~*(32) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000108, 0 , 0,
0x0 }, /* _POOL32A0~*(33) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000110, &NMD::ADD , 0,
XMMS_ }, /* ADD */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000118, &NMD::DIV , 0,
0x0 }, /* DIV */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000120, 0 , 0,
0x0 }, /* _POOL32A0~*(36) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000128, 0 , 0,
0x0 }, /* _POOL32A0~*(37) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000130, &NMD::DMFC0 , 0,
CP0_ | MIPS64_ }, /* DMFC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000138, 0 , 0,
0x0 }, /* _POOL32A0~*(39) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000140, 0 , 0,
0x0 }, /* _POOL32A0~*(40) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000148, 0 , 0,
0x0 }, /* _POOL32A0~*(41) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000150, &NMD::ADDU_32_ , 0,
0x0 }, /* ADDU[32] */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000158, &NMD::MOD , 0,
0x0 }, /* MOD */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000160, 0 , 0,
0x0 }, /* _POOL32A0~*(44) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000168, 0 , 0,
0x0 }, /* _POOL32A0~*(45) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000170, &NMD::DMTC0 , 0,
CP0_ | MIPS64_ }, /* DMTC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000178, 0 , 0,
0x0 }, /* _POOL32A0~*(47) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000180, 0 , 0,
0x0 }, /* _POOL32A0~*(48) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000188, 0 , 0,
0x0 }, /* _POOL32A0~*(49) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000190, &NMD::SUB , 0,
XMMS_ }, /* SUB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000198, &NMD::DIVU , 0,
0x0 }, /* DIVU */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001a0, 0 , 0,
0x0 }, /* _POOL32A0~*(52) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001a8, 0 , 0,
0x0 }, /* _POOL32A0~*(53) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001b0, &NMD::DMFGC0 , 0,
CP0_ | MIPS64_ | VZ_}, /* DMFGC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001b8, 0 , 0,
0x0 }, /* _POOL32A0~*(55) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001c0, &NMD::RDHWR , 0,
XMMS_ }, /* RDHWR */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001c8, 0 , 0,
0x0 }, /* _POOL32A0~*(57) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001d0, &NMD::SUBU_32_ , 0,
0x0 }, /* SUBU[32] */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001d8, &NMD::MODU , 0,
0x0 }, /* MODU */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001e0, 0 , 0,
0x0 }, /* _POOL32A0~*(60) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001e8, 0 , 0,
0x0 }, /* _POOL32A0~*(61) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001f0, &NMD::DMTGC0 , 0,
CP0_ | MIPS64_ | VZ_}, /* DMTGC0 */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001f8, 0 , 0,
0x0 }, /* _POOL32A0~*(63) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000200, 0 , 0,
0x0 }, /* _POOL32A0~*(64) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000208, 0 , 0,
0x0 }, /* _POOL32A0~*(65) */
{ pool , P_CMOVE , 2 , 32,
0xfc0003ff, 0x20000210, 0 , 0,
0x0 }, /* P.CMOVE */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000218, 0 , 0,
0x0 }, /* _POOL32A0~*(67) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000220, 0 , 0,
0x0 }, /* _POOL32A0~*(68) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000228, &NMD::FORK , 0,
MT_ }, /* FORK */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000230, &NMD::MFTR , 0,
MT_ }, /* MFTR */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000238, &NMD::MFHTR , 0,
MT_ }, /* MFHTR */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000240, 0 , 0,
0x0 }, /* _POOL32A0~*(72) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000248, 0 , 0,
0x0 }, /* _POOL32A0~*(73) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000250, &NMD::AND_32_ , 0,
0x0 }, /* AND[32] */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000258, 0 , 0,
0x0 }, /* _POOL32A0~*(75) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000260, 0 , 0,
0x0 }, /* _POOL32A0~*(76) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000268, &NMD::YIELD , 0,
MT_ }, /* YIELD */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000270, &NMD::MTTR , 0,
MT_ }, /* MTTR */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000278, &NMD::MTHTR , 0,
MT_ }, /* MTHTR */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000280, 0 , 0,
0x0 }, /* _POOL32A0~*(80) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000288, 0 , 0,
0x0 }, /* _POOL32A0~*(81) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000290, &NMD::OR_32_ , 0,
0x0 }, /* OR[32] */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000298, 0 , 0,
0x0 }, /* _POOL32A0~*(83) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002a0, 0 , 0,
0x0 }, /* _POOL32A0~*(84) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002a8, 0 , 0,
0x0 }, /* _POOL32A0~*(85) */
{ pool , P_MT_VPE , 8 , 32,
0xfc0003ff, 0x200002b0, 0 , 0,
0x0 }, /* P.MT_VPE */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002b8, 0 , 0,
0x0 }, /* _POOL32A0~*(87) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002c0, 0 , 0,
0x0 }, /* _POOL32A0~*(88) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002c8, 0 , 0,
0x0 }, /* _POOL32A0~*(89) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200002d0, &NMD::NOR , 0,
0x0 }, /* NOR */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002d8, 0 , 0,
0x0 }, /* _POOL32A0~*(91) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002e0, 0 , 0,
0x0 }, /* _POOL32A0~*(92) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002e8, 0 , 0,
0x0 }, /* _POOL32A0~*(93) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002f0, 0 , 0,
0x0 }, /* _POOL32A0~*(94) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002f8, 0 , 0,
0x0 }, /* _POOL32A0~*(95) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000300, 0 , 0,
0x0 }, /* _POOL32A0~*(96) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000308, 0 , 0,
0x0 }, /* _POOL32A0~*(97) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000310, &NMD::XOR_32_ , 0,
0x0 }, /* XOR[32] */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000318, 0 , 0,
0x0 }, /* _POOL32A0~*(99) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000320, 0 , 0,
0x0 }, /* _POOL32A0~*(100) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000328, 0 , 0,
0x0 }, /* _POOL32A0~*(101) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000330, 0 , 0,
0x0 }, /* _POOL32A0~*(102) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000338, 0 , 0,
0x0 }, /* _POOL32A0~*(103) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000340, 0 , 0,
0x0 }, /* _POOL32A0~*(104) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000348, 0 , 0,
0x0 }, /* _POOL32A0~*(105) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000350, &NMD::SLT , 0,
0x0 }, /* SLT */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000358, 0 , 0,
0x0 }, /* _POOL32A0~*(107) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000360, 0 , 0,
0x0 }, /* _POOL32A0~*(108) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000368, 0 , 0,
0x0 }, /* _POOL32A0~*(109) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000370, 0 , 0,
0x0 }, /* _POOL32A0~*(110) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000378, 0 , 0,
0x0 }, /* _POOL32A0~*(111) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000380, 0 , 0,
0x0 }, /* _POOL32A0~*(112) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000388, 0 , 0,
0x0 }, /* _POOL32A0~*(113) */
{ pool , P_SLTU , 2 , 32,
0xfc0003ff, 0x20000390, 0 , 0,
0x0 }, /* P.SLTU */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000398, 0 , 0,
0x0 }, /* _POOL32A0~*(115) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003a0, 0 , 0,
0x0 }, /* _POOL32A0~*(116) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003a8, 0 , 0,
0x0 }, /* _POOL32A0~*(117) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003b0, 0 , 0,
0x0 }, /* _POOL32A0~*(118) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003b8, 0 , 0,
0x0 }, /* _POOL32A0~*(119) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003c0, 0 , 0,
0x0 }, /* _POOL32A0~*(120) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003c8, 0 , 0,
0x0 }, /* _POOL32A0~*(121) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200003d0, &NMD::SOV , 0,
0x0 }, /* SOV */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003d8, 0 , 0,
0x0 }, /* _POOL32A0~*(123) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003e0, 0 , 0,
0x0 }, /* _POOL32A0~*(124) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003e8, 0 , 0,
0x0 }, /* _POOL32A0~*(125) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003f0, 0 , 0,
0x0 }, /* _POOL32A0~*(126) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003f8, 0 , 0,
0x0 }, /* _POOL32A0~*(127) */
};
NMD::Pool NMD::ADDQ__S__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000000d, &NMD::ADDQ_PH , 0,
DSP_ }, /* ADDQ.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000040d, &NMD::ADDQ_S_PH , 0,
DSP_ }, /* ADDQ_S.PH */
};
NMD::Pool NMD::MUL__S__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000002d, &NMD::MUL_PH , 0,
DSP_ }, /* MUL.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000042d, &NMD::MUL_S_PH , 0,
DSP_ }, /* MUL_S.PH */
};
NMD::Pool NMD::ADDQH__R__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000004d, &NMD::ADDQH_PH , 0,
DSP_ }, /* ADDQH.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000044d, &NMD::ADDQH_R_PH , 0,
DSP_ }, /* ADDQH_R.PH */
};
NMD::Pool NMD::ADDQH__R__W[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000008d, &NMD::ADDQH_W , 0,
DSP_ }, /* ADDQH.W */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000048d, &NMD::ADDQH_R_W , 0,
DSP_ }, /* ADDQH_R.W */
};
NMD::Pool NMD::ADDU__S__QB[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200000cd, &NMD::ADDU_QB , 0,
DSP_ }, /* ADDU.QB */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200004cd, &NMD::ADDU_S_QB , 0,
DSP_ }, /* ADDU_S.QB */
};
NMD::Pool NMD::ADDU__S__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000010d, &NMD::ADDU_PH , 0,
DSP_ }, /* ADDU.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000050d, &NMD::ADDU_S_PH , 0,
DSP_ }, /* ADDU_S.PH */
};
NMD::Pool NMD::ADDUH__R__QB[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000014d, &NMD::ADDUH_QB , 0,
DSP_ }, /* ADDUH.QB */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000054d, &NMD::ADDUH_R_QB , 0,
DSP_ }, /* ADDUH_R.QB */
};
NMD::Pool NMD::SHRAV__R__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000018d, &NMD::SHRAV_PH , 0,
DSP_ }, /* SHRAV.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000058d, &NMD::SHRAV_R_PH , 0,
DSP_ }, /* SHRAV_R.PH */
};
NMD::Pool NMD::SHRAV__R__QB[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200001cd, &NMD::SHRAV_QB , 0,
DSP_ }, /* SHRAV.QB */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200005cd, &NMD::SHRAV_R_QB , 0,
DSP_ }, /* SHRAV_R.QB */
};
NMD::Pool NMD::SUBQ__S__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000020d, &NMD::SUBQ_PH , 0,
DSP_ }, /* SUBQ.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000060d, &NMD::SUBQ_S_PH , 0,
DSP_ }, /* SUBQ_S.PH */
};
NMD::Pool NMD::SUBQH__R__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000024d, &NMD::SUBQH_PH , 0,
DSP_ }, /* SUBQH.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000064d, &NMD::SUBQH_R_PH , 0,
DSP_ }, /* SUBQH_R.PH */
};
NMD::Pool NMD::SUBQH__R__W[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000028d, &NMD::SUBQH_W , 0,
DSP_ }, /* SUBQH.W */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000068d, &NMD::SUBQH_R_W , 0,
DSP_ }, /* SUBQH_R.W */
};
NMD::Pool NMD::SUBU__S__QB[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200002cd, &NMD::SUBU_QB , 0,
DSP_ }, /* SUBU.QB */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200006cd, &NMD::SUBU_S_QB , 0,
DSP_ }, /* SUBU_S.QB */
};
NMD::Pool NMD::SUBU__S__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000030d, &NMD::SUBU_PH , 0,
DSP_ }, /* SUBU.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000070d, &NMD::SUBU_S_PH , 0,
DSP_ }, /* SUBU_S.PH */
};
NMD::Pool NMD::SHRA__R__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000335, &NMD::SHRA_PH , 0,
DSP_ }, /* SHRA.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000735, &NMD::SHRA_R_PH , 0,
DSP_ }, /* SHRA_R.PH */
};
NMD::Pool NMD::SUBUH__R__QB[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000034d, &NMD::SUBUH_QB , 0,
DSP_ }, /* SUBUH.QB */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000074d, &NMD::SUBUH_R_QB , 0,
DSP_ }, /* SUBUH_R.QB */
};
NMD::Pool NMD::SHLLV__S__PH[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000038d, &NMD::SHLLV_PH , 0,
DSP_ }, /* SHLLV.PH */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x2000078d, &NMD::SHLLV_S_PH , 0,
DSP_ }, /* SHLLV_S.PH */
};
NMD::Pool NMD::SHLL__S__PH[4] = {
{ instruction , 0 , 0 , 32,
0xfc000fff, 0x200003b5, &NMD::SHLL_PH , 0,
DSP_ }, /* SHLL.PH */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x200007b5, 0 , 0,
0x0 }, /* SHLL[_S].PH~*(1) */
{ instruction , 0 , 0 , 32,
0xfc000fff, 0x20000bb5, &NMD::SHLL_S_PH , 0,
DSP_ }, /* SHLL_S.PH */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x20000fb5, 0 , 0,
0x0 }, /* SHLL[_S].PH~*(3) */
};
NMD::Pool NMD::PRECR_SRA__R__PH_W[2] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200003cd, &NMD::PRECR_SRA_PH_W , 0,
DSP_ }, /* PRECR_SRA.PH.W */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200007cd, &NMD::PRECR_SRA_R_PH_W , 0,
DSP_ }, /* PRECR_SRA_R.PH.W */
};
NMD::Pool NMD::_POOL32A5[128] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000005, &NMD::CMP_EQ_PH , 0,
DSP_ }, /* CMP.EQ.PH */
{ pool , ADDQ__S__PH , 2 , 32,
0xfc0003ff, 0x2000000d, 0 , 0,
0x0 }, /* ADDQ[_S].PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000015, 0 , 0,
0x0 }, /* _POOL32A5~*(2) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x2000001d, &NMD::SHILO , 0,
DSP_ }, /* SHILO */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000025, &NMD::MULEQ_S_W_PHL , 0,
DSP_ }, /* MULEQ_S.W.PHL */
{ pool , MUL__S__PH , 2 , 32,
0xfc0003ff, 0x2000002d, 0 , 0,
0x0 }, /* MUL[_S].PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000035, 0 , 0,
0x0 }, /* _POOL32A5~*(6) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x2000003d, &NMD::REPL_PH , 0,
DSP_ }, /* REPL.PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000045, &NMD::CMP_LT_PH , 0,
DSP_ }, /* CMP.LT.PH */
{ pool , ADDQH__R__PH , 2 , 32,
0xfc0003ff, 0x2000004d, 0 , 0,
0x0 }, /* ADDQH[_R].PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000055, 0 , 0,
0x0 }, /* _POOL32A5~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000005d, 0 , 0,
0x0 }, /* _POOL32A5~*(11) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000065, &NMD::MULEQ_S_W_PHR , 0,
DSP_ }, /* MULEQ_S.W.PHR */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x2000006d, &NMD::PRECR_QB_PH , 0,
DSP_ }, /* PRECR.QB.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000075, 0 , 0,
0x0 }, /* _POOL32A5~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000007d, 0 , 0,
0x0 }, /* _POOL32A5~*(15) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000085, &NMD::CMP_LE_PH , 0,
DSP_ }, /* CMP.LE.PH */
{ pool , ADDQH__R__W , 2 , 32,
0xfc0003ff, 0x2000008d, 0 , 0,
0x0 }, /* ADDQH[_R].W */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000095, &NMD::MULEU_S_PH_QBL , 0,
DSP_ }, /* MULEU_S.PH.QBL */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000009d, 0 , 0,
0x0 }, /* _POOL32A5~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000a5, 0 , 0,
0x0 }, /* _POOL32A5~*(20) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000ad, &NMD::PRECRQ_QB_PH , 0,
DSP_ }, /* PRECRQ.QB.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000b5, 0 , 0,
0x0 }, /* _POOL32A5~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000bd, 0 , 0,
0x0 }, /* _POOL32A5~*(23) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000c5, &NMD::CMPGU_EQ_QB , 0,
DSP_ }, /* CMPGU.EQ.QB */
{ pool , ADDU__S__QB , 2 , 32,
0xfc0003ff, 0x200000cd, 0 , 0,
0x0 }, /* ADDU[_S].QB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000d5, &NMD::MULEU_S_PH_QBR , 0,
DSP_ }, /* MULEU_S.PH.QBR */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000dd, 0 , 0,
0x0 }, /* _POOL32A5~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000e5, 0 , 0,
0x0 }, /* _POOL32A5~*(28) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200000ed, &NMD::PRECRQ_PH_W , 0,
DSP_ }, /* PRECRQ.PH.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000f5, 0 , 0,
0x0 }, /* _POOL32A5~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200000fd, 0 , 0,
0x0 }, /* _POOL32A5~*(31) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000105, &NMD::CMPGU_LT_QB , 0,
DSP_ }, /* CMPGU.LT.QB */
{ pool , ADDU__S__PH , 2 , 32,
0xfc0003ff, 0x2000010d, 0 , 0,
0x0 }, /* ADDU[_S].PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000115, &NMD::MULQ_RS_PH , 0,
DSP_ }, /* MULQ_RS.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000011d, 0 , 0,
0x0 }, /* _POOL32A5~*(35) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000125, 0 , 0,
0x0 }, /* _POOL32A5~*(36) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x2000012d, &NMD::PRECRQ_RS_PH_W , 0,
DSP_ }, /* PRECRQ_RS.PH.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000135, 0 , 0,
0x0 }, /* _POOL32A5~*(38) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000013d, 0 , 0,
0x0 }, /* _POOL32A5~*(39) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000145, &NMD::CMPGU_LE_QB , 0,
DSP_ }, /* CMPGU.LE.QB */
{ pool , ADDUH__R__QB , 2 , 32,
0xfc0003ff, 0x2000014d, 0 , 0,
0x0 }, /* ADDUH[_R].QB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000155, &NMD::MULQ_S_PH , 0,
DSP_ }, /* MULQ_S.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000015d, 0 , 0,
0x0 }, /* _POOL32A5~*(43) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000165, 0 , 0,
0x0 }, /* _POOL32A5~*(44) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x2000016d, &NMD::PRECRQU_S_QB_PH , 0,
DSP_ }, /* PRECRQU_S.QB.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000175, 0 , 0,
0x0 }, /* _POOL32A5~*(46) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000017d, 0 , 0,
0x0 }, /* _POOL32A5~*(47) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000185, &NMD::CMPGDU_EQ_QB , 0,
DSP_ }, /* CMPGDU.EQ.QB */
{ pool , SHRAV__R__PH , 2 , 32,
0xfc0003ff, 0x2000018d, 0 , 0,
0x0 }, /* SHRAV[_R].PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000195, &NMD::MULQ_RS_W , 0,
DSP_ }, /* MULQ_RS.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000019d, 0 , 0,
0x0 }, /* _POOL32A5~*(51) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001a5, 0 , 0,
0x0 }, /* _POOL32A5~*(52) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001ad, &NMD::PACKRL_PH , 0,
DSP_ }, /* PACKRL.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001b5, 0 , 0,
0x0 }, /* _POOL32A5~*(54) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001bd, 0 , 0,
0x0 }, /* _POOL32A5~*(55) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001c5, &NMD::CMPGDU_LT_QB , 0,
DSP_ }, /* CMPGDU.LT.QB */
{ pool , SHRAV__R__QB , 2 , 32,
0xfc0003ff, 0x200001cd, 0 , 0,
0x0 }, /* SHRAV[_R].QB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001d5, &NMD::MULQ_S_W , 0,
DSP_ }, /* MULQ_S.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001dd, 0 , 0,
0x0 }, /* _POOL32A5~*(59) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001e5, 0 , 0,
0x0 }, /* _POOL32A5~*(60) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200001ed, &NMD::PICK_QB , 0,
DSP_ }, /* PICK.QB */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001f5, 0 , 0,
0x0 }, /* _POOL32A5~*(62) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200001fd, 0 , 0,
0x0 }, /* _POOL32A5~*(63) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000205, &NMD::CMPGDU_LE_QB , 0,
DSP_ }, /* CMPGDU.LE.QB */
{ pool , SUBQ__S__PH , 2 , 32,
0xfc0003ff, 0x2000020d, 0 , 0,
0x0 }, /* SUBQ[_S].PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000215, &NMD::APPEND , 0,
DSP_ }, /* APPEND */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000021d, 0 , 0,
0x0 }, /* _POOL32A5~*(67) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000225, 0 , 0,
0x0 }, /* _POOL32A5~*(68) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x2000022d, &NMD::PICK_PH , 0,
DSP_ }, /* PICK.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000235, 0 , 0,
0x0 }, /* _POOL32A5~*(70) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000023d, 0 , 0,
0x0 }, /* _POOL32A5~*(71) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000245, &NMD::CMPU_EQ_QB , 0,
DSP_ }, /* CMPU.EQ.QB */
{ pool , SUBQH__R__PH , 2 , 32,
0xfc0003ff, 0x2000024d, 0 , 0,
0x0 }, /* SUBQH[_R].PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000255, &NMD::PREPEND , 0,
DSP_ }, /* PREPEND */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000025d, 0 , 0,
0x0 }, /* _POOL32A5~*(75) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000265, 0 , 0,
0x0 }, /* _POOL32A5~*(76) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000026d, 0 , 0,
0x0 }, /* _POOL32A5~*(77) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000275, 0 , 0,
0x0 }, /* _POOL32A5~*(78) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000027d, 0 , 0,
0x0 }, /* _POOL32A5~*(79) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000285, &NMD::CMPU_LT_QB , 0,
DSP_ }, /* CMPU.LT.QB */
{ pool , SUBQH__R__W , 2 , 32,
0xfc0003ff, 0x2000028d, 0 , 0,
0x0 }, /* SUBQH[_R].W */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000295, &NMD::MODSUB , 0,
DSP_ }, /* MODSUB */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000029d, 0 , 0,
0x0 }, /* _POOL32A5~*(83) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002a5, 0 , 0,
0x0 }, /* _POOL32A5~*(84) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002ad, 0 , 0,
0x0 }, /* _POOL32A5~*(85) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002b5, 0 , 0,
0x0 }, /* _POOL32A5~*(86) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002bd, 0 , 0,
0x0 }, /* _POOL32A5~*(87) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200002c5, &NMD::CMPU_LE_QB , 0,
DSP_ }, /* CMPU.LE.QB */
{ pool , SUBU__S__QB , 2 , 32,
0xfc0003ff, 0x200002cd, 0 , 0,
0x0 }, /* SUBU[_S].QB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200002d5, &NMD::SHRAV_R_W , 0,
DSP_ }, /* SHRAV_R.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002dd, 0 , 0,
0x0 }, /* _POOL32A5~*(91) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002e5, 0 , 0,
0x0 }, /* _POOL32A5~*(92) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002ed, 0 , 0,
0x0 }, /* _POOL32A5~*(93) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200002f5, &NMD::SHRA_R_W , 0,
DSP_ }, /* SHRA_R.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200002fd, 0 , 0,
0x0 }, /* _POOL32A5~*(95) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000305, &NMD::ADDQ_S_W , 0,
DSP_ }, /* ADDQ_S.W */
{ pool , SUBU__S__PH , 2 , 32,
0xfc0003ff, 0x2000030d, 0 , 0,
0x0 }, /* SUBU[_S].PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000315, &NMD::SHRLV_PH , 0,
DSP_ }, /* SHRLV.PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000031d, 0 , 0,
0x0 }, /* _POOL32A5~*(99) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000325, 0 , 0,
0x0 }, /* _POOL32A5~*(100) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000032d, 0 , 0,
0x0 }, /* _POOL32A5~*(101) */
{ pool , SHRA__R__PH , 2 , 32,
0xfc0003ff, 0x20000335, 0 , 0,
0x0 }, /* SHRA[_R].PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000033d, 0 , 0,
0x0 }, /* _POOL32A5~*(103) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000345, &NMD::SUBQ_S_W , 0,
DSP_ }, /* SUBQ_S.W */
{ pool , SUBUH__R__QB , 2 , 32,
0xfc0003ff, 0x2000034d, 0 , 0,
0x0 }, /* SUBUH[_R].QB */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000355, &NMD::SHRLV_QB , 0,
DSP_ }, /* SHRLV.QB */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000035d, 0 , 0,
0x0 }, /* _POOL32A5~*(107) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000365, 0 , 0,
0x0 }, /* _POOL32A5~*(108) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000036d, 0 , 0,
0x0 }, /* _POOL32A5~*(109) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x20000375, 0 , 0,
0x0 }, /* _POOL32A5~*(110) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000037d, 0 , 0,
0x0 }, /* _POOL32A5~*(111) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000385, &NMD::ADDSC , 0,
DSP_ }, /* ADDSC */
{ pool , SHLLV__S__PH , 2 , 32,
0xfc0003ff, 0x2000038d, 0 , 0,
0x0 }, /* SHLLV[_S].PH */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x20000395, &NMD::SHLLV_QB , 0,
DSP_ }, /* SHLLV.QB */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x2000039d, 0 , 0,
0x0 }, /* _POOL32A5~*(115) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003a5, 0 , 0,
0x0 }, /* _POOL32A5~*(116) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003ad, 0 , 0,
0x0 }, /* _POOL32A5~*(117) */
{ pool , SHLL__S__PH , 4 , 32,
0xfc0003ff, 0x200003b5, 0 , 0,
0x0 }, /* SHLL[_S].PH */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003bd, 0 , 0,
0x0 }, /* _POOL32A5~*(119) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200003c5, &NMD::ADDWC , 0,
DSP_ }, /* ADDWC */
{ pool , PRECR_SRA__R__PH_W , 2 , 32,
0xfc0003ff, 0x200003cd, 0 , 0,
0x0 }, /* PRECR_SRA[_R].PH.W */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200003d5, &NMD::SHLLV_S_W , 0,
DSP_ }, /* SHLLV_S.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003dd, 0 , 0,
0x0 }, /* _POOL32A5~*(123) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003e5, 0 , 0,
0x0 }, /* _POOL32A5~*(124) */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003ed, 0 , 0,
0x0 }, /* _POOL32A5~*(125) */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0x200003f5, &NMD::SHLL_S_W , 0,
DSP_ }, /* SHLL_S.W */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0x200003fd, 0 , 0,
0x0 }, /* _POOL32A5~*(127) */
};
NMD::Pool NMD::PP_LSX[16] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000007, &NMD::LBX , 0,
0x0 }, /* LBX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000087, &NMD::SBX , 0,
XMMS_ }, /* SBX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000107, &NMD::LBUX , 0,
0x0 }, /* LBUX */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0x20000187, 0 , 0,
0x0 }, /* PP.LSX~*(3) */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000207, &NMD::LHX , 0,
0x0 }, /* LHX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000287, &NMD::SHX , 0,
XMMS_ }, /* SHX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000307, &NMD::LHUX , 0,
0x0 }, /* LHUX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000387, &NMD::LWUX , 0,
MIPS64_ }, /* LWUX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000407, &NMD::LWX , 0,
0x0 }, /* LWX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000487, &NMD::SWX , 0,
XMMS_ }, /* SWX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000507, &NMD::LWC1X , 0,
CP1_ }, /* LWC1X */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000587, &NMD::SWC1X , 0,
CP1_ }, /* SWC1X */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000607, &NMD::LDX , 0,
MIPS64_ }, /* LDX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000687, &NMD::SDX , 0,
MIPS64_ }, /* SDX */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000707, &NMD::LDC1X , 0,
CP1_ }, /* LDC1X */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000787, &NMD::SDC1X , 0,
CP1_ }, /* SDC1X */
};
NMD::Pool NMD::PP_LSXS[16] = {
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0x20000047, 0 , 0,
0x0 }, /* PP.LSXS~*(0) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0x200000c7, 0 , 0,
0x0 }, /* PP.LSXS~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0x20000147, 0 , 0,
0x0 }, /* PP.LSXS~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0x200001c7, 0 , 0,
0x0 }, /* PP.LSXS~*(3) */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000247, &NMD::LHXS , 0,
0x0 }, /* LHXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200002c7, &NMD::SHXS , 0,
XMMS_ }, /* SHXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000347, &NMD::LHUXS , 0,
0x0 }, /* LHUXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200003c7, &NMD::LWUXS , 0,
MIPS64_ }, /* LWUXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000447, &NMD::LWXS_32_ , 0,
0x0 }, /* LWXS[32] */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200004c7, &NMD::SWXS , 0,
XMMS_ }, /* SWXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000547, &NMD::LWC1XS , 0,
CP1_ }, /* LWC1XS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200005c7, &NMD::SWC1XS , 0,
CP1_ }, /* SWC1XS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000647, &NMD::LDXS , 0,
MIPS64_ }, /* LDXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200006c7, &NMD::SDXS , 0,
MIPS64_ }, /* SDXS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x20000747, &NMD::LDC1XS , 0,
CP1_ }, /* LDC1XS */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0x200007c7, &NMD::SDC1XS , 0,
CP1_ }, /* SDC1XS */
};
NMD::Pool NMD::P_LSX[2] = {
{ pool , PP_LSX , 16 , 32,
0xfc00007f, 0x20000007, 0 , 0,
0x0 }, /* PP.LSX */
{ pool , PP_LSXS , 16 , 32,
0xfc00007f, 0x20000047, 0 , 0,
0x0 }, /* PP.LSXS */
};
NMD::Pool NMD::POOL32Axf_1_0[4] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000007f, &NMD::MFHI_DSP_ , 0,
DSP_ }, /* MFHI[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000107f, &NMD::MFLO_DSP_ , 0,
DSP_ }, /* MFLO[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000207f, &NMD::MTHI_DSP_ , 0,
DSP_ }, /* MTHI[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000307f, &NMD::MTLO_DSP_ , 0,
DSP_ }, /* MTLO[DSP] */
};
NMD::Pool NMD::POOL32Axf_1_1[4] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000027f, &NMD::MTHLIP , 0,
DSP_ }, /* MTHLIP */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000127f, &NMD::SHILOV , 0,
DSP_ }, /* SHILOV */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0x2000227f, 0 , 0,
0x0 }, /* POOL32Axf_1_1~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0x2000327f, 0 , 0,
0x0 }, /* POOL32Axf_1_1~*(3) */
};
NMD::Pool NMD::POOL32Axf_1_3[4] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000067f, &NMD::RDDSP , 0,
DSP_ }, /* RDDSP */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000167f, &NMD::WRDSP , 0,
DSP_ }, /* WRDSP */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000267f, &NMD::EXTP , 0,
DSP_ }, /* EXTP */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x2000367f, &NMD::EXTPDP , 0,
DSP_ }, /* EXTPDP */
};
NMD::Pool NMD::POOL32Axf_1_4[2] = {
{ instruction , 0 , 0 , 32,
0xfc001fff, 0x2000087f, &NMD::SHLL_QB , 0,
DSP_ }, /* SHLL.QB */
{ instruction , 0 , 0 , 32,
0xfc001fff, 0x2000187f, &NMD::SHRL_QB , 0,
DSP_ }, /* SHRL.QB */
};
NMD::Pool NMD::MAQ_S_A__W_PHR[2] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20000a7f, &NMD::MAQ_S_W_PHR , 0,
DSP_ }, /* MAQ_S.W.PHR */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20002a7f, &NMD::MAQ_SA_W_PHR , 0,
DSP_ }, /* MAQ_SA.W.PHR */
};
NMD::Pool NMD::MAQ_S_A__W_PHL[2] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20001a7f, &NMD::MAQ_S_W_PHL , 0,
DSP_ }, /* MAQ_S.W.PHL */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20003a7f, &NMD::MAQ_SA_W_PHL , 0,
DSP_ }, /* MAQ_SA.W.PHL */
};
NMD::Pool NMD::POOL32Axf_1_5[2] = {
{ pool , MAQ_S_A__W_PHR , 2 , 32,
0xfc001fff, 0x20000a7f, 0 , 0,
0x0 }, /* MAQ_S[A].W.PHR */
{ pool , MAQ_S_A__W_PHL , 2 , 32,
0xfc001fff, 0x20001a7f, 0 , 0,
0x0 }, /* MAQ_S[A].W.PHL */
};
NMD::Pool NMD::POOL32Axf_1_7[4] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20000e7f, &NMD::EXTR_W , 0,
DSP_ }, /* EXTR.W */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20001e7f, &NMD::EXTR_R_W , 0,
DSP_ }, /* EXTR_R.W */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20002e7f, &NMD::EXTR_RS_W , 0,
DSP_ }, /* EXTR_RS.W */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20003e7f, &NMD::EXTR_S_H , 0,
DSP_ }, /* EXTR_S.H */
};
NMD::Pool NMD::POOL32Axf_1[8] = {
{ pool , POOL32Axf_1_0 , 4 , 32,
0xfc000fff, 0x2000007f, 0 , 0,
0x0 }, /* POOL32Axf_1_0 */
{ pool , POOL32Axf_1_1 , 4 , 32,
0xfc000fff, 0x2000027f, 0 , 0,
0x0 }, /* POOL32Axf_1_1 */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x2000047f, 0 , 0,
0x0 }, /* POOL32Axf_1~*(2) */
{ pool , POOL32Axf_1_3 , 4 , 32,
0xfc000fff, 0x2000067f, 0 , 0,
0x0 }, /* POOL32Axf_1_3 */
{ pool , POOL32Axf_1_4 , 2 , 32,
0xfc000fff, 0x2000087f, 0 , 0,
0x0 }, /* POOL32Axf_1_4 */
{ pool , POOL32Axf_1_5 , 2 , 32,
0xfc000fff, 0x20000a7f, 0 , 0,
0x0 }, /* POOL32Axf_1_5 */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x20000c7f, 0 , 0,
0x0 }, /* POOL32Axf_1~*(6) */
{ pool , POOL32Axf_1_7 , 4 , 32,
0xfc000fff, 0x20000e7f, 0 , 0,
0x0 }, /* POOL32Axf_1_7 */
};
NMD::Pool NMD::POOL32Axf_2_DSP__0_7[8] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200000bf, &NMD::DPA_W_PH , 0,
DSP_ }, /* DPA.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200002bf, &NMD::DPAQ_S_W_PH , 0,
DSP_ }, /* DPAQ_S.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200004bf, &NMD::DPS_W_PH , 0,
DSP_ }, /* DPS.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200006bf, &NMD::DPSQ_S_W_PH , 0,
DSP_ }, /* DPSQ_S.W.PH */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0x200008bf, 0 , 0,
0x0 }, /* POOL32Axf_2(DSP)_0_7~*(4) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20000abf, &NMD::MADD_DSP_ , 0,
DSP_ }, /* MADD[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20000cbf, &NMD::MULT_DSP_ , 0,
DSP_ }, /* MULT[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20000ebf, &NMD::EXTRV_W , 0,
DSP_ }, /* EXTRV.W */
};
NMD::Pool NMD::POOL32Axf_2_DSP__8_15[8] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200010bf, &NMD::DPAX_W_PH , 0,
DSP_ }, /* DPAX.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200012bf, &NMD::DPAQ_SA_L_W , 0,
DSP_ }, /* DPAQ_SA.L.W */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200014bf, &NMD::DPSX_W_PH , 0,
DSP_ }, /* DPSX.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200016bf, &NMD::DPSQ_SA_L_W , 0,
DSP_ }, /* DPSQ_SA.L.W */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0x200018bf, 0 , 0,
0x0 }, /* POOL32Axf_2(DSP)_8_15~*(4) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20001abf, &NMD::MADDU_DSP_ , 0,
DSP_ }, /* MADDU[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20001cbf, &NMD::MULTU_DSP_ , 0,
DSP_ }, /* MULTU[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20001ebf, &NMD::EXTRV_R_W , 0,
DSP_ }, /* EXTRV_R.W */
};
NMD::Pool NMD::POOL32Axf_2_DSP__16_23[8] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200020bf, &NMD::DPAU_H_QBL , 0,
DSP_ }, /* DPAU.H.QBL */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200022bf, &NMD::DPAQX_S_W_PH , 0,
DSP_ }, /* DPAQX_S.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200024bf, &NMD::DPSU_H_QBL , 0,
DSP_ }, /* DPSU.H.QBL */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200026bf, &NMD::DPSQX_S_W_PH , 0,
DSP_ }, /* DPSQX_S.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200028bf, &NMD::EXTPV , 0,
DSP_ }, /* EXTPV */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20002abf, &NMD::MSUB_DSP_ , 0,
DSP_ }, /* MSUB[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20002cbf, &NMD::MULSA_W_PH , 0,
DSP_ }, /* MULSA.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20002ebf, &NMD::EXTRV_RS_W , 0,
DSP_ }, /* EXTRV_RS.W */
};
NMD::Pool NMD::POOL32Axf_2_DSP__24_31[8] = {
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200030bf, &NMD::DPAU_H_QBR , 0,
DSP_ }, /* DPAU.H.QBR */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200032bf, &NMD::DPAQX_SA_W_PH , 0,
DSP_ }, /* DPAQX_SA.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200034bf, &NMD::DPSU_H_QBR , 0,
DSP_ }, /* DPSU.H.QBR */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200036bf, &NMD::DPSQX_SA_W_PH , 0,
DSP_ }, /* DPSQX_SA.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x200038bf, &NMD::EXTPDPV , 0,
DSP_ }, /* EXTPDPV */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20003abf, &NMD::MSUBU_DSP_ , 0,
DSP_ }, /* MSUBU[DSP] */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20003cbf, &NMD::MULSAQ_S_W_PH , 0,
DSP_ }, /* MULSAQ_S.W.PH */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0x20003ebf, &NMD::EXTRV_S_H , 0,
DSP_ }, /* EXTRV_S.H */
};
NMD::Pool NMD::POOL32Axf_2[4] = {
{ pool , POOL32Axf_2_DSP__0_7, 8 , 32,
0xfc0031ff, 0x200000bf, 0 , 0,
0x0 }, /* POOL32Axf_2(DSP)_0_7 */
{ pool , POOL32Axf_2_DSP__8_15, 8 , 32,
0xfc0031ff, 0x200010bf, 0 , 0,
0x0 }, /* POOL32Axf_2(DSP)_8_15 */
{ pool , POOL32Axf_2_DSP__16_23, 8 , 32,
0xfc0031ff, 0x200020bf, 0 , 0,
0x0 }, /* POOL32Axf_2(DSP)_16_23 */
{ pool , POOL32Axf_2_DSP__24_31, 8 , 32,
0xfc0031ff, 0x200030bf, 0 , 0,
0x0 }, /* POOL32Axf_2(DSP)_24_31 */
};
NMD::Pool NMD::POOL32Axf_4[128] = {
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000013f, &NMD::ABSQ_S_QB , 0,
DSP_ }, /* ABSQ_S.QB */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000033f, &NMD::REPLV_PH , 0,
DSP_ }, /* REPLV.PH */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000053f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000073f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000093f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20000b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20000d3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20000f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(7) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000113f, &NMD::ABSQ_S_PH , 0,
DSP_ }, /* ABSQ_S.PH */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000133f, &NMD::REPLV_QB , 0,
DSP_ }, /* REPLV.QB */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000153f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000173f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(11) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000193f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20001b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20001d3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20001f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(15) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000213f, &NMD::ABSQ_S_W , 0,
DSP_ }, /* ABSQ_S.W */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000233f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(17) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000253f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000273f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000293f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20002b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20002d3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20002f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000313f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000333f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000353f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000373f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000393f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20003b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20003d3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20003f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(31) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000413f, &NMD::INSV , 0,
DSP_ }, /* INSV */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000433f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(33) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000453f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(34) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000473f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(35) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000493f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(36) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20004b3f, &NMD::CLO , 0,
XMMS_ }, /* CLO */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20004d3f, &NMD::MFC2 , 0,
CP2_ }, /* MFC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20004f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(39) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000513f, &NMD::PRECEQ_W_PHL , 0,
DSP_ }, /* PRECEQ.W.PHL */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000533f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(41) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000553f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(42) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000573f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(43) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000593f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(44) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20005b3f, &NMD::CLZ , 0,
XMMS_ }, /* CLZ */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20005d3f, &NMD::MTC2 , 0,
CP2_ }, /* MTC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20005f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(47) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000613f, &NMD::PRECEQ_W_PHR , 0,
DSP_ }, /* PRECEQ.W.PHR */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000633f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(49) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000653f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(50) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000673f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(51) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000693f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(52) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20006b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(53) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20006d3f, &NMD::DMFC2 , 0,
CP2_ }, /* DMFC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20006f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(55) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000713f, &NMD::PRECEQU_PH_QBL , 0,
DSP_ }, /* PRECEQU.PH.QBL */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000733f, &NMD::PRECEQU_PH_QBLA , 0,
DSP_ }, /* PRECEQU.PH.QBLA */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000753f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(58) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000773f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(59) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000793f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(60) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20007b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(61) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20007d3f, &NMD::DMTC2 , 0,
CP2_ }, /* DMTC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20007f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(63) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000813f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(64) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000833f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(65) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000853f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(66) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000873f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(67) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000893f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(68) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20008b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(69) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20008d3f, &NMD::MFHC2 , 0,
CP2_ }, /* MFHC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20008f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(71) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000913f, &NMD::PRECEQU_PH_QBR , 0,
DSP_ }, /* PRECEQU.PH.QBR */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000933f, &NMD::PRECEQU_PH_QBRA , 0,
DSP_ }, /* PRECEQU.PH.QBRA */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000953f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(74) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000973f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(75) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000993f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(76) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20009b3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(77) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x20009d3f, &NMD::MTHC2 , 0,
CP2_ }, /* MTHC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20009f3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(79) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000a13f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(80) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000a33f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(81) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000a53f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(82) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000a73f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(83) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000a93f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(84) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ab3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(85) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ad3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(86) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000af3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(87) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000b13f, &NMD::PRECEU_PH_QBL , 0,
DSP_ }, /* PRECEU.PH.QBL */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000b33f, &NMD::PRECEU_PH_QBLA , 0,
DSP_ }, /* PRECEU.PH.QBLA */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000b53f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(90) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000b73f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(91) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000b93f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(92) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000bb3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(93) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000bd3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(94) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000bf3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(95) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c13f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(96) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c33f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(97) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c53f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(98) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c73f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(99) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c93f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(100) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000cb3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(101) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000cd3f, &NMD::CFC2 , 0,
CP2_ }, /* CFC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000cf3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(103) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000d13f, &NMD::PRECEU_PH_QBR , 0,
DSP_ }, /* PRECEU.PH.QBR */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000d33f, &NMD::PRECEU_PH_QBRA , 0,
DSP_ }, /* PRECEU.PH.QBRA */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d53f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(106) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d73f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(107) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d93f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(108) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000db3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(109) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000dd3f, &NMD::CTC2 , 0,
CP2_ }, /* CTC2 */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000df3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(111) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e13f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(112) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e33f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(113) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e53f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(114) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e73f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(115) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e93f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(116) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000eb3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(117) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ed3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(118) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ef3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(119) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000f13f, &NMD::RADDU_W_QB , 0,
DSP_ }, /* RADDU.W.QB */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f33f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(121) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f53f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(122) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f73f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(123) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f93f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(124) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000fb3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(125) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000fd3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(126) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ff3f, 0 , 0,
0x0 }, /* POOL32Axf_4~*(127) */
};
NMD::Pool NMD::POOL32Axf_5_group0[32] = {
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000017f, &NMD::TLBGP , 0,
CP0_ | VZ_ | TLB_ }, /* TLBGP */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000037f, &NMD::TLBP , 0,
CP0_ | TLB_ }, /* TLBP */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000057f, &NMD::TLBGINV , 0,
CP0_ | VZ_ | TLB_ | TLBINV_}, /* TLBGINV */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000077f, &NMD::TLBINV , 0,
CP0_ | TLB_ | TLBINV_}, /* TLBINV */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000097f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20000b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20000d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20000f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(7) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000117f, &NMD::TLBGR , 0,
CP0_ | VZ_ | TLB_ }, /* TLBGR */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000137f, &NMD::TLBR , 0,
CP0_ | TLB_ }, /* TLBR */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000157f, &NMD::TLBGINVF , 0,
CP0_ | VZ_ | TLB_ | TLBINV_}, /* TLBGINVF */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000177f, &NMD::TLBINVF , 0,
CP0_ | TLB_ | TLBINV_}, /* TLBINVF */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000197f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20001b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20001d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20001f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(15) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000217f, &NMD::TLBGWI , 0,
CP0_ | VZ_ | TLB_ }, /* TLBGWI */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000237f, &NMD::TLBWI , 0,
CP0_ | TLB_ }, /* TLBWI */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000257f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000277f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000297f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20002b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20002d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20002f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(23) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000317f, &NMD::TLBGWR , 0,
CP0_ | VZ_ | TLB_ }, /* TLBGWR */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000337f, &NMD::TLBWR , 0,
CP0_ | TLB_ }, /* TLBWR */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000357f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000377f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000397f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20003b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20003d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20003f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0~*(31) */
};
NMD::Pool NMD::POOL32Axf_5_group1[32] = {
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000417f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(0) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000437f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000457f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(2) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000477f, &NMD::DI , 0,
0x0 }, /* DI */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000497f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20004b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20004d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20004f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000517f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(8) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000537f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(9) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000557f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(10) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000577f, &NMD::EI , 0,
0x0 }, /* EI */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000597f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20005b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20005d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20005f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(15) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000617f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000637f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(17) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000657f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000677f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000697f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20006b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20006d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20006f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000717f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000737f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000757f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000777f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000797f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20007b7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20007d7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x20007f7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1~*(31) */
};
NMD::Pool NMD::ERETx[2] = {
{ instruction , 0 , 0 , 32,
0xfc01ffff, 0x2000f37f, &NMD::ERET , 0,
0x0 }, /* ERET */
{ instruction , 0 , 0 , 32,
0xfc01ffff, 0x2001f37f, &NMD::ERETNC , 0,
0x0 }, /* ERETNC */
};
NMD::Pool NMD::POOL32Axf_5_group3[32] = {
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c17f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(0) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000c37f, &NMD::WAIT , 0,
0x0 }, /* WAIT */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c57f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c77f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000c97f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000cb7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000cd7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000cf7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d17f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(8) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000d37f, &NMD::IRET , 0,
MCU_ }, /* IRET */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d57f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d77f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(11) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000d97f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000db7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000dd7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000df7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(15) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000e17f, &NMD::RDPGPR , 0,
CP0_ }, /* RDPGPR */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000e37f, &NMD::DERET , 0,
EJTAG_ }, /* DERET */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e57f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e77f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000e97f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000eb7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ed7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ef7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(23) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0x2000f17f, &NMD::WRPGPR , 0,
CP0_ }, /* WRPGPR */
{ pool , ERETx , 2 , 32,
0xfc00ffff, 0x2000f37f, 0 , 0,
0x0 }, /* ERETx */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f57f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f77f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000f97f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000fb7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000fd7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0x2000ff7f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3~*(31) */
};
NMD::Pool NMD::POOL32Axf_5[4] = {
{ pool , POOL32Axf_5_group0 , 32 , 32,
0xfc00c1ff, 0x2000017f, 0 , 0,
0x0 }, /* POOL32Axf_5_group0 */
{ pool , POOL32Axf_5_group1 , 32 , 32,
0xfc00c1ff, 0x2000417f, 0 , 0,
0x0 }, /* POOL32Axf_5_group1 */
{ reserved_block , 0 , 0 , 32,
0xfc00c1ff, 0x2000817f, 0 , 0,
0x0 }, /* POOL32Axf_5~*(2) */
{ pool , POOL32Axf_5_group3 , 32 , 32,
0xfc00c1ff, 0x2000c17f, 0 , 0,
0x0 }, /* POOL32Axf_5_group3 */
};
NMD::Pool NMD::SHRA__R__QB[2] = {
{ instruction , 0 , 0 , 32,
0xfc001fff, 0x200001ff, &NMD::SHRA_QB , 0,
DSP_ }, /* SHRA.QB */
{ instruction , 0 , 0 , 32,
0xfc001fff, 0x200011ff, &NMD::SHRA_R_QB , 0,
DSP_ }, /* SHRA_R.QB */
};
NMD::Pool NMD::POOL32Axf_7[8] = {
{ pool , SHRA__R__QB , 2 , 32,
0xfc000fff, 0x200001ff, 0 , 0,
0x0 }, /* SHRA[_R].QB */
{ instruction , 0 , 0 , 32,
0xfc000fff, 0x200003ff, &NMD::SHRL_PH , 0,
DSP_ }, /* SHRL.PH */
{ instruction , 0 , 0 , 32,
0xfc000fff, 0x200005ff, &NMD::REPL_QB , 0,
DSP_ }, /* REPL.QB */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x200007ff, 0 , 0,
0x0 }, /* POOL32Axf_7~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x200009ff, 0 , 0,
0x0 }, /* POOL32Axf_7~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x20000bff, 0 , 0,
0x0 }, /* POOL32Axf_7~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x20000dff, 0 , 0,
0x0 }, /* POOL32Axf_7~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc000fff, 0x20000fff, 0 , 0,
0x0 }, /* POOL32Axf_7~*(7) */
};
NMD::Pool NMD::POOL32Axf[8] = {
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0x2000003f, 0 , 0,
0x0 }, /* POOL32Axf~*(0) */
{ pool , POOL32Axf_1 , 8 , 32,
0xfc0001ff, 0x2000007f, 0 , 0,
0x0 }, /* POOL32Axf_1 */
{ pool , POOL32Axf_2 , 4 , 32,
0xfc0001ff, 0x200000bf, 0 , 0,
0x0 }, /* POOL32Axf_2 */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0x200000ff, 0 , 0,
0x0 }, /* POOL32Axf~*(3) */
{ pool , POOL32Axf_4 , 128 , 32,
0xfc0001ff, 0x2000013f, 0 , 0,
0x0 }, /* POOL32Axf_4 */
{ pool , POOL32Axf_5 , 4 , 32,
0xfc0001ff, 0x2000017f, 0 , 0,
0x0 }, /* POOL32Axf_5 */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0x200001bf, 0 , 0,
0x0 }, /* POOL32Axf~*(6) */
{ pool , POOL32Axf_7 , 8 , 32,
0xfc0001ff, 0x200001ff, 0 , 0,
0x0 }, /* POOL32Axf_7 */
};
NMD::Pool NMD::_POOL32A7[8] = {
{ pool , P_LSX , 2 , 32,
0xfc00003f, 0x20000007, 0 , 0,
0x0 }, /* P.LSX */
{ instruction , 0 , 0 , 32,
0xfc00003f, 0x2000000f, &NMD::LSA , 0,
0x0 }, /* LSA */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0x20000017, 0 , 0,
0x0 }, /* _POOL32A7~*(2) */
{ instruction , 0 , 0 , 32,
0xfc00003f, 0x2000001f, &NMD::EXTW , 0,
0x0 }, /* EXTW */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0x20000027, 0 , 0,
0x0 }, /* _POOL32A7~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0x2000002f, 0 , 0,
0x0 }, /* _POOL32A7~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0x20000037, 0 , 0,
0x0 }, /* _POOL32A7~*(6) */
{ pool , POOL32Axf , 8 , 32,
0xfc00003f, 0x2000003f, 0 , 0,
0x0 }, /* POOL32Axf */
};
NMD::Pool NMD::P32A[8] = {
{ pool , _POOL32A0 , 128 , 32,
0xfc000007, 0x20000000, 0 , 0,
0x0 }, /* _POOL32A0 */
{ instruction , 0 , 0 , 32,
0xfc000007, 0x20000001, &NMD::SPECIAL2 , 0,
UDI_ }, /* SPECIAL2 */
{ instruction , 0 , 0 , 32,
0xfc000007, 0x20000002, &NMD::COP2_1 , 0,
CP2_ }, /* COP2_1 */
{ instruction , 0 , 0 , 32,
0xfc000007, 0x20000003, &NMD::UDI , 0,
UDI_ }, /* UDI */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0x20000004, 0 , 0,
0x0 }, /* P32A~*(4) */
{ pool , _POOL32A5 , 128 , 32,
0xfc000007, 0x20000005, 0 , 0,
0x0 }, /* _POOL32A5 */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0x20000006, 0 , 0,
0x0 }, /* P32A~*(6) */
{ pool , _POOL32A7 , 8 , 32,
0xfc000007, 0x20000007, 0 , 0,
0x0 }, /* _POOL32A7 */
};
NMD::Pool NMD::P_GP_D[2] = {
{ instruction , 0 , 0 , 32,
0xfc000007, 0x40000001, &NMD::LD_GP_ , 0,
MIPS64_ }, /* LD[GP] */
{ instruction , 0 , 0 , 32,
0xfc000007, 0x40000005, &NMD::SD_GP_ , 0,
MIPS64_ }, /* SD[GP] */
};
NMD::Pool NMD::P_GP_W[4] = {
{ instruction , 0 , 0 , 32,
0xfc000003, 0x40000000, &NMD::ADDIU_GP_W_ , 0,
0x0 }, /* ADDIU[GP.W] */
{ pool , P_GP_D , 2 , 32,
0xfc000003, 0x40000001, 0 , 0,
0x0 }, /* P.GP.D */
{ instruction , 0 , 0 , 32,
0xfc000003, 0x40000002, &NMD::LW_GP_ , 0,
0x0 }, /* LW[GP] */
{ instruction , 0 , 0 , 32,
0xfc000003, 0x40000003, &NMD::SW_GP_ , 0,
0x0 }, /* SW[GP] */
};
NMD::Pool NMD::POOL48I[32] = {
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x600000000000ull, &NMD::LI_48_ , 0,
XMMS_ }, /* LI[48] */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x600100000000ull, &NMD::ADDIU_48_ , 0,
XMMS_ }, /* ADDIU[48] */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x600200000000ull, &NMD::ADDIU_GP48_ , 0,
XMMS_ }, /* ADDIU[GP48] */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x600300000000ull, &NMD::ADDIUPC_48_ , 0,
XMMS_ }, /* ADDIUPC[48] */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600400000000ull, 0 , 0,
0x0 }, /* POOL48I~*(4) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600500000000ull, 0 , 0,
0x0 }, /* POOL48I~*(5) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600600000000ull, 0 , 0,
0x0 }, /* POOL48I~*(6) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600700000000ull, 0 , 0,
0x0 }, /* POOL48I~*(7) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600800000000ull, 0 , 0,
0x0 }, /* POOL48I~*(8) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600900000000ull, 0 , 0,
0x0 }, /* POOL48I~*(9) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600a00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(10) */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x600b00000000ull, &NMD::LWPC_48_ , 0,
XMMS_ }, /* LWPC[48] */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600c00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(12) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600d00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(13) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x600e00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(14) */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x600f00000000ull, &NMD::SWPC_48_ , 0,
XMMS_ }, /* SWPC[48] */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601000000000ull, 0 , 0,
0x0 }, /* POOL48I~*(16) */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x601100000000ull, &NMD::DADDIU_48_ , 0,
MIPS64_ }, /* DADDIU[48] */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601200000000ull, 0 , 0,
0x0 }, /* POOL48I~*(18) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601300000000ull, 0 , 0,
0x0 }, /* POOL48I~*(19) */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x601400000000ull, &NMD::DLUI_48_ , 0,
MIPS64_ }, /* DLUI[48] */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601500000000ull, 0 , 0,
0x0 }, /* POOL48I~*(21) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601600000000ull, 0 , 0,
0x0 }, /* POOL48I~*(22) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601700000000ull, 0 , 0,
0x0 }, /* POOL48I~*(23) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601800000000ull, 0 , 0,
0x0 }, /* POOL48I~*(24) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601900000000ull, 0 , 0,
0x0 }, /* POOL48I~*(25) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601a00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(26) */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x601b00000000ull, &NMD::LDPC_48_ , 0,
MIPS64_ }, /* LDPC[48] */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601c00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(28) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601d00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(29) */
{ reserved_block , 0 , 0 , 48,
0xfc1f00000000ull, 0x601e00000000ull, 0 , 0,
0x0 }, /* POOL48I~*(30) */
{ instruction , 0 , 0 , 48,
0xfc1f00000000ull, 0x601f00000000ull, &NMD::SDPC_48_ , 0,
MIPS64_ }, /* SDPC[48] */
};
NMD::Pool NMD::PP_SR[4] = {
{ instruction , 0 , 0 , 32,
0xfc10f003, 0x80003000, &NMD::SAVE_32_ , 0,
0x0 }, /* SAVE[32] */
{ reserved_block , 0 , 0 , 32,
0xfc10f003, 0x80003001, 0 , 0,
0x0 }, /* PP.SR~*(1) */
{ instruction , 0 , 0 , 32,
0xfc10f003, 0x80003002, &NMD::RESTORE_32_ , 0,
0x0 }, /* RESTORE[32] */
{ return_instruction , 0 , 0 , 32,
0xfc10f003, 0x80003003, &NMD::RESTORE_JRC_32_ , 0,
0x0 }, /* RESTORE.JRC[32] */
};
NMD::Pool NMD::P_SR_F[8] = {
{ instruction , 0 , 0 , 32,
0xfc10f007, 0x80103000, &NMD::SAVEF , 0,
CP1_ }, /* SAVEF */
{ instruction , 0 , 0 , 32,
0xfc10f007, 0x80103001, &NMD::RESTOREF , 0,
CP1_ }, /* RESTOREF */
{ reserved_block , 0 , 0 , 32,
0xfc10f007, 0x80103002, 0 , 0,
0x0 }, /* P.SR.F~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc10f007, 0x80103003, 0 , 0,
0x0 }, /* P.SR.F~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc10f007, 0x80103004, 0 , 0,
0x0 }, /* P.SR.F~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc10f007, 0x80103005, 0 , 0,
0x0 }, /* P.SR.F~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc10f007, 0x80103006, 0 , 0,
0x0 }, /* P.SR.F~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc10f007, 0x80103007, 0 , 0,
0x0 }, /* P.SR.F~*(7) */
};
NMD::Pool NMD::P_SR[2] = {
{ pool , PP_SR , 4 , 32,
0xfc10f000, 0x80003000, 0 , 0,
0x0 }, /* PP.SR */
{ pool , P_SR_F , 8 , 32,
0xfc10f000, 0x80103000, 0 , 0,
0x0 }, /* P.SR.F */
};
NMD::Pool NMD::P_SLL[5] = {
{ instruction , 0 , 0 , 32,
0xffe0f1ff, 0x8000c000, &NMD::NOP_32_ , 0,
0x0 }, /* NOP[32] */
{ instruction , 0 , 0 , 32,
0xffe0f1ff, 0x8000c003, &NMD::EHB , 0,
0x0 }, /* EHB */
{ instruction , 0 , 0 , 32,
0xffe0f1ff, 0x8000c005, &NMD::PAUSE , 0,
0x0 }, /* PAUSE */
{ instruction , 0 , 0 , 32,
0xffe0f1ff, 0x8000c006, &NMD::SYNC , 0,
0x0 }, /* SYNC */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c000, &NMD::SLL_32_ , 0,
0x0 }, /* SLL[32] */
};
NMD::Pool NMD::P_SHIFT[16] = {
{ pool , P_SLL , 5 , 32,
0xfc00f1e0, 0x8000c000, 0 , 0,
0x0 }, /* P.SLL */
{ reserved_block , 0 , 0 , 32,
0xfc00f1e0, 0x8000c020, 0 , 0,
0x0 }, /* P.SHIFT~*(1) */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c040, &NMD::SRL_32_ , 0,
0x0 }, /* SRL[32] */
{ reserved_block , 0 , 0 , 32,
0xfc00f1e0, 0x8000c060, 0 , 0,
0x0 }, /* P.SHIFT~*(3) */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c080, &NMD::SRA , 0,
0x0 }, /* SRA */
{ reserved_block , 0 , 0 , 32,
0xfc00f1e0, 0x8000c0a0, 0 , 0,
0x0 }, /* P.SHIFT~*(5) */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c0c0, &NMD::ROTR , 0,
0x0 }, /* ROTR */
{ reserved_block , 0 , 0 , 32,
0xfc00f1e0, 0x8000c0e0, 0 , 0,
0x0 }, /* P.SHIFT~*(7) */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c100, &NMD::DSLL , 0,
MIPS64_ }, /* DSLL */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c120, &NMD::DSLL32 , 0,
MIPS64_ }, /* DSLL32 */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c140, &NMD::DSRL , 0,
MIPS64_ }, /* DSRL */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c160, &NMD::DSRL32 , 0,
MIPS64_ }, /* DSRL32 */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c180, &NMD::DSRA , 0,
MIPS64_ }, /* DSRA */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c1a0, &NMD::DSRA32 , 0,
MIPS64_ }, /* DSRA32 */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c1c0, &NMD::DROTR , 0,
MIPS64_ }, /* DROTR */
{ instruction , 0 , 0 , 32,
0xfc00f1e0, 0x8000c1e0, &NMD::DROTR32 , 0,
MIPS64_ }, /* DROTR32 */
};
NMD::Pool NMD::P_ROTX[4] = {
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000d000, &NMD::ROTX , 0,
XMMS_ }, /* ROTX */
{ reserved_block , 0 , 0 , 32,
0xfc00f820, 0x8000d020, 0 , 0,
0x0 }, /* P.ROTX~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc00f820, 0x8000d800, 0 , 0,
0x0 }, /* P.ROTX~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00f820, 0x8000d820, 0 , 0,
0x0 }, /* P.ROTX~*(3) */
};
NMD::Pool NMD::P_INS[4] = {
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000e000, &NMD::INS , 0,
XMMS_ }, /* INS */
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000e020, &NMD::DINSU , 0,
MIPS64_ }, /* DINSU */
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000e800, &NMD::DINSM , 0,
MIPS64_ }, /* DINSM */
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000e820, &NMD::DINS , 0,
MIPS64_ }, /* DINS */
};
NMD::Pool NMD::P_EXT[4] = {
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000f000, &NMD::EXT , 0,
XMMS_ }, /* EXT */
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000f020, &NMD::DEXTU , 0,
MIPS64_ }, /* DEXTU */
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000f800, &NMD::DEXTM , 0,
MIPS64_ }, /* DEXTM */
{ instruction , 0 , 0 , 32,
0xfc00f820, 0x8000f820, &NMD::DEXT , 0,
MIPS64_ }, /* DEXT */
};
NMD::Pool NMD::P_U12[16] = {
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80000000, &NMD::ORI , 0,
0x0 }, /* ORI */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80001000, &NMD::XORI , 0,
0x0 }, /* XORI */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80002000, &NMD::ANDI_32_ , 0,
0x0 }, /* ANDI[32] */
{ pool , P_SR , 2 , 32,
0xfc00f000, 0x80003000, 0 , 0,
0x0 }, /* P.SR */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80004000, &NMD::SLTI , 0,
0x0 }, /* SLTI */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80005000, &NMD::SLTIU , 0,
0x0 }, /* SLTIU */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80006000, &NMD::SEQI , 0,
0x0 }, /* SEQI */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x80007000, 0 , 0,
0x0 }, /* P.U12~*(7) */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80008000, &NMD::ADDIU_NEG_ , 0,
0x0 }, /* ADDIU[NEG] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x80009000, &NMD::DADDIU_U12_ , 0,
MIPS64_ }, /* DADDIU[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8000a000, &NMD::DADDIU_NEG_ , 0,
MIPS64_ }, /* DADDIU[NEG] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8000b000, &NMD::DROTX , 0,
MIPS64_ }, /* DROTX */
{ pool , P_SHIFT , 16 , 32,
0xfc00f000, 0x8000c000, 0 , 0,
0x0 }, /* P.SHIFT */
{ pool , P_ROTX , 4 , 32,
0xfc00f000, 0x8000d000, 0 , 0,
0x0 }, /* P.ROTX */
{ pool , P_INS , 4 , 32,
0xfc00f000, 0x8000e000, 0 , 0,
0x0 }, /* P.INS */
{ pool , P_EXT , 4 , 32,
0xfc00f000, 0x8000f000, 0 , 0,
0x0 }, /* P.EXT */
};
NMD::Pool NMD::RINT_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000020, &NMD::RINT_S , 0,
CP1_ }, /* RINT.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000220, &NMD::RINT_D , 0,
CP1_ }, /* RINT.D */
};
NMD::Pool NMD::ADD_fmt0[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000030, &NMD::ADD_S , 0,
CP1_ }, /* ADD.S */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa0000230, 0 , 0,
CP1_ }, /* ADD.fmt0~*(1) */
};
NMD::Pool NMD::SELEQZ_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000038, &NMD::SELEQZ_S , 0,
CP1_ }, /* SELEQZ.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000238, &NMD::SELEQZ_D , 0,
CP1_ }, /* SELEQZ.D */
};
NMD::Pool NMD::CLASS_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000060, &NMD::CLASS_S , 0,
CP1_ }, /* CLASS.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000260, &NMD::CLASS_D , 0,
CP1_ }, /* CLASS.D */
};
NMD::Pool NMD::SUB_fmt0[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000070, &NMD::SUB_S , 0,
CP1_ }, /* SUB.S */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa0000270, 0 , 0,
CP1_ }, /* SUB.fmt0~*(1) */
};
NMD::Pool NMD::SELNEZ_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000078, &NMD::SELNEZ_S , 0,
CP1_ }, /* SELNEZ.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000278, &NMD::SELNEZ_D , 0,
CP1_ }, /* SELNEZ.D */
};
NMD::Pool NMD::MUL_fmt0[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00000b0, &NMD::MUL_S , 0,
CP1_ }, /* MUL.S */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa00002b0, 0 , 0,
CP1_ }, /* MUL.fmt0~*(1) */
};
NMD::Pool NMD::SEL_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00000b8, &NMD::SEL_S , 0,
CP1_ }, /* SEL.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00002b8, &NMD::SEL_D , 0,
CP1_ }, /* SEL.D */
};
NMD::Pool NMD::DIV_fmt0[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00000f0, &NMD::DIV_S , 0,
CP1_ }, /* DIV.S */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa00002f0, 0 , 0,
CP1_ }, /* DIV.fmt0~*(1) */
};
NMD::Pool NMD::ADD_fmt1[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000130, &NMD::ADD_D , 0,
CP1_ }, /* ADD.D */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa0000330, 0 , 0,
CP1_ }, /* ADD.fmt1~*(1) */
};
NMD::Pool NMD::SUB_fmt1[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa0000170, &NMD::SUB_D , 0,
CP1_ }, /* SUB.D */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa0000370, 0 , 0,
CP1_ }, /* SUB.fmt1~*(1) */
};
NMD::Pool NMD::MUL_fmt1[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00001b0, &NMD::MUL_D , 0,
CP1_ }, /* MUL.D */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa00003b0, 0 , 0,
CP1_ }, /* MUL.fmt1~*(1) */
};
NMD::Pool NMD::MADDF_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00001b8, &NMD::MADDF_S , 0,
CP1_ }, /* MADDF.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00003b8, &NMD::MADDF_D , 0,
CP1_ }, /* MADDF.D */
};
NMD::Pool NMD::DIV_fmt1[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00001f0, &NMD::DIV_D , 0,
CP1_ }, /* DIV.D */
{ reserved_block , 0 , 0 , 32,
0xfc0003ff, 0xa00003f0, 0 , 0,
CP1_ }, /* DIV.fmt1~*(1) */
};
NMD::Pool NMD::MSUBF_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00001f8, &NMD::MSUBF_S , 0,
CP1_ }, /* MSUBF.S */
{ instruction , 0 , 0 , 32,
0xfc0003ff, 0xa00003f8, &NMD::MSUBF_D , 0,
CP1_ }, /* MSUBF.D */
};
NMD::Pool NMD::POOL32F_0[64] = {
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000000, 0 , 0,
CP1_ }, /* POOL32F_0~*(0) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000008, 0 , 0,
CP1_ }, /* POOL32F_0~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000010, 0 , 0,
CP1_ }, /* POOL32F_0~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000018, 0 , 0,
CP1_ }, /* POOL32F_0~*(3) */
{ pool , RINT_fmt , 2 , 32,
0xfc0001ff, 0xa0000020, 0 , 0,
CP1_ }, /* RINT.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000028, 0 , 0,
CP1_ }, /* POOL32F_0~*(5) */
{ pool , ADD_fmt0 , 2 , 32,
0xfc0001ff, 0xa0000030, 0 , 0,
CP1_ }, /* ADD.fmt0 */
{ pool , SELEQZ_fmt , 2 , 32,
0xfc0001ff, 0xa0000038, 0 , 0,
CP1_ }, /* SELEQZ.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000040, 0 , 0,
CP1_ }, /* POOL32F_0~*(8) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000048, 0 , 0,
CP1_ }, /* POOL32F_0~*(9) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000050, 0 , 0,
CP1_ }, /* POOL32F_0~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000058, 0 , 0,
CP1_ }, /* POOL32F_0~*(11) */
{ pool , CLASS_fmt , 2 , 32,
0xfc0001ff, 0xa0000060, 0 , 0,
CP1_ }, /* CLASS.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000068, 0 , 0,
CP1_ }, /* POOL32F_0~*(13) */
{ pool , SUB_fmt0 , 2 , 32,
0xfc0001ff, 0xa0000070, 0 , 0,
CP1_ }, /* SUB.fmt0 */
{ pool , SELNEZ_fmt , 2 , 32,
0xfc0001ff, 0xa0000078, 0 , 0,
CP1_ }, /* SELNEZ.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000080, 0 , 0,
CP1_ }, /* POOL32F_0~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000088, 0 , 0,
CP1_ }, /* POOL32F_0~*(17) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000090, 0 , 0,
CP1_ }, /* POOL32F_0~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000098, 0 , 0,
CP1_ }, /* POOL32F_0~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000a0, 0 , 0,
CP1_ }, /* POOL32F_0~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000a8, 0 , 0,
CP1_ }, /* POOL32F_0~*(21) */
{ pool , MUL_fmt0 , 2 , 32,
0xfc0001ff, 0xa00000b0, 0 , 0,
CP1_ }, /* MUL.fmt0 */
{ pool , SEL_fmt , 2 , 32,
0xfc0001ff, 0xa00000b8, 0 , 0,
CP1_ }, /* SEL.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000c0, 0 , 0,
CP1_ }, /* POOL32F_0~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000c8, 0 , 0,
CP1_ }, /* POOL32F_0~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000d0, 0 , 0,
CP1_ }, /* POOL32F_0~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000d8, 0 , 0,
CP1_ }, /* POOL32F_0~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000e0, 0 , 0,
CP1_ }, /* POOL32F_0~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000e8, 0 , 0,
CP1_ }, /* POOL32F_0~*(29) */
{ pool , DIV_fmt0 , 2 , 32,
0xfc0001ff, 0xa00000f0, 0 , 0,
CP1_ }, /* DIV.fmt0 */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00000f8, 0 , 0,
CP1_ }, /* POOL32F_0~*(31) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000100, 0 , 0,
CP1_ }, /* POOL32F_0~*(32) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000108, 0 , 0,
CP1_ }, /* POOL32F_0~*(33) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000110, 0 , 0,
CP1_ }, /* POOL32F_0~*(34) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000118, 0 , 0,
CP1_ }, /* POOL32F_0~*(35) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000120, 0 , 0,
CP1_ }, /* POOL32F_0~*(36) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000128, 0 , 0,
CP1_ }, /* POOL32F_0~*(37) */
{ pool , ADD_fmt1 , 2 , 32,
0xfc0001ff, 0xa0000130, 0 , 0,
CP1_ }, /* ADD.fmt1 */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000138, 0 , 0,
CP1_ }, /* POOL32F_0~*(39) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000140, 0 , 0,
CP1_ }, /* POOL32F_0~*(40) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000148, 0 , 0,
CP1_ }, /* POOL32F_0~*(41) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000150, 0 , 0,
CP1_ }, /* POOL32F_0~*(42) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000158, 0 , 0,
CP1_ }, /* POOL32F_0~*(43) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000160, 0 , 0,
CP1_ }, /* POOL32F_0~*(44) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000168, 0 , 0,
CP1_ }, /* POOL32F_0~*(45) */
{ pool , SUB_fmt1 , 2 , 32,
0xfc0001ff, 0xa0000170, 0 , 0,
CP1_ }, /* SUB.fmt1 */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000178, 0 , 0,
CP1_ }, /* POOL32F_0~*(47) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000180, 0 , 0,
CP1_ }, /* POOL32F_0~*(48) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000188, 0 , 0,
CP1_ }, /* POOL32F_0~*(49) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000190, 0 , 0,
CP1_ }, /* POOL32F_0~*(50) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa0000198, 0 , 0,
CP1_ }, /* POOL32F_0~*(51) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001a0, 0 , 0,
CP1_ }, /* POOL32F_0~*(52) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001a8, 0 , 0,
CP1_ }, /* POOL32F_0~*(53) */
{ pool , MUL_fmt1 , 2 , 32,
0xfc0001ff, 0xa00001b0, 0 , 0,
CP1_ }, /* MUL.fmt1 */
{ pool , MADDF_fmt , 2 , 32,
0xfc0001ff, 0xa00001b8, 0 , 0,
CP1_ }, /* MADDF.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001c0, 0 , 0,
CP1_ }, /* POOL32F_0~*(56) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001c8, 0 , 0,
CP1_ }, /* POOL32F_0~*(57) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001d0, 0 , 0,
CP1_ }, /* POOL32F_0~*(58) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001d8, 0 , 0,
CP1_ }, /* POOL32F_0~*(59) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001e0, 0 , 0,
CP1_ }, /* POOL32F_0~*(60) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xa00001e8, 0 , 0,
CP1_ }, /* POOL32F_0~*(61) */
{ pool , DIV_fmt1 , 2 , 32,
0xfc0001ff, 0xa00001f0, 0 , 0,
CP1_ }, /* DIV.fmt1 */
{ pool , MSUBF_fmt , 2 , 32,
0xfc0001ff, 0xa00001f8, 0 , 0,
CP1_ }, /* MSUBF.fmt */
};
NMD::Pool NMD::MIN_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa0000003, &NMD::MIN_S , 0,
CP1_ }, /* MIN.S */
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa0000203, &NMD::MIN_D , 0,
CP1_ }, /* MIN.D */
};
NMD::Pool NMD::MAX_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa000000b, &NMD::MAX_S , 0,
CP1_ }, /* MAX.S */
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa000020b, &NMD::MAX_D , 0,
CP1_ }, /* MAX.D */
};
NMD::Pool NMD::MINA_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa0000023, &NMD::MINA_S , 0,
CP1_ }, /* MINA.S */
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa0000223, &NMD::MINA_D , 0,
CP1_ }, /* MINA.D */
};
NMD::Pool NMD::MAXA_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa000002b, &NMD::MAXA_S , 0,
CP1_ }, /* MAXA.S */
{ instruction , 0 , 0 , 32,
0xfc00023f, 0xa000022b, &NMD::MAXA_D , 0,
CP1_ }, /* MAXA.D */
};
NMD::Pool NMD::CVT_L_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000013b, &NMD::CVT_L_S , 0,
CP1_ }, /* CVT.L.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000413b, &NMD::CVT_L_D , 0,
CP1_ }, /* CVT.L.D */
};
NMD::Pool NMD::RSQRT_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000023b, &NMD::RSQRT_S , 0,
CP1_ }, /* RSQRT.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000423b, &NMD::RSQRT_D , 0,
CP1_ }, /* RSQRT.D */
};
NMD::Pool NMD::FLOOR_L_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000033b, &NMD::FLOOR_L_S , 0,
CP1_ }, /* FLOOR.L.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000433b, &NMD::FLOOR_L_D , 0,
CP1_ }, /* FLOOR.L.D */
};
NMD::Pool NMD::CVT_W_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000093b, &NMD::CVT_W_S , 0,
CP1_ }, /* CVT.W.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000493b, &NMD::CVT_W_D , 0,
CP1_ }, /* CVT.W.D */
};
NMD::Pool NMD::SQRT_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0000a3b, &NMD::SQRT_S , 0,
CP1_ }, /* SQRT.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0004a3b, &NMD::SQRT_D , 0,
CP1_ }, /* SQRT.D */
};
NMD::Pool NMD::FLOOR_W_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0000b3b, &NMD::FLOOR_W_S , 0,
CP1_ }, /* FLOOR.W.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0004b3b, &NMD::FLOOR_W_D , 0,
CP1_ }, /* FLOOR.W.D */
};
NMD::Pool NMD::RECIP_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000123b, &NMD::RECIP_S , 0,
CP1_ }, /* RECIP.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000523b, &NMD::RECIP_D , 0,
CP1_ }, /* RECIP.D */
};
NMD::Pool NMD::CEIL_L_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000133b, &NMD::CEIL_L_S , 0,
CP1_ }, /* CEIL.L.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000533b, &NMD::CEIL_L_D , 0,
CP1_ }, /* CEIL.L.D */
};
NMD::Pool NMD::CEIL_W_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0001b3b, &NMD::CEIL_W_S , 0,
CP1_ }, /* CEIL.W.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0005b3b, &NMD::CEIL_W_D , 0,
CP1_ }, /* CEIL.W.D */
};
NMD::Pool NMD::TRUNC_L_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000233b, &NMD::TRUNC_L_S , 0,
CP1_ }, /* TRUNC.L.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000633b, &NMD::TRUNC_L_D , 0,
CP1_ }, /* TRUNC.L.D */
};
NMD::Pool NMD::TRUNC_W_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0002b3b, &NMD::TRUNC_W_S , 0,
CP1_ }, /* TRUNC.W.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0006b3b, &NMD::TRUNC_W_D , 0,
CP1_ }, /* TRUNC.W.D */
};
NMD::Pool NMD::ROUND_L_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000333b, &NMD::ROUND_L_S , 0,
CP1_ }, /* ROUND.L.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000733b, &NMD::ROUND_L_D , 0,
CP1_ }, /* ROUND.L.D */
};
NMD::Pool NMD::ROUND_W_fmt[2] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0003b3b, &NMD::ROUND_W_S , 0,
CP1_ }, /* ROUND.W.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0007b3b, &NMD::ROUND_W_D , 0,
CP1_ }, /* ROUND.W.D */
};
NMD::Pool NMD::POOL32Fxf_0[64] = {
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000003b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(0) */
{ pool , CVT_L_fmt , 2 , 32,
0xfc003fff, 0xa000013b, 0 , 0,
CP1_ }, /* CVT.L.fmt */
{ pool , RSQRT_fmt , 2 , 32,
0xfc003fff, 0xa000023b, 0 , 0,
CP1_ }, /* RSQRT.fmt */
{ pool , FLOOR_L_fmt , 2 , 32,
0xfc003fff, 0xa000033b, 0 , 0,
CP1_ }, /* FLOOR.L.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000043b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000053b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000063b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000073b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000083b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(8) */
{ pool , CVT_W_fmt , 2 , 32,
0xfc003fff, 0xa000093b, 0 , 0,
CP1_ }, /* CVT.W.fmt */
{ pool , SQRT_fmt , 2 , 32,
0xfc003fff, 0xa0000a3b, 0 , 0,
CP1_ }, /* SQRT.fmt */
{ pool , FLOOR_W_fmt , 2 , 32,
0xfc003fff, 0xa0000b3b, 0 , 0,
CP1_ }, /* FLOOR.W.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0000c3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0000d3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0000e3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0000f3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(15) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000103b, &NMD::CFC1 , 0,
CP1_ }, /* CFC1 */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000113b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(17) */
{ pool , RECIP_fmt , 2 , 32,
0xfc003fff, 0xa000123b, 0 , 0,
CP1_ }, /* RECIP.fmt */
{ pool , CEIL_L_fmt , 2 , 32,
0xfc003fff, 0xa000133b, 0 , 0,
CP1_ }, /* CEIL.L.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000143b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000153b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000163b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000173b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(23) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000183b, &NMD::CTC1 , 0,
CP1_ }, /* CTC1 */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000193b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0001a3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(26) */
{ pool , CEIL_W_fmt , 2 , 32,
0xfc003fff, 0xa0001b3b, 0 , 0,
CP1_ }, /* CEIL.W.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0001c3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0001d3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0001e3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0001f3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(31) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000203b, &NMD::MFC1 , 0,
CP1_ }, /* MFC1 */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000213b, &NMD::CVT_S_PL , 0,
CP1_ }, /* CVT.S.PL */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000223b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(34) */
{ pool , TRUNC_L_fmt , 2 , 32,
0xfc003fff, 0xa000233b, 0 , 0,
CP1_ }, /* TRUNC.L.fmt */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000243b, &NMD::DMFC1 , 0,
CP1_ | MIPS64_ }, /* DMFC1 */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000253b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(37) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000263b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(38) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000273b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(39) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000283b, &NMD::MTC1 , 0,
CP1_ }, /* MTC1 */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000293b, &NMD::CVT_S_PU , 0,
CP1_ }, /* CVT.S.PU */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0002a3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(42) */
{ pool , TRUNC_W_fmt , 2 , 32,
0xfc003fff, 0xa0002b3b, 0 , 0,
CP1_ }, /* TRUNC.W.fmt */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa0002c3b, &NMD::DMTC1 , 0,
CP1_ | MIPS64_ }, /* DMTC1 */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0002d3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(45) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0002e3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(46) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0002f3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(47) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000303b, &NMD::MFHC1 , 0,
CP1_ }, /* MFHC1 */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000313b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(49) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000323b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(50) */
{ pool , ROUND_L_fmt , 2 , 32,
0xfc003fff, 0xa000333b, 0 , 0,
CP1_ }, /* ROUND.L.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000343b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(52) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000353b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(53) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000363b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(54) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000373b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(55) */
{ instruction , 0 , 0 , 32,
0xfc003fff, 0xa000383b, &NMD::MTHC1 , 0,
CP1_ }, /* MTHC1 */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa000393b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(57) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0003a3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(58) */
{ pool , ROUND_W_fmt , 2 , 32,
0xfc003fff, 0xa0003b3b, 0 , 0,
CP1_ }, /* ROUND.W.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0003c3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(60) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0003d3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(61) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0003e3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(62) */
{ reserved_block , 0 , 0 , 32,
0xfc003fff, 0xa0003f3b, 0 , 0,
CP1_ }, /* POOL32Fxf_0~*(63) */
};
NMD::Pool NMD::MOV_fmt[4] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000007b, &NMD::MOV_S , 0,
CP1_ }, /* MOV.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000207b, &NMD::MOV_D , 0,
CP1_ }, /* MOV.D */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa000407b, 0 , 0,
CP1_ }, /* MOV.fmt~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa000607b, 0 , 0,
CP1_ }, /* MOV.fmt~*(3) */
};
NMD::Pool NMD::ABS_fmt[4] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000037b, &NMD::ABS_S , 0,
CP1_ }, /* ABS.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000237b, &NMD::ABS_D , 0,
CP1_ }, /* ABS.D */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa000437b, 0 , 0,
CP1_ }, /* ABS.fmt~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa000637b, 0 , 0,
CP1_ }, /* ABS.fmt~*(3) */
};
NMD::Pool NMD::NEG_fmt[4] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0000b7b, &NMD::NEG_S , 0,
CP1_ }, /* NEG.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0002b7b, &NMD::NEG_D , 0,
CP1_ }, /* NEG.D */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa0004b7b, 0 , 0,
CP1_ }, /* NEG.fmt~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa0006b7b, 0 , 0,
CP1_ }, /* NEG.fmt~*(3) */
};
NMD::Pool NMD::CVT_D_fmt[4] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000137b, &NMD::CVT_D_S , 0,
CP1_ }, /* CVT.D.S */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000337b, &NMD::CVT_D_W , 0,
CP1_ }, /* CVT.D.W */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa000537b, &NMD::CVT_D_L , 0,
CP1_ }, /* CVT.D.L */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa000737b, 0 , 0,
CP1_ }, /* CVT.D.fmt~*(3) */
};
NMD::Pool NMD::CVT_S_fmt[4] = {
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0001b7b, &NMD::CVT_S_D , 0,
CP1_ }, /* CVT.S.D */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0003b7b, &NMD::CVT_S_W , 0,
CP1_ }, /* CVT.S.W */
{ instruction , 0 , 0 , 32,
0xfc007fff, 0xa0005b7b, &NMD::CVT_S_L , 0,
CP1_ }, /* CVT.S.L */
{ reserved_block , 0 , 0 , 32,
0xfc007fff, 0xa0007b7b, 0 , 0,
CP1_ }, /* CVT.S.fmt~*(3) */
};
NMD::Pool NMD::POOL32Fxf_1[32] = {
{ pool , MOV_fmt , 4 , 32,
0xfc001fff, 0xa000007b, 0 , 0,
CP1_ }, /* MOV.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000017b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000027b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(2) */
{ pool , ABS_fmt , 4 , 32,
0xfc001fff, 0xa000037b, 0 , 0,
CP1_ }, /* ABS.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000047b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000057b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000067b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000077b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000087b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(8) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000097b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(9) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0000a7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(10) */
{ pool , NEG_fmt , 4 , 32,
0xfc001fff, 0xa0000b7b, 0 , 0,
CP1_ }, /* NEG.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0000c7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0000d7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0000e7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0000f7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(15) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000107b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000117b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(17) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000127b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(18) */
{ pool , CVT_D_fmt , 4 , 32,
0xfc001fff, 0xa000137b, 0 , 0,
CP1_ }, /* CVT.D.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000147b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000157b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000167b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000177b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000187b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa000197b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0001a7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(26) */
{ pool , CVT_S_fmt , 4 , 32,
0xfc001fff, 0xa0001b7b, 0 , 0,
CP1_ }, /* CVT.S.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0001c7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0001d7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0001e7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc001fff, 0xa0001f7b, 0 , 0,
CP1_ }, /* POOL32Fxf_1~*(31) */
};
NMD::Pool NMD::POOL32Fxf[4] = {
{ pool , POOL32Fxf_0 , 64 , 32,
0xfc0000ff, 0xa000003b, 0 , 0,
CP1_ }, /* POOL32Fxf_0 */
{ pool , POOL32Fxf_1 , 32 , 32,
0xfc0000ff, 0xa000007b, 0 , 0,
CP1_ }, /* POOL32Fxf_1 */
{ reserved_block , 0 , 0 , 32,
0xfc0000ff, 0xa00000bb, 0 , 0,
CP1_ }, /* POOL32Fxf~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc0000ff, 0xa00000fb, 0 , 0,
CP1_ }, /* POOL32Fxf~*(3) */
};
NMD::Pool NMD::POOL32F_3[8] = {
{ pool , MIN_fmt , 2 , 32,
0xfc00003f, 0xa0000003, 0 , 0,
CP1_ }, /* MIN.fmt */
{ pool , MAX_fmt , 2 , 32,
0xfc00003f, 0xa000000b, 0 , 0,
CP1_ }, /* MAX.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa0000013, 0 , 0,
CP1_ }, /* POOL32F_3~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa000001b, 0 , 0,
CP1_ }, /* POOL32F_3~*(3) */
{ pool , MINA_fmt , 2 , 32,
0xfc00003f, 0xa0000023, 0 , 0,
CP1_ }, /* MINA.fmt */
{ pool , MAXA_fmt , 2 , 32,
0xfc00003f, 0xa000002b, 0 , 0,
CP1_ }, /* MAXA.fmt */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa0000033, 0 , 0,
CP1_ }, /* POOL32F_3~*(6) */
{ pool , POOL32Fxf , 4 , 32,
0xfc00003f, 0xa000003b, 0 , 0,
CP1_ }, /* POOL32Fxf */
};
NMD::Pool NMD::CMP_condn_S[32] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000005, &NMD::CMP_AF_S , 0,
CP1_ }, /* CMP.AF.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000045, &NMD::CMP_UN_S , 0,
CP1_ }, /* CMP.UN.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000085, &NMD::CMP_EQ_S , 0,
CP1_ }, /* CMP.EQ.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00000c5, &NMD::CMP_UEQ_S , 0,
CP1_ }, /* CMP.UEQ.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000105, &NMD::CMP_LT_S , 0,
CP1_ }, /* CMP.LT.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000145, &NMD::CMP_ULT_S , 0,
CP1_ }, /* CMP.ULT.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000185, &NMD::CMP_LE_S , 0,
CP1_ }, /* CMP.LE.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00001c5, &NMD::CMP_ULE_S , 0,
CP1_ }, /* CMP.ULE.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000205, &NMD::CMP_SAF_S , 0,
CP1_ }, /* CMP.SAF.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000245, &NMD::CMP_SUN_S , 0,
CP1_ }, /* CMP.SUN.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000285, &NMD::CMP_SEQ_S , 0,
CP1_ }, /* CMP.SEQ.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00002c5, &NMD::CMP_SUEQ_S , 0,
CP1_ }, /* CMP.SUEQ.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000305, &NMD::CMP_SLT_S , 0,
CP1_ }, /* CMP.SLT.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000345, &NMD::CMP_SULT_S , 0,
CP1_ }, /* CMP.SULT.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000385, &NMD::CMP_SLE_S , 0,
CP1_ }, /* CMP.SLE.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00003c5, &NMD::CMP_SULE_S , 0,
CP1_ }, /* CMP.SULE.S */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000405, 0 , 0,
CP1_ }, /* CMP.condn.S~*(16) */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000445, &NMD::CMP_OR_S , 0,
CP1_ }, /* CMP.OR.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000485, &NMD::CMP_UNE_S , 0,
CP1_ }, /* CMP.UNE.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00004c5, &NMD::CMP_NE_S , 0,
CP1_ }, /* CMP.NE.S */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000505, 0 , 0,
CP1_ }, /* CMP.condn.S~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000545, 0 , 0,
CP1_ }, /* CMP.condn.S~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000585, 0 , 0,
CP1_ }, /* CMP.condn.S~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa00005c5, 0 , 0,
CP1_ }, /* CMP.condn.S~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000605, 0 , 0,
CP1_ }, /* CMP.condn.S~*(24) */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000645, &NMD::CMP_SOR_S , 0,
CP1_ }, /* CMP.SOR.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000685, &NMD::CMP_SUNE_S , 0,
CP1_ }, /* CMP.SUNE.S */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00006c5, &NMD::CMP_SNE_S , 0,
CP1_ }, /* CMP.SNE.S */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000705, 0 , 0,
CP1_ }, /* CMP.condn.S~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000745, 0 , 0,
CP1_ }, /* CMP.condn.S~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000785, 0 , 0,
CP1_ }, /* CMP.condn.S~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa00007c5, 0 , 0,
CP1_ }, /* CMP.condn.S~*(31) */
};
NMD::Pool NMD::CMP_condn_D[32] = {
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000015, &NMD::CMP_AF_D , 0,
CP1_ }, /* CMP.AF.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000055, &NMD::CMP_UN_D , 0,
CP1_ }, /* CMP.UN.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000095, &NMD::CMP_EQ_D , 0,
CP1_ }, /* CMP.EQ.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00000d5, &NMD::CMP_UEQ_D , 0,
CP1_ }, /* CMP.UEQ.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000115, &NMD::CMP_LT_D , 0,
CP1_ }, /* CMP.LT.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000155, &NMD::CMP_ULT_D , 0,
CP1_ }, /* CMP.ULT.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000195, &NMD::CMP_LE_D , 0,
CP1_ }, /* CMP.LE.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00001d5, &NMD::CMP_ULE_D , 0,
CP1_ }, /* CMP.ULE.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000215, &NMD::CMP_SAF_D , 0,
CP1_ }, /* CMP.SAF.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000255, &NMD::CMP_SUN_D , 0,
CP1_ }, /* CMP.SUN.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000295, &NMD::CMP_SEQ_D , 0,
CP1_ }, /* CMP.SEQ.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00002d5, &NMD::CMP_SUEQ_D , 0,
CP1_ }, /* CMP.SUEQ.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000315, &NMD::CMP_SLT_D , 0,
CP1_ }, /* CMP.SLT.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000355, &NMD::CMP_SULT_D , 0,
CP1_ }, /* CMP.SULT.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000395, &NMD::CMP_SLE_D , 0,
CP1_ }, /* CMP.SLE.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00003d5, &NMD::CMP_SULE_D , 0,
CP1_ }, /* CMP.SULE.D */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000415, 0 , 0,
CP1_ }, /* CMP.condn.D~*(16) */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000455, &NMD::CMP_OR_D , 0,
CP1_ }, /* CMP.OR.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000495, &NMD::CMP_UNE_D , 0,
CP1_ }, /* CMP.UNE.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00004d5, &NMD::CMP_NE_D , 0,
CP1_ }, /* CMP.NE.D */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000515, 0 , 0,
CP1_ }, /* CMP.condn.D~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000555, 0 , 0,
CP1_ }, /* CMP.condn.D~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000595, 0 , 0,
CP1_ }, /* CMP.condn.D~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa00005d5, 0 , 0,
CP1_ }, /* CMP.condn.D~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000615, 0 , 0,
CP1_ }, /* CMP.condn.D~*(24) */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000655, &NMD::CMP_SOR_D , 0,
CP1_ }, /* CMP.SOR.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa0000695, &NMD::CMP_SUNE_D , 0,
CP1_ }, /* CMP.SUNE.D */
{ instruction , 0 , 0 , 32,
0xfc0007ff, 0xa00006d5, &NMD::CMP_SNE_D , 0,
CP1_ }, /* CMP.SNE.D */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000715, 0 , 0,
CP1_ }, /* CMP.condn.D~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000755, 0 , 0,
CP1_ }, /* CMP.condn.D~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa0000795, 0 , 0,
CP1_ }, /* CMP.condn.D~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc0007ff, 0xa00007d5, 0 , 0,
CP1_ }, /* CMP.condn.D~*(31) */
};
NMD::Pool NMD::POOL32F_5[8] = {
{ pool , CMP_condn_S , 32 , 32,
0xfc00003f, 0xa0000005, 0 , 0,
CP1_ }, /* CMP.condn.S */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa000000d, 0 , 0,
CP1_ }, /* POOL32F_5~*(1) */
{ pool , CMP_condn_D , 32 , 32,
0xfc00003f, 0xa0000015, 0 , 0,
CP1_ }, /* CMP.condn.D */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa000001d, 0 , 0,
CP1_ }, /* POOL32F_5~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa0000025, 0 , 0,
CP1_ }, /* POOL32F_5~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa000002d, 0 , 0,
CP1_ }, /* POOL32F_5~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa0000035, 0 , 0,
CP1_ }, /* POOL32F_5~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xa000003d, 0 , 0,
CP1_ }, /* POOL32F_5~*(7) */
};
NMD::Pool NMD::POOL32F[8] = {
{ pool , POOL32F_0 , 64 , 32,
0xfc000007, 0xa0000000, 0 , 0,
CP1_ }, /* POOL32F_0 */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xa0000001, 0 , 0,
CP1_ }, /* POOL32F~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xa0000002, 0 , 0,
CP1_ }, /* POOL32F~*(2) */
{ pool , POOL32F_3 , 8 , 32,
0xfc000007, 0xa0000003, 0 , 0,
CP1_ }, /* POOL32F_3 */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xa0000004, 0 , 0,
CP1_ }, /* POOL32F~*(4) */
{ pool , POOL32F_5 , 8 , 32,
0xfc000007, 0xa0000005, 0 , 0,
CP1_ }, /* POOL32F_5 */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xa0000006, 0 , 0,
CP1_ }, /* POOL32F~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xa0000007, 0 , 0,
CP1_ }, /* POOL32F~*(7) */
};
NMD::Pool NMD::POOL32S_0[64] = {
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000000, 0 , 0,
0x0 }, /* POOL32S_0~*(0) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000008, &NMD::DLSA , 0,
MIPS64_ }, /* DLSA */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000010, &NMD::DSLLV , 0,
MIPS64_ }, /* DSLLV */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000018, &NMD::DMUL , 0,
MIPS64_ }, /* DMUL */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000020, 0 , 0,
0x0 }, /* POOL32S_0~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000028, 0 , 0,
0x0 }, /* POOL32S_0~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000030, 0 , 0,
0x0 }, /* POOL32S_0~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000038, 0 , 0,
0x0 }, /* POOL32S_0~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000040, 0 , 0,
0x0 }, /* POOL32S_0~*(8) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000048, 0 , 0,
0x0 }, /* POOL32S_0~*(9) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000050, &NMD::DSRLV , 0,
MIPS64_ }, /* DSRLV */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000058, &NMD::DMUH , 0,
MIPS64_ }, /* DMUH */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000060, 0 , 0,
0x0 }, /* POOL32S_0~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000068, 0 , 0,
0x0 }, /* POOL32S_0~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000070, 0 , 0,
0x0 }, /* POOL32S_0~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000078, 0 , 0,
0x0 }, /* POOL32S_0~*(15) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000080, 0 , 0,
0x0 }, /* POOL32S_0~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000088, 0 , 0,
0x0 }, /* POOL32S_0~*(17) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000090, &NMD::DSRAV , 0,
MIPS64_ }, /* DSRAV */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000098, &NMD::DMULU , 0,
MIPS64_ }, /* DMULU */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000a0, 0 , 0,
0x0 }, /* POOL32S_0~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000a8, 0 , 0,
0x0 }, /* POOL32S_0~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000b0, 0 , 0,
0x0 }, /* POOL32S_0~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000b8, 0 , 0,
0x0 }, /* POOL32S_0~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000c0, 0 , 0,
0x0 }, /* POOL32S_0~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000c8, 0 , 0,
0x0 }, /* POOL32S_0~*(25) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc00000d0, &NMD::DROTRV , 0,
MIPS64_ }, /* DROTRV */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc00000d8, &NMD::DMUHU , 0,
MIPS64_ }, /* DMUHU */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000e0, 0 , 0,
0x0 }, /* POOL32S_0~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000e8, 0 , 0,
0x0 }, /* POOL32S_0~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000f0, 0 , 0,
0x0 }, /* POOL32S_0~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000f8, 0 , 0,
0x0 }, /* POOL32S_0~*(31) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000100, 0 , 0,
0x0 }, /* POOL32S_0~*(32) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000108, 0 , 0,
0x0 }, /* POOL32S_0~*(33) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000110, &NMD::DADD , 0,
MIPS64_ }, /* DADD */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000118, &NMD::DDIV , 0,
MIPS64_ }, /* DDIV */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000120, 0 , 0,
0x0 }, /* POOL32S_0~*(36) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000128, 0 , 0,
0x0 }, /* POOL32S_0~*(37) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000130, 0 , 0,
0x0 }, /* POOL32S_0~*(38) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000138, 0 , 0,
0x0 }, /* POOL32S_0~*(39) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000140, 0 , 0,
0x0 }, /* POOL32S_0~*(40) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000148, 0 , 0,
0x0 }, /* POOL32S_0~*(41) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000150, &NMD::DADDU , 0,
MIPS64_ }, /* DADDU */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000158, &NMD::DMOD , 0,
MIPS64_ }, /* DMOD */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000160, 0 , 0,
0x0 }, /* POOL32S_0~*(44) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000168, 0 , 0,
0x0 }, /* POOL32S_0~*(45) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000170, 0 , 0,
0x0 }, /* POOL32S_0~*(46) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000178, 0 , 0,
0x0 }, /* POOL32S_0~*(47) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000180, 0 , 0,
0x0 }, /* POOL32S_0~*(48) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc0000188, 0 , 0,
0x0 }, /* POOL32S_0~*(49) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000190, &NMD::DSUB , 0,
MIPS64_ }, /* DSUB */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc0000198, &NMD::DDIVU , 0,
MIPS64_ }, /* DDIVU */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001a0, 0 , 0,
0x0 }, /* POOL32S_0~*(52) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001a8, 0 , 0,
0x0 }, /* POOL32S_0~*(53) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001b0, 0 , 0,
0x0 }, /* POOL32S_0~*(54) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001b8, 0 , 0,
0x0 }, /* POOL32S_0~*(55) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001c0, 0 , 0,
0x0 }, /* POOL32S_0~*(56) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001c8, 0 , 0,
0x0 }, /* POOL32S_0~*(57) */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc00001d0, &NMD::DSUBU , 0,
MIPS64_ }, /* DSUBU */
{ instruction , 0 , 0 , 32,
0xfc0001ff, 0xc00001d8, &NMD::DMODU , 0,
MIPS64_ }, /* DMODU */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001e0, 0 , 0,
0x0 }, /* POOL32S_0~*(60) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001e8, 0 , 0,
0x0 }, /* POOL32S_0~*(61) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001f0, 0 , 0,
0x0 }, /* POOL32S_0~*(62) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001f8, 0 , 0,
0x0 }, /* POOL32S_0~*(63) */
};
NMD::Pool NMD::POOL32Sxf_4[128] = {
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000013c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(0) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000033c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000053c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000073c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000093c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0000b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0000d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0000f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000113c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(8) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000133c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(9) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000153c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000173c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(11) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000193c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0001b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0001d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0001f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(15) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000213c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000233c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(17) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000253c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000273c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000293c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0002b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0002d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0002f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000313c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000333c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000353c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000373c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000393c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0003b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0003d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0003f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(31) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000413c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(32) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000433c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(33) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000453c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(34) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000473c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(35) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000493c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(36) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0xc0004b3c, &NMD::DCLO , 0,
MIPS64_ }, /* DCLO */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0004d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(38) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0004f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(39) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000513c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(40) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000533c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(41) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000553c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(42) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000573c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(43) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000593c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(44) */
{ instruction , 0 , 0 , 32,
0xfc00ffff, 0xc0005b3c, &NMD::DCLZ , 0,
MIPS64_ }, /* DCLZ */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0005d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(46) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0005f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(47) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000613c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(48) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000633c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(49) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000653c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(50) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000673c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(51) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000693c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(52) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0006b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(53) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0006d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(54) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0006f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(55) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000713c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(56) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000733c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(57) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000753c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(58) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000773c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(59) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000793c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(60) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0007b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(61) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0007d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(62) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0007f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(63) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000813c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(64) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000833c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(65) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000853c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(66) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000873c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(67) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000893c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(68) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0008b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(69) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0008d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(70) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0008f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(71) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000913c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(72) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000933c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(73) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000953c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(74) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000973c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(75) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000993c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(76) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0009b3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(77) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0009d3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(78) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc0009f3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(79) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000a13c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(80) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000a33c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(81) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000a53c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(82) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000a73c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(83) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000a93c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(84) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000ab3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(85) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000ad3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(86) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000af3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(87) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000b13c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(88) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000b33c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(89) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000b53c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(90) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000b73c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(91) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000b93c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(92) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000bb3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(93) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000bd3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(94) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000bf3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(95) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000c13c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(96) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000c33c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(97) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000c53c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(98) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000c73c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(99) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000c93c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(100) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000cb3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(101) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000cd3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(102) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000cf3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(103) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000d13c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(104) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000d33c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(105) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000d53c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(106) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000d73c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(107) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000d93c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(108) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000db3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(109) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000dd3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(110) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000df3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(111) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000e13c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(112) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000e33c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(113) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000e53c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(114) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000e73c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(115) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000e93c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(116) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000eb3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(117) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000ed3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(118) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000ef3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(119) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000f13c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(120) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000f33c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(121) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000f53c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(122) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000f73c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(123) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000f93c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(124) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000fb3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(125) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000fd3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(126) */
{ reserved_block , 0 , 0 , 32,
0xfc00ffff, 0xc000ff3c, 0 , 0,
0x0 }, /* POOL32Sxf_4~*(127) */
};
NMD::Pool NMD::POOL32Sxf[8] = {
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc000003c, 0 , 0,
0x0 }, /* POOL32Sxf~*(0) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc000007c, 0 , 0,
0x0 }, /* POOL32Sxf~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000bc, 0 , 0,
0x0 }, /* POOL32Sxf~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00000fc, 0 , 0,
0x0 }, /* POOL32Sxf~*(3) */
{ pool , POOL32Sxf_4 , 128 , 32,
0xfc0001ff, 0xc000013c, 0 , 0,
0x0 }, /* POOL32Sxf_4 */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc000017c, 0 , 0,
0x0 }, /* POOL32Sxf~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001bc, 0 , 0,
0x0 }, /* POOL32Sxf~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc0001ff, 0xc00001fc, 0 , 0,
0x0 }, /* POOL32Sxf~*(7) */
};
NMD::Pool NMD::POOL32S_4[8] = {
{ instruction , 0 , 0 , 32,
0xfc00003f, 0xc0000004, &NMD::EXTD , 0,
MIPS64_ }, /* EXTD */
{ instruction , 0 , 0 , 32,
0xfc00003f, 0xc000000c, &NMD::EXTD32 , 0,
MIPS64_ }, /* EXTD32 */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xc0000014, 0 , 0,
0x0 }, /* POOL32S_4~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xc000001c, 0 , 0,
0x0 }, /* POOL32S_4~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xc0000024, 0 , 0,
0x0 }, /* POOL32S_4~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xc000002c, 0 , 0,
0x0 }, /* POOL32S_4~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00003f, 0xc0000034, 0 , 0,
0x0 }, /* POOL32S_4~*(6) */
{ pool , POOL32Sxf , 8 , 32,
0xfc00003f, 0xc000003c, 0 , 0,
0x0 }, /* POOL32Sxf */
};
NMD::Pool NMD::POOL32S[8] = {
{ pool , POOL32S_0 , 64 , 32,
0xfc000007, 0xc0000000, 0 , 0,
0x0 }, /* POOL32S_0 */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xc0000001, 0 , 0,
0x0 }, /* POOL32S~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xc0000002, 0 , 0,
0x0 }, /* POOL32S~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xc0000003, 0 , 0,
0x0 }, /* POOL32S~*(3) */
{ pool , POOL32S_4 , 8 , 32,
0xfc000007, 0xc0000004, 0 , 0,
0x0 }, /* POOL32S_4 */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xc0000005, 0 , 0,
0x0 }, /* POOL32S~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xc0000006, 0 , 0,
0x0 }, /* POOL32S~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc000007, 0xc0000007, 0 , 0,
0x0 }, /* POOL32S~*(7) */
};
NMD::Pool NMD::P_LUI[2] = {
{ instruction , 0 , 0 , 32,
0xfc000002, 0xe0000000, &NMD::LUI , 0,
0x0 }, /* LUI */
{ instruction , 0 , 0 , 32,
0xfc000002, 0xe0000002, &NMD::ALUIPC , 0,
0x0 }, /* ALUIPC */
};
NMD::Pool NMD::P_GP_LH[2] = {
{ instruction , 0 , 0 , 32,
0xfc1c0001, 0x44100000, &NMD::LH_GP_ , 0,
0x0 }, /* LH[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0001, 0x44100001, &NMD::LHU_GP_ , 0,
0x0 }, /* LHU[GP] */
};
NMD::Pool NMD::P_GP_SH[2] = {
{ instruction , 0 , 0 , 32,
0xfc1c0001, 0x44140000, &NMD::SH_GP_ , 0,
0x0 }, /* SH[GP] */
{ reserved_block , 0 , 0 , 32,
0xfc1c0001, 0x44140001, 0 , 0,
0x0 }, /* P.GP.SH~*(1) */
};
NMD::Pool NMD::P_GP_CP1[4] = {
{ instruction , 0 , 0 , 32,
0xfc1c0003, 0x44180000, &NMD::LWC1_GP_ , 0,
CP1_ }, /* LWC1[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0003, 0x44180001, &NMD::SWC1_GP_ , 0,
CP1_ }, /* SWC1[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0003, 0x44180002, &NMD::LDC1_GP_ , 0,
CP1_ }, /* LDC1[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0003, 0x44180003, &NMD::SDC1_GP_ , 0,
CP1_ }, /* SDC1[GP] */
};
NMD::Pool NMD::P_GP_M64[4] = {
{ instruction , 0 , 0 , 32,
0xfc1c0003, 0x441c0000, &NMD::LWU_GP_ , 0,
MIPS64_ }, /* LWU[GP] */
{ reserved_block , 0 , 0 , 32,
0xfc1c0003, 0x441c0001, 0 , 0,
0x0 }, /* P.GP.M64~*(1) */
{ reserved_block , 0 , 0 , 32,
0xfc1c0003, 0x441c0002, 0 , 0,
0x0 }, /* P.GP.M64~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc1c0003, 0x441c0003, 0 , 0,
0x0 }, /* P.GP.M64~*(3) */
};
NMD::Pool NMD::P_GP_BH[8] = {
{ instruction , 0 , 0 , 32,
0xfc1c0000, 0x44000000, &NMD::LB_GP_ , 0,
0x0 }, /* LB[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0000, 0x44040000, &NMD::SB_GP_ , 0,
0x0 }, /* SB[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0000, 0x44080000, &NMD::LBU_GP_ , 0,
0x0 }, /* LBU[GP] */
{ instruction , 0 , 0 , 32,
0xfc1c0000, 0x440c0000, &NMD::ADDIU_GP_B_ , 0,
0x0 }, /* ADDIU[GP.B] */
{ pool , P_GP_LH , 2 , 32,
0xfc1c0000, 0x44100000, 0 , 0,
0x0 }, /* P.GP.LH */
{ pool , P_GP_SH , 2 , 32,
0xfc1c0000, 0x44140000, 0 , 0,
0x0 }, /* P.GP.SH */
{ pool , P_GP_CP1 , 4 , 32,
0xfc1c0000, 0x44180000, 0 , 0,
0x0 }, /* P.GP.CP1 */
{ pool , P_GP_M64 , 4 , 32,
0xfc1c0000, 0x441c0000, 0 , 0,
0x0 }, /* P.GP.M64 */
};
NMD::Pool NMD::P_LS_U12[16] = {
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84000000, &NMD::LB_U12_ , 0,
0x0 }, /* LB[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84001000, &NMD::SB_U12_ , 0,
0x0 }, /* SB[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84002000, &NMD::LBU_U12_ , 0,
0x0 }, /* LBU[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84003000, &NMD::PREF_U12_ , 0,
0x0 }, /* PREF[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84004000, &NMD::LH_U12_ , 0,
0x0 }, /* LH[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84005000, &NMD::SH_U12_ , 0,
0x0 }, /* SH[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84006000, &NMD::LHU_U12_ , 0,
0x0 }, /* LHU[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84007000, &NMD::LWU_U12_ , 0,
MIPS64_ }, /* LWU[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84008000, &NMD::LW_U12_ , 0,
0x0 }, /* LW[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x84009000, &NMD::SW_U12_ , 0,
0x0 }, /* SW[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8400a000, &NMD::LWC1_U12_ , 0,
CP1_ }, /* LWC1[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8400b000, &NMD::SWC1_U12_ , 0,
CP1_ }, /* SWC1[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8400c000, &NMD::LD_U12_ , 0,
MIPS64_ }, /* LD[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8400d000, &NMD::SD_U12_ , 0,
MIPS64_ }, /* SD[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8400e000, &NMD::LDC1_U12_ , 0,
CP1_ }, /* LDC1[U12] */
{ instruction , 0 , 0 , 32,
0xfc00f000, 0x8400f000, &NMD::SDC1_U12_ , 0,
CP1_ }, /* SDC1[U12] */
};
NMD::Pool NMD::P_PREF_S9_[2] = {
{ instruction , 0 , 0 , 32,
0xffe07f00, 0xa7e01800, &NMD::SYNCI , 0,
0x0 }, /* SYNCI */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4001800, &NMD::PREF_S9_ , &NMD::PREF_S9__cond ,
0x0 }, /* PREF[S9] */
};
NMD::Pool NMD::P_LS_S0[16] = {
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4000000, &NMD::LB_S9_ , 0,
0x0 }, /* LB[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4000800, &NMD::SB_S9_ , 0,
0x0 }, /* SB[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4001000, &NMD::LBU_S9_ , 0,
0x0 }, /* LBU[S9] */
{ pool , P_PREF_S9_ , 2 , 32,
0xfc007f00, 0xa4001800, 0 , 0,
0x0 }, /* P.PREF[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4002000, &NMD::LH_S9_ , 0,
0x0 }, /* LH[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4002800, &NMD::SH_S9_ , 0,
0x0 }, /* SH[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4003000, &NMD::LHU_S9_ , 0,
0x0 }, /* LHU[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4003800, &NMD::LWU_S9_ , 0,
MIPS64_ }, /* LWU[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4004000, &NMD::LW_S9_ , 0,
0x0 }, /* LW[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4004800, &NMD::SW_S9_ , 0,
0x0 }, /* SW[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4005000, &NMD::LWC1_S9_ , 0,
CP1_ }, /* LWC1[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4005800, &NMD::SWC1_S9_ , 0,
CP1_ }, /* SWC1[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4006000, &NMD::LD_S9_ , 0,
MIPS64_ }, /* LD[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4006800, &NMD::SD_S9_ , 0,
MIPS64_ }, /* SD[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4007000, &NMD::LDC1_S9_ , 0,
CP1_ }, /* LDC1[S9] */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4007800, &NMD::SDC1_S9_ , 0,
CP1_ }, /* SDC1[S9] */
};
NMD::Pool NMD::ASET_ACLR[2] = {
{ instruction , 0 , 0 , 32,
0xfe007f00, 0xa4001100, &NMD::ASET , 0,
MCU_ }, /* ASET */
{ instruction , 0 , 0 , 32,
0xfe007f00, 0xa6001100, &NMD::ACLR , 0,
MCU_ }, /* ACLR */
};
NMD::Pool NMD::P_LL[4] = {
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005100, &NMD::LL , 0,
0x0 }, /* LL */
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005101, &NMD::LLWP , 0,
XNP_ }, /* LLWP */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005102, 0 , 0,
0x0 }, /* P.LL~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005103, 0 , 0,
0x0 }, /* P.LL~*(3) */
};
NMD::Pool NMD::P_SC[4] = {
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005900, &NMD::SC , 0,
0x0 }, /* SC */
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005901, &NMD::SCWP , 0,
XNP_ }, /* SCWP */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005902, 0 , 0,
0x0 }, /* P.SC~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005903, 0 , 0,
0x0 }, /* P.SC~*(3) */
};
NMD::Pool NMD::P_LLD[8] = {
{ instruction , 0 , 0 , 32,
0xfc007f07, 0xa4007100, &NMD::LLD , 0,
MIPS64_ }, /* LLD */
{ instruction , 0 , 0 , 32,
0xfc007f07, 0xa4007101, &NMD::LLDP , 0,
MIPS64_ }, /* LLDP */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007102, 0 , 0,
0x0 }, /* P.LLD~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007103, 0 , 0,
0x0 }, /* P.LLD~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007104, 0 , 0,
0x0 }, /* P.LLD~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007105, 0 , 0,
0x0 }, /* P.LLD~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007106, 0 , 0,
0x0 }, /* P.LLD~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007107, 0 , 0,
0x0 }, /* P.LLD~*(7) */
};
NMD::Pool NMD::P_SCD[8] = {
{ instruction , 0 , 0 , 32,
0xfc007f07, 0xa4007900, &NMD::SCD , 0,
MIPS64_ }, /* SCD */
{ instruction , 0 , 0 , 32,
0xfc007f07, 0xa4007901, &NMD::SCDP , 0,
MIPS64_ }, /* SCDP */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007902, 0 , 0,
0x0 }, /* P.SCD~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007903, 0 , 0,
0x0 }, /* P.SCD~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007904, 0 , 0,
0x0 }, /* P.SCD~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007905, 0 , 0,
0x0 }, /* P.SCD~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007906, 0 , 0,
0x0 }, /* P.SCD~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc007f07, 0xa4007907, 0 , 0,
0x0 }, /* P.SCD~*(7) */
};
NMD::Pool NMD::P_LS_S1[16] = {
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4000100, 0 , 0,
0x0 }, /* P.LS.S1~*(0) */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4000900, 0 , 0,
0x0 }, /* P.LS.S1~*(1) */
{ pool , ASET_ACLR , 2 , 32,
0xfc007f00, 0xa4001100, 0 , 0,
0x0 }, /* ASET_ACLR */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4001900, 0 , 0,
0x0 }, /* P.LS.S1~*(3) */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4002100, &NMD::UALH , 0,
XMMS_ }, /* UALH */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4002900, &NMD::UASH , 0,
XMMS_ }, /* UASH */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4003100, 0 , 0,
0x0 }, /* P.LS.S1~*(6) */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4003900, &NMD::CACHE , 0,
CP0_ }, /* CACHE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4004100, &NMD::LWC2 , 0,
CP2_ }, /* LWC2 */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4004900, &NMD::SWC2 , 0,
CP2_ }, /* SWC2 */
{ pool , P_LL , 4 , 32,
0xfc007f00, 0xa4005100, 0 , 0,
0x0 }, /* P.LL */
{ pool , P_SC , 4 , 32,
0xfc007f00, 0xa4005900, 0 , 0,
0x0 }, /* P.SC */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4006100, &NMD::LDC2 , 0,
CP2_ }, /* LDC2 */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4006900, &NMD::SDC2 , 0,
CP2_ }, /* SDC2 */
{ pool , P_LLD , 8 , 32,
0xfc007f00, 0xa4007100, 0 , 0,
0x0 }, /* P.LLD */
{ pool , P_SCD , 8 , 32,
0xfc007f00, 0xa4007900, 0 , 0,
0x0 }, /* P.SCD */
};
NMD::Pool NMD::P_PREFE[2] = {
{ instruction , 0 , 0 , 32,
0xffe07f00, 0xa7e01a00, &NMD::SYNCIE , 0,
CP0_ | EVA_ }, /* SYNCIE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4001a00, &NMD::PREFE , &NMD::PREFE_cond ,
CP0_ | EVA_ }, /* PREFE */
};
NMD::Pool NMD::P_LLE[4] = {
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005200, &NMD::LLE , 0,
CP0_ | EVA_ }, /* LLE */
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005201, &NMD::LLWPE , 0,
CP0_ | EVA_ }, /* LLWPE */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005202, 0 , 0,
0x0 }, /* P.LLE~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005203, 0 , 0,
0x0 }, /* P.LLE~*(3) */
};
NMD::Pool NMD::P_SCE[4] = {
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005a00, &NMD::SCE , 0,
CP0_ | EVA_ }, /* SCE */
{ instruction , 0 , 0 , 32,
0xfc007f03, 0xa4005a01, &NMD::SCWPE , 0,
CP0_ | EVA_ }, /* SCWPE */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005a02, 0 , 0,
0x0 }, /* P.SCE~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc007f03, 0xa4005a03, 0 , 0,
0x0 }, /* P.SCE~*(3) */
};
NMD::Pool NMD::P_LS_E0[16] = {
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4000200, &NMD::LBE , 0,
CP0_ | EVA_ }, /* LBE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4000a00, &NMD::SBE , 0,
CP0_ | EVA_ }, /* SBE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4001200, &NMD::LBUE , 0,
CP0_ | EVA_ }, /* LBUE */
{ pool , P_PREFE , 2 , 32,
0xfc007f00, 0xa4001a00, 0 , 0,
0x0 }, /* P.PREFE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4002200, &NMD::LHE , 0,
CP0_ | EVA_ }, /* LHE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4002a00, &NMD::SHE , 0,
CP0_ | EVA_ }, /* SHE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4003200, &NMD::LHUE , 0,
CP0_ | EVA_ }, /* LHUE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4003a00, &NMD::CACHEE , 0,
CP0_ | EVA_ }, /* CACHEE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4004200, &NMD::LWE , 0,
CP0_ | EVA_ }, /* LWE */
{ instruction , 0 , 0 , 32,
0xfc007f00, 0xa4004a00, &NMD::SWE , 0,
CP0_ | EVA_ }, /* SWE */
{ pool , P_LLE , 4 , 32,
0xfc007f00, 0xa4005200, 0 , 0,
0x0 }, /* P.LLE */
{ pool , P_SCE , 4 , 32,
0xfc007f00, 0xa4005a00, 0 , 0,
0x0 }, /* P.SCE */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4006200, 0 , 0,
0x0 }, /* P.LS.E0~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4006a00, 0 , 0,
0x0 }, /* P.LS.E0~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4007200, 0 , 0,
0x0 }, /* P.LS.E0~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc007f00, 0xa4007a00, 0 , 0,
0x0 }, /* P.LS.E0~*(15) */
};
NMD::Pool NMD::P_LS_WM[2] = {
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000400, &NMD::LWM , 0,
XMMS_ }, /* LWM */
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000c00, &NMD::SWM , 0,
XMMS_ }, /* SWM */
};
NMD::Pool NMD::P_LS_UAWM[2] = {
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000500, &NMD::UALWM , 0,
XMMS_ }, /* UALWM */
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000d00, &NMD::UASWM , 0,
XMMS_ }, /* UASWM */
};
NMD::Pool NMD::P_LS_DM[2] = {
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000600, &NMD::LDM , 0,
MIPS64_ }, /* LDM */
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000e00, &NMD::SDM , 0,
MIPS64_ }, /* SDM */
};
NMD::Pool NMD::P_LS_UADM[2] = {
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000700, &NMD::UALDM , 0,
MIPS64_ }, /* UALDM */
{ instruction , 0 , 0 , 32,
0xfc000f00, 0xa4000f00, &NMD::UASDM , 0,
MIPS64_ }, /* UASDM */
};
NMD::Pool NMD::P_LS_S9[8] = {
{ pool , P_LS_S0 , 16 , 32,
0xfc000700, 0xa4000000, 0 , 0,
0x0 }, /* P.LS.S0 */
{ pool , P_LS_S1 , 16 , 32,
0xfc000700, 0xa4000100, 0 , 0,
0x0 }, /* P.LS.S1 */
{ pool , P_LS_E0 , 16 , 32,
0xfc000700, 0xa4000200, 0 , 0,
0x0 }, /* P.LS.E0 */
{ reserved_block , 0 , 0 , 32,
0xfc000700, 0xa4000300, 0 , 0,
0x0 }, /* P.LS.S9~*(3) */
{ pool , P_LS_WM , 2 , 32,
0xfc000700, 0xa4000400, 0 , 0,
0x0 }, /* P.LS.WM */
{ pool , P_LS_UAWM , 2 , 32,
0xfc000700, 0xa4000500, 0 , 0,
0x0 }, /* P.LS.UAWM */
{ pool , P_LS_DM , 2 , 32,
0xfc000700, 0xa4000600, 0 , 0,
0x0 }, /* P.LS.DM */
{ pool , P_LS_UADM , 2 , 32,
0xfc000700, 0xa4000700, 0 , 0,
0x0 }, /* P.LS.UADM */
};
NMD::Pool NMD::P_BAL[2] = {
{ branch_instruction , 0 , 0 , 32,
0xfe000000, 0x28000000, &NMD::BC_32_ , 0,
0x0 }, /* BC[32] */
{ call_instruction , 0 , 0 , 32,
0xfe000000, 0x2a000000, &NMD::BALC_32_ , 0,
0x0 }, /* BALC[32] */
};
NMD::Pool NMD::P_BALRSC[2] = {
{ branch_instruction , 0 , 0 , 32,
0xffe0f000, 0x48008000, &NMD::BRSC , 0,
0x0 }, /* BRSC */
{ call_instruction , 0 , 0 , 32,
0xfc00f000, 0x48008000, &NMD::BALRSC , &NMD::BALRSC_cond ,
0x0 }, /* BALRSC */
};
NMD::Pool NMD::P_J[16] = {
{ call_instruction , 0 , 0 , 32,
0xfc00f000, 0x48000000, &NMD::JALRC_32_ , 0,
0x0 }, /* JALRC[32] */
{ call_instruction , 0 , 0 , 32,
0xfc00f000, 0x48001000, &NMD::JALRC_HB , 0,
0x0 }, /* JALRC.HB */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48002000, 0 , 0,
0x0 }, /* P.J~*(2) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48003000, 0 , 0,
0x0 }, /* P.J~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48004000, 0 , 0,
0x0 }, /* P.J~*(4) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48005000, 0 , 0,
0x0 }, /* P.J~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48006000, 0 , 0,
0x0 }, /* P.J~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48007000, 0 , 0,
0x0 }, /* P.J~*(7) */
{ pool , P_BALRSC , 2 , 32,
0xfc00f000, 0x48008000, 0 , 0,
0x0 }, /* P.BALRSC */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x48009000, 0 , 0,
0x0 }, /* P.J~*(9) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x4800a000, 0 , 0,
0x0 }, /* P.J~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x4800b000, 0 , 0,
0x0 }, /* P.J~*(11) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x4800c000, 0 , 0,
0x0 }, /* P.J~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x4800d000, 0 , 0,
0x0 }, /* P.J~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x4800e000, 0 , 0,
0x0 }, /* P.J~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc00f000, 0x4800f000, 0 , 0,
0x0 }, /* P.J~*(15) */
};
NMD::Pool NMD::P_BR3A[32] = {
{ branch_instruction , 0 , 0 , 32,
0xfc1fc000, 0x88004000, &NMD::BC1EQZC , 0,
CP1_ }, /* BC1EQZC */
{ branch_instruction , 0 , 0 , 32,
0xfc1fc000, 0x88014000, &NMD::BC1NEZC , 0,
CP1_ }, /* BC1NEZC */
{ branch_instruction , 0 , 0 , 32,
0xfc1fc000, 0x88024000, &NMD::BC2EQZC , 0,
CP2_ }, /* BC2EQZC */
{ branch_instruction , 0 , 0 , 32,
0xfc1fc000, 0x88034000, &NMD::BC2NEZC , 0,
CP2_ }, /* BC2NEZC */
{ branch_instruction , 0 , 0 , 32,
0xfc1fc000, 0x88044000, &NMD::BPOSGE32C , 0,
DSP_ }, /* BPOSGE32C */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88054000, 0 , 0,
0x0 }, /* P.BR3A~*(5) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88064000, 0 , 0,
0x0 }, /* P.BR3A~*(6) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88074000, 0 , 0,
0x0 }, /* P.BR3A~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88084000, 0 , 0,
0x0 }, /* P.BR3A~*(8) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88094000, 0 , 0,
0x0 }, /* P.BR3A~*(9) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x880a4000, 0 , 0,
0x0 }, /* P.BR3A~*(10) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x880b4000, 0 , 0,
0x0 }, /* P.BR3A~*(11) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x880c4000, 0 , 0,
0x0 }, /* P.BR3A~*(12) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x880d4000, 0 , 0,
0x0 }, /* P.BR3A~*(13) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x880e4000, 0 , 0,
0x0 }, /* P.BR3A~*(14) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x880f4000, 0 , 0,
0x0 }, /* P.BR3A~*(15) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88104000, 0 , 0,
0x0 }, /* P.BR3A~*(16) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88114000, 0 , 0,
0x0 }, /* P.BR3A~*(17) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88124000, 0 , 0,
0x0 }, /* P.BR3A~*(18) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88134000, 0 , 0,
0x0 }, /* P.BR3A~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88144000, 0 , 0,
0x0 }, /* P.BR3A~*(20) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88154000, 0 , 0,
0x0 }, /* P.BR3A~*(21) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88164000, 0 , 0,
0x0 }, /* P.BR3A~*(22) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88174000, 0 , 0,
0x0 }, /* P.BR3A~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88184000, 0 , 0,
0x0 }, /* P.BR3A~*(24) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x88194000, 0 , 0,
0x0 }, /* P.BR3A~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x881a4000, 0 , 0,
0x0 }, /* P.BR3A~*(26) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x881b4000, 0 , 0,
0x0 }, /* P.BR3A~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x881c4000, 0 , 0,
0x0 }, /* P.BR3A~*(28) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x881d4000, 0 , 0,
0x0 }, /* P.BR3A~*(29) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x881e4000, 0 , 0,
0x0 }, /* P.BR3A~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc1fc000, 0x881f4000, 0 , 0,
0x0 }, /* P.BR3A~*(31) */
};
NMD::Pool NMD::P_BR1[4] = {
{ branch_instruction , 0 , 0 , 32,
0xfc00c000, 0x88000000, &NMD::BEQC_32_ , 0,
0x0 }, /* BEQC[32] */
{ pool , P_BR3A , 32 , 32,
0xfc00c000, 0x88004000, 0 , 0,
0x0 }, /* P.BR3A */
{ branch_instruction , 0 , 0 , 32,
0xfc00c000, 0x88008000, &NMD::BGEC , 0,
0x0 }, /* BGEC */
{ branch_instruction , 0 , 0 , 32,
0xfc00c000, 0x8800c000, &NMD::BGEUC , 0,
0x0 }, /* BGEUC */
};
NMD::Pool NMD::P_BR2[4] = {
{ branch_instruction , 0 , 0 , 32,
0xfc00c000, 0xa8000000, &NMD::BNEC_32_ , 0,
0x0 }, /* BNEC[32] */
{ reserved_block , 0 , 0 , 32,
0xfc00c000, 0xa8004000, 0 , 0,
0x0 }, /* P.BR2~*(1) */
{ branch_instruction , 0 , 0 , 32,
0xfc00c000, 0xa8008000, &NMD::BLTC , 0,
0x0 }, /* BLTC */
{ branch_instruction , 0 , 0 , 32,
0xfc00c000, 0xa800c000, &NMD::BLTUC , 0,
0x0 }, /* BLTUC */
};
NMD::Pool NMD::P_BRI[8] = {
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc8000000, &NMD::BEQIC , 0,
0x0 }, /* BEQIC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc8040000, &NMD::BBEQZC , 0,
XMMS_ }, /* BBEQZC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc8080000, &NMD::BGEIC , 0,
0x0 }, /* BGEIC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc80c0000, &NMD::BGEIUC , 0,
0x0 }, /* BGEIUC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc8100000, &NMD::BNEIC , 0,
0x0 }, /* BNEIC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc8140000, &NMD::BBNEZC , 0,
XMMS_ }, /* BBNEZC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc8180000, &NMD::BLTIC , 0,
0x0 }, /* BLTIC */
{ branch_instruction , 0 , 0 , 32,
0xfc1c0000, 0xc81c0000, &NMD::BLTIUC , 0,
0x0 }, /* BLTIUC */
};
NMD::Pool NMD::P32[32] = {
{ pool , P_ADDIU , 2 , 32,
0xfc000000, 0x00000000, 0 , 0,
0x0 }, /* P.ADDIU */
{ pool , P32A , 8 , 32,
0xfc000000, 0x20000000, 0 , 0,
0x0 }, /* P32A */
{ pool , P_GP_W , 4 , 32,
0xfc000000, 0x40000000, 0 , 0,
0x0 }, /* P.GP.W */
{ pool , POOL48I , 32 , 48,
0xfc0000000000ull, 0x600000000000ull, 0 , 0,
0x0 }, /* POOL48I */
{ pool , P_U12 , 16 , 32,
0xfc000000, 0x80000000, 0 , 0,
0x0 }, /* P.U12 */
{ pool , POOL32F , 8 , 32,
0xfc000000, 0xa0000000, 0 , 0,
CP1_ }, /* POOL32F */
{ pool , POOL32S , 8 , 32,
0xfc000000, 0xc0000000, 0 , 0,
0x0 }, /* POOL32S */
{ pool , P_LUI , 2 , 32,
0xfc000000, 0xe0000000, 0 , 0,
0x0 }, /* P.LUI */
{ instruction , 0 , 0 , 32,
0xfc000000, 0x04000000, &NMD::ADDIUPC_32_ , 0,
0x0 }, /* ADDIUPC[32] */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x24000000, 0 , 0,
0x0 }, /* P32~*(5) */
{ pool , P_GP_BH , 8 , 32,
0xfc000000, 0x44000000, 0 , 0,
0x0 }, /* P.GP.BH */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x64000000, 0 , 0,
0x0 }, /* P32~*(13) */
{ pool , P_LS_U12 , 16 , 32,
0xfc000000, 0x84000000, 0 , 0,
0x0 }, /* P.LS.U12 */
{ pool , P_LS_S9 , 8 , 32,
0xfc000000, 0xa4000000, 0 , 0,
0x0 }, /* P.LS.S9 */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0xc4000000, 0 , 0,
0x0 }, /* P32~*(25) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0xe4000000, 0 , 0,
0x0 }, /* P32~*(29) */
{ call_instruction , 0 , 0 , 32,
0xfc000000, 0x08000000, &NMD::MOVE_BALC , 0,
XMMS_ }, /* MOVE.BALC */
{ pool , P_BAL , 2 , 32,
0xfc000000, 0x28000000, 0 , 0,
0x0 }, /* P.BAL */
{ pool , P_J , 16 , 32,
0xfc000000, 0x48000000, 0 , 0,
0x0 }, /* P.J */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x68000000, 0 , 0,
0x0 }, /* P32~*(14) */
{ pool , P_BR1 , 4 , 32,
0xfc000000, 0x88000000, 0 , 0,
0x0 }, /* P.BR1 */
{ pool , P_BR2 , 4 , 32,
0xfc000000, 0xa8000000, 0 , 0,
0x0 }, /* P.BR2 */
{ pool , P_BRI , 8 , 32,
0xfc000000, 0xc8000000, 0 , 0,
0x0 }, /* P.BRI */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0xe8000000, 0 , 0,
0x0 }, /* P32~*(30) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x0c000000, 0 , 0,
0x0 }, /* P32~*(3) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x2c000000, 0 , 0,
0x0 }, /* P32~*(7) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x4c000000, 0 , 0,
0x0 }, /* P32~*(11) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x6c000000, 0 , 0,
0x0 }, /* P32~*(15) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0x8c000000, 0 , 0,
0x0 }, /* P32~*(19) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0xac000000, 0 , 0,
0x0 }, /* P32~*(23) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0xcc000000, 0 , 0,
0x0 }, /* P32~*(27) */
{ reserved_block , 0 , 0 , 32,
0xfc000000, 0xec000000, 0 , 0,
0x0 }, /* P32~*(31) */
};
NMD::Pool NMD::P16_SYSCALL[2] = {
{ instruction , 0 , 0 , 16,
0xfffc , 0x1008 , &NMD::SYSCALL_16_ , 0,
0x0 }, /* SYSCALL[16] */
{ instruction , 0 , 0 , 16,
0xfffc , 0x100c , &NMD::HYPCALL_16_ , 0,
CP0_ | VZ_ }, /* HYPCALL[16] */
};
NMD::Pool NMD::P16_RI[4] = {
{ reserved_block , 0 , 0 , 16,
0xfff8 , 0x1000 , 0 , 0,
0x0 }, /* P16.RI~*(0) */
{ pool , P16_SYSCALL , 2 , 16,
0xfff8 , 0x1008 , 0 , 0,
0x0 }, /* P16.SYSCALL */
{ instruction , 0 , 0 , 16,
0xfff8 , 0x1010 , &NMD::BREAK_16_ , 0,
0x0 }, /* BREAK[16] */
{ instruction , 0 , 0 , 16,
0xfff8 , 0x1018 , &NMD::SDBBP_16_ , 0,
EJTAG_ }, /* SDBBP[16] */
};
NMD::Pool NMD::P16_MV[2] = {
{ pool , P16_RI , 4 , 16,
0xffe0 , 0x1000 , 0 , 0,
0x0 }, /* P16.RI */
{ instruction , 0 , 0 , 16,
0xfc00 , 0x1000 , &NMD::MOVE , &NMD::MOVE_cond ,
0x0 }, /* MOVE */
};
NMD::Pool NMD::P16_SHIFT[2] = {
{ instruction , 0 , 0 , 16,
0xfc08 , 0x3000 , &NMD::SLL_16_ , 0,
0x0 }, /* SLL[16] */
{ instruction , 0 , 0 , 16,
0xfc08 , 0x3008 , &NMD::SRL_16_ , 0,
0x0 }, /* SRL[16] */
};
NMD::Pool NMD::POOL16C_00[4] = {
{ instruction , 0 , 0 , 16,
0xfc0f , 0x5000 , &NMD::NOT_16_ , 0,
0x0 }, /* NOT[16] */
{ instruction , 0 , 0 , 16,
0xfc0f , 0x5004 , &NMD::XOR_16_ , 0,
0x0 }, /* XOR[16] */
{ instruction , 0 , 0 , 16,
0xfc0f , 0x5008 , &NMD::AND_16_ , 0,
0x0 }, /* AND[16] */
{ instruction , 0 , 0 , 16,
0xfc0f , 0x500c , &NMD::OR_16_ , 0,
0x0 }, /* OR[16] */
};
NMD::Pool NMD::POOL16C_0[2] = {
{ pool , POOL16C_00 , 4 , 16,
0xfc03 , 0x5000 , 0 , 0,
0x0 }, /* POOL16C_00 */
{ reserved_block , 0 , 0 , 16,
0xfc03 , 0x5002 , 0 , 0,
0x0 }, /* POOL16C_0~*(1) */
};
NMD::Pool NMD::P16C[2] = {
{ pool , POOL16C_0 , 2 , 16,
0xfc01 , 0x5000 , 0 , 0,
0x0 }, /* POOL16C_0 */
{ instruction , 0 , 0 , 16,
0xfc01 , 0x5001 , &NMD::LWXS_16_ , 0,
0x0 }, /* LWXS[16] */
};
NMD::Pool NMD::P16_A1[2] = {
{ reserved_block , 0 , 0 , 16,
0xfc40 , 0x7000 , 0 , 0,
0x0 }, /* P16.A1~*(0) */
{ instruction , 0 , 0 , 16,
0xfc40 , 0x7040 , &NMD::ADDIU_R1_SP_ , 0,
0x0 }, /* ADDIU[R1.SP] */
};
NMD::Pool NMD::P_ADDIU_RS5_[2] = {
{ instruction , 0 , 0 , 16,
0xffe8 , 0x9008 , &NMD::NOP_16_ , 0,
0x0 }, /* NOP[16] */
{ instruction , 0 , 0 , 16,
0xfc08 , 0x9008 , &NMD::ADDIU_RS5_ , &NMD::ADDIU_RS5__cond ,
0x0 }, /* ADDIU[RS5] */
};
NMD::Pool NMD::P16_A2[2] = {
{ instruction , 0 , 0 , 16,
0xfc08 , 0x9000 , &NMD::ADDIU_R2_ , 0,
0x0 }, /* ADDIU[R2] */
{ pool , P_ADDIU_RS5_ , 2 , 16,
0xfc08 , 0x9008 , 0 , 0,
0x0 }, /* P.ADDIU[RS5] */
};
NMD::Pool NMD::P16_ADDU[2] = {
{ instruction , 0 , 0 , 16,
0xfc01 , 0xb000 , &NMD::ADDU_16_ , 0,
0x0 }, /* ADDU[16] */
{ instruction , 0 , 0 , 16,
0xfc01 , 0xb001 , &NMD::SUBU_16_ , 0,
0x0 }, /* SUBU[16] */
};
NMD::Pool NMD::P16_JRC[2] = {
{ branch_instruction , 0 , 0 , 16,
0xfc1f , 0xd800 , &NMD::JRC , 0,
0x0 }, /* JRC */
{ call_instruction , 0 , 0 , 16,
0xfc1f , 0xd810 , &NMD::JALRC_16_ , 0,
0x0 }, /* JALRC[16] */
};
NMD::Pool NMD::P16_BR1[2] = {
{ branch_instruction , 0 , 0 , 16,
0xfc00 , 0xd800 , &NMD::BEQC_16_ , &NMD::BEQC_16__cond ,
XMMS_ }, /* BEQC[16] */
{ branch_instruction , 0 , 0 , 16,
0xfc00 , 0xd800 , &NMD::BNEC_16_ , &NMD::BNEC_16__cond ,
XMMS_ }, /* BNEC[16] */
};
NMD::Pool NMD::P16_BR[2] = {
{ pool , P16_JRC , 2 , 16,
0xfc0f , 0xd800 , 0 , 0,
0x0 }, /* P16.JRC */
{ pool , P16_BR1 , 2 , 16,
0xfc00 , 0xd800 , 0 , &NMD::P16_BR1_cond ,
0x0 }, /* P16.BR1 */
};
NMD::Pool NMD::P16_SR[2] = {
{ instruction , 0 , 0 , 16,
0xfd00 , 0x1c00 , &NMD::SAVE_16_ , 0,
0x0 }, /* SAVE[16] */
{ return_instruction , 0 , 0 , 16,
0xfd00 , 0x1d00 , &NMD::RESTORE_JRC_16_ , 0,
0x0 }, /* RESTORE.JRC[16] */
};
NMD::Pool NMD::P16_4X4[4] = {
{ instruction , 0 , 0 , 16,
0xfd08 , 0x3c00 , &NMD::ADDU_4X4_ , 0,
XMMS_ }, /* ADDU[4X4] */
{ instruction , 0 , 0 , 16,
0xfd08 , 0x3c08 , &NMD::MUL_4X4_ , 0,
XMMS_ }, /* MUL[4X4] */
{ reserved_block , 0 , 0 , 16,
0xfd08 , 0x3d00 , 0 , 0,
0x0 }, /* P16.4X4~*(2) */
{ reserved_block , 0 , 0 , 16,
0xfd08 , 0x3d08 , 0 , 0,
0x0 }, /* P16.4X4~*(3) */
};
NMD::Pool NMD::P16_LB[4] = {
{ instruction , 0 , 0 , 16,
0xfc0c , 0x5c00 , &NMD::LB_16_ , 0,
0x0 }, /* LB[16] */
{ instruction , 0 , 0 , 16,
0xfc0c , 0x5c04 , &NMD::SB_16_ , 0,
0x0 }, /* SB[16] */
{ instruction , 0 , 0 , 16,
0xfc0c , 0x5c08 , &NMD::LBU_16_ , 0,
0x0 }, /* LBU[16] */
{ reserved_block , 0 , 0 , 16,
0xfc0c , 0x5c0c , 0 , 0,
0x0 }, /* P16.LB~*(3) */
};
NMD::Pool NMD::P16_LH[4] = {
{ instruction , 0 , 0 , 16,
0xfc09 , 0x7c00 , &NMD::LH_16_ , 0,
0x0 }, /* LH[16] */
{ instruction , 0 , 0 , 16,
0xfc09 , 0x7c01 , &NMD::SH_16_ , 0,
0x0 }, /* SH[16] */
{ instruction , 0 , 0 , 16,
0xfc09 , 0x7c08 , &NMD::LHU_16_ , 0,
0x0 }, /* LHU[16] */
{ reserved_block , 0 , 0 , 16,
0xfc09 , 0x7c09 , 0 , 0,
0x0 }, /* P16.LH~*(3) */
};
NMD::Pool NMD::P16[32] = {
{ pool , P16_MV , 2 , 16,
0xfc00 , 0x1000 , 0 , 0,
0x0 }, /* P16.MV */
{ pool , P16_SHIFT , 2 , 16,
0xfc00 , 0x3000 , 0 , 0,
0x0 }, /* P16.SHIFT */
{ pool , P16C , 2 , 16,
0xfc00 , 0x5000 , 0 , 0,
0x0 }, /* P16C */
{ pool , P16_A1 , 2 , 16,
0xfc00 , 0x7000 , 0 , 0,
0x0 }, /* P16.A1 */
{ pool , P16_A2 , 2 , 16,
0xfc00 , 0x9000 , 0 , 0,
0x0 }, /* P16.A2 */
{ pool , P16_ADDU , 2 , 16,
0xfc00 , 0xb000 , 0 , 0,
0x0 }, /* P16.ADDU */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xd000 , &NMD::LI_16_ , 0,
0x0 }, /* LI[16] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xf000 , &NMD::ANDI_16_ , 0,
0x0 }, /* ANDI[16] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0x1400 , &NMD::LW_16_ , 0,
0x0 }, /* LW[16] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0x3400 , &NMD::LW_SP_ , 0,
0x0 }, /* LW[SP] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0x5400 , &NMD::LW_GP16_ , 0,
0x0 }, /* LW[GP16] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0x7400 , &NMD::LW_4X4_ , 0,
XMMS_ }, /* LW[4X4] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0x9400 , &NMD::SW_16_ , 0,
0x0 }, /* SW[16] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xb400 , &NMD::SW_SP_ , 0,
0x0 }, /* SW[SP] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xd400 , &NMD::SW_GP16_ , 0,
0x0 }, /* SW[GP16] */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xf400 , &NMD::SW_4X4_ , 0,
XMMS_ }, /* SW[4X4] */
{ branch_instruction , 0 , 0 , 16,
0xfc00 , 0x1800 , &NMD::BC_16_ , 0,
0x0 }, /* BC[16] */
{ call_instruction , 0 , 0 , 16,
0xfc00 , 0x3800 , &NMD::BALC_16_ , 0,
0x0 }, /* BALC[16] */
{ reserved_block , 0 , 0 , 16,
0xfc00 , 0x5800 , 0 , 0,
0x0 }, /* P16~*(10) */
{ reserved_block , 0 , 0 , 16,
0xfc00 , 0x7800 , 0 , 0,
0x0 }, /* P16~*(14) */
{ branch_instruction , 0 , 0 , 16,
0xfc00 , 0x9800 , &NMD::BEQZC_16_ , 0,
0x0 }, /* BEQZC[16] */
{ branch_instruction , 0 , 0 , 16,
0xfc00 , 0xb800 , &NMD::BNEZC_16_ , 0,
0x0 }, /* BNEZC[16] */
{ pool , P16_BR , 2 , 16,
0xfc00 , 0xd800 , 0 , 0,
0x0 }, /* P16.BR */
{ reserved_block , 0 , 0 , 16,
0xfc00 , 0xf800 , 0 , 0,
0x0 }, /* P16~*(30) */
{ pool , P16_SR , 2 , 16,
0xfc00 , 0x1c00 , 0 , 0,
0x0 }, /* P16.SR */
{ pool , P16_4X4 , 4 , 16,
0xfc00 , 0x3c00 , 0 , 0,
0x0 }, /* P16.4X4 */
{ pool , P16_LB , 4 , 16,
0xfc00 , 0x5c00 , 0 , 0,
0x0 }, /* P16.LB */
{ pool , P16_LH , 4 , 16,
0xfc00 , 0x7c00 , 0 , 0,
0x0 }, /* P16.LH */
{ reserved_block , 0 , 0 , 16,
0xfc00 , 0x9c00 , 0 , 0,
0x0 }, /* P16~*(19) */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xbc00 , &NMD::MOVEP , 0,
XMMS_ }, /* MOVEP */
{ reserved_block , 0 , 0 , 16,
0xfc00 , 0xdc00 , 0 , 0,
0x0 }, /* P16~*(27) */
{ instruction , 0 , 0 , 16,
0xfc00 , 0xfc00 , &NMD::MOVEP_REV_ , 0,
XMMS_ }, /* MOVEP[REV] */
};
NMD::Pool NMD::MAJOR[2] = {
{ pool , P32 , 32 , 32,
0x10000000, 0x00000000, 0 , 0,
0x0 }, /* P32 */
{ pool , P16 , 32 , 16,
0x1000 , 0x1000 , 0 , 0,
0x0 }, /* P16 */
};