jak-project/decompiler/VuDisasm/VuDisassembler.cpp
Tyler Wilding 60db0e5ef9
deps: update fmt to latest version (#3403)
This updates `fmt` to the latest version and moves to just being a copy
of their repo to make updating easier (no editing their cmake / figuring
out which files to minimally include).

The motivation for this is now that we switched to C++ 20, there were a
ton of deprecated function usages that is going away in future compiler
versions. This gets rid of all those warnings.
2024-03-05 22:11:52 -05:00

1315 lines
49 KiB
C++

#include "VuDisassembler.h"
#include <algorithm>
#include <cstring>
#include "common/log/log.h"
#include "common/util/Assert.h"
#include "common/util/print_float.h"
#include "fmt/core.h"
namespace decompiler {
namespace {
int upper_op6(u32 in) {
return in & 0b111111;
}
int upper_op11(u32 in) {
return in & 0b11111111111;
}
int upper_dest_mask(u32 in) {
return 0b1111 & (in >> 21);
}
int upper_ft(u32 in) {
return 0b11111 & (in >> 16);
}
int upper_fs(u32 in) {
return 0b11111 & (in >> 11);
}
int upper_fd(u32 in) {
return 0b11111 & (in >> 6);
}
int upper_bc(u32 in) {
return 0b11 & in;
}
int lower_op(u32 in) {
return (in >> 25);
}
int upper_imm15_unsigned(u32 in) {
u32 p1 = (in & 0b11111111111);
u32 p2 = (in >> 21) & 0b1111;
return p1 | (p2 << 11);
}
} // namespace
VuDisassembler::VuDisassembler(VuKind kind) : m_kind(kind) {
// build the decode tables
m_upper_op6_table[0b000000].set(VuInstrK::ADDbc); // 0
m_upper_op6_table[0b000001].set(VuInstrK::ADDbc); // 1
m_upper_op6_table[0b000010].set(VuInstrK::ADDbc); // 2
m_upper_op6_table[0b000011].set(VuInstrK::ADDbc); // 3
m_upper_op6_table[0b000100].set(VuInstrK::SUBbc); // 4
m_upper_op6_table[0b000101].set(VuInstrK::SUBbc); // 5
m_upper_op6_table[0b000110].set(VuInstrK::SUBbc); // 6
m_upper_op6_table[0b000111].set(VuInstrK::SUBbc); // 7
m_upper_op6_table[0b001000].set(VuInstrK::MADDbc); // 8
m_upper_op6_table[0b001001].set(VuInstrK::MADDbc); // 9
m_upper_op6_table[0b001010].set(VuInstrK::MADDbc); // 10
m_upper_op6_table[0b001011].set(VuInstrK::MADDbc); // 11
m_upper_op6_table[0b001100].set(VuInstrK::MSUBbc); // 12
m_upper_op6_table[0b001101].set(VuInstrK::MSUBbc); // 13
m_upper_op6_table[0b001110].set(VuInstrK::MSUBbc); // 14
m_upper_op6_table[0b001111].set(VuInstrK::MSUBbc); // 15
m_upper_op6_table[0b010000].set(VuInstrK::MAXbc); // 16
m_upper_op6_table[0b010001].set(VuInstrK::MAXbc); // 17
m_upper_op6_table[0b010010].set(VuInstrK::MAXbc); // 18
m_upper_op6_table[0b010011].set(VuInstrK::MAXbc); // 19
m_upper_op6_table[0b010100].set(VuInstrK::MINIbc); // 20
m_upper_op6_table[0b010101].set(VuInstrK::MINIbc); // 21
m_upper_op6_table[0b010110].set(VuInstrK::MINIbc); // 22
m_upper_op6_table[0b010111].set(VuInstrK::MINIbc); // 23
m_upper_op6_table[0b011000].set(VuInstrK::MULbc); // 24
m_upper_op6_table[0b011001].set(VuInstrK::MULbc); // 25
m_upper_op6_table[0b011010].set(VuInstrK::MULbc); // 26
m_upper_op6_table[0b011011].set(VuInstrK::MULbc); // 27
m_upper_op6_table[0b011100].set(VuInstrK::MULq); // 28
m_upper_op6_table[0b011101].set(VuInstrK::MAXi); // 29
m_upper_op6_table[0b011110].set(VuInstrK::MULi); // 30
m_upper_op6_table[0b011111].set(VuInstrK::MINIi); // 31
m_upper_op6_table[0b100000].set(VuInstrK::ADDq); // 32
m_upper_op6_table[0b100001].set(VuInstrK::MADDq); // 33
m_upper_op6_table[0b100010].set(VuInstrK::ADDi); // 34
// m_upper_op6_table[0b100011].set(VuInstrK::MADDi); // 35
// m_upper_op6_table[0b100100].set(VuInstrK::SUBq); // 36
// m_upper_op6_table[0b100101].set(VuInstrK::MSUBq); // 37
m_upper_op6_table[0b100110].set(VuInstrK::SUBi); // 38
// m_upper_op6_table[0b100111].set(VuInstrK::MSUBi); // 39
m_upper_op6_table[0b101000].set(VuInstrK::ADD); // 40
m_upper_op6_table[0b101001].set(VuInstrK::MADD); // 41
m_upper_op6_table[0b101010].set(VuInstrK::MUL); // 42
m_upper_op6_table[0b101011].set(VuInstrK::MAX); // 43
m_upper_op6_table[0b101100].set(VuInstrK::SUB); // 44
// m_upper_op6_table[0b101101].set(VuInstrK::MSUB); // 45
m_upper_op6_table[0b101110].set(VuInstrK::OPMSUB); // 46
m_upper_op6_table[0b101111].set(VuInstrK::MINI); // 47
// ???
m_upper_op6_table[0b111100].set_11(); // 60
m_upper_op6_table[0b111101].set_11(); // 61
m_upper_op6_table[0b111110].set_11(); // 62
m_upper_op6_table[0b111111].set_11(); // 63
add_op(VuInstrK::NOP, "nop").iemdt();
add_op(VuInstrK::LOWER_NOP, "nop");
add_op(VuInstrK::FTOI4, "ftoi4").iemdt().dst_mask().dst_vf_ft().src_vf_fs();
add_op(VuInstrK::FTOI0, "ftoi0").iemdt().dst_mask().dst_vf_ft().src_vf_fs();
add_op(VuInstrK::ITOF0, "itof0").iemdt().dst_mask().dst_vf_ft().src_vf_fs();
add_op(VuInstrK::ITOF12, "itof12").iemdt().dst_mask().dst_vf_ft().src_vf_fs();
add_op(VuInstrK::ITOF15, "itof15").iemdt().dst_mask().dst_vf_ft().src_vf_fs();
add_op(VuInstrK::FTOI12, "ftoi12").iemdt().dst_mask().dst_vf_ft().src_vf_fs();
add_op(VuInstrK::ADD, "add").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::MULbc, "mul").iemdt().dst_mask().bc().dss_fd_fs_ft();
add_op(VuInstrK::ADDbc, "add").iemdt().dst_mask().dss_fd_fs_ft().bc();
add_op(VuInstrK::MAXbc, "max").iemdt().dst_mask().dss_fd_fs_ft().bc();
add_op(VuInstrK::MULAbc, "mula").iemdt().bc().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::MADDAbc, "madda").iemdt().bc().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::MSUBAbc, "msuba").iemdt().bc().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::MADDbc, "madd").iemdt().dst_mask().dss_fd_fs_ft().bc();
add_op(VuInstrK::SUBbc, "sub").iemdt().dst_mask().dss_fd_fs_ft().bc();
add_op(VuInstrK::OPMULA, "opmula").iemdt().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::OPMSUB, "opmsub").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::MUL, "mul").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::MULq, "mul").iemdt().dst_mask().dst_vfd().src_vfs().src_q().vft_zero();
add_op(VuInstrK::SUB, "sub").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::MSUBbc, "msub").iemdt().dst_mask().dss_fd_fs_ft().bc();
add_op(VuInstrK::MADDA, "madda").iemdt().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::MULA, "mula").iemdt().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::MINIbc, "mini").iemdt().dst_mask().bc().dss_fd_fs_ft();
add_op(VuInstrK::MAXi, "maxi").iemdt().dst_mask().dst_vfd().src_vfs().vft_zero().src_i();
add_op(VuInstrK::MINIi, "minii").iemdt().dst_mask().dst_vfd().src_vfs().vft_zero().src_i();
add_op(VuInstrK::ADDAbc, "adda").iemdt().dst_mask().bc().dst_vfs().src_vft();
add_op(VuInstrK::CLIP, "clip").iemdt().dst_mask().bc().src_vfs().src_vft();
add_op(VuInstrK::MINI, "mini").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::MAX, "max").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::ADDA, "adda").iemdt().dst_mask().dst_acc().src_vfs().src_vft();
add_op(VuInstrK::MADD, "madd").iemdt().dst_mask().dss_fd_fs_ft();
add_op(VuInstrK::ADDq, "addq").iemdt().dst_mask().vft_zero().dst_vfd().src_vfs().src_q();
add_op(VuInstrK::MADDq, "madd").iemdt().dst_mask().vft_zero().dst_vfd().src_vfs().src_q();
add_op(VuInstrK::MULi, "muli").iemdt().dst_mask().vft_zero().dst_vfd().src_vfs().src_i();
add_op(VuInstrK::ADDi, "addi").iemdt().dst_mask().vft_zero().dst_vfd().src_vfs().src_i();
add_op(VuInstrK::MULAq, "mula").iemdt().dst_mask().dst_acc().vft_zero().src_vfs().src_q();
add_op(VuInstrK::SUBi, "subi").iemdt().dst_mask().vft_zero().dst_vfd().src_vfs().src_i();
m_lower_op6_table[0b000000].set(VuInstrK::LQ);
m_lower_op6_table[0b000001].set(VuInstrK::SQ);
m_lower_op6_table[0b000100].set(VuInstrK::ILW);
m_lower_op6_table[0b000101].set(VuInstrK::ISW);
m_lower_op6_table[0b001000].set(VuInstrK::IADDIU);
m_lower_op6_table[0b001001].set(VuInstrK::ISUBIU);
// m_lower_op6_table[0b010000].set(VuInstrK::FCEQ);
m_lower_op6_table[0b010001].set(VuInstrK::FCSET);
m_lower_op6_table[0b010010].set(VuInstrK::FCAND);
m_lower_op6_table[0b010011].set(VuInstrK::FCOR);
// m_lower_op6_table[0b010100].set(VuInstrK::FSEQ);
// m_lower_op6_table[0b010101].set(VuInstrK::FSSET);
m_lower_op6_table[0b010110].set(VuInstrK::FSAND);
// m_lower_op6_table[0b010111].set(VuInstrK::FSOR);
// m_lower_op6_table[0b011000].set(VuInstrK::FMEQ);
// ??
m_lower_op6_table[0b011010].set(VuInstrK::FMAND);
// m_lower_op6_table[0b011011].set(VuInstrK::FMOR);
m_lower_op6_table[0b011100].set(VuInstrK::FCGET);
// ??
m_lower_op6_table[0b100000].set(VuInstrK::B);
m_lower_op6_table[0b100001].set(VuInstrK::BAL);
m_lower_op6_table[0b100100].set(VuInstrK::JR);
m_lower_op6_table[0b100101].set(VuInstrK::JALR);
m_lower_op6_table[0b101000].set(VuInstrK::IBEQ);
m_lower_op6_table[0b101001].set(VuInstrK::IBNE);
m_lower_op6_table[0b101100].set(VuInstrK::IBLTZ);
m_lower_op6_table[0b101101].set(VuInstrK::IBGTZ);
m_lower_op6_table[0b101110].set(VuInstrK::IBLEZ);
m_lower_op6_table[0b101111].set(VuInstrK::IBGEZ);
add_op(VuInstrK::IBNE, "ibne").dst_mask_zero().src_vit().src_vis().rel_branch11();
add_op(VuInstrK::LQ, "lq").dst_mask().dst_vft().src_imm11_load_store().src_vis();
add_op(VuInstrK::ILW, "ilw").dst_mask().dst_vit().src_imm11_load_store().src_vis();
add_op(VuInstrK::IADDIU, "iaddiu").dst_vit().src_vis().src_imm15_unsigned();
add_op(VuInstrK::IADDI, "iaddi").dst_vit().src_vis().src_imm5_signed().dst_mask_zero();
add_op(VuInstrK::IOR, "ior").dst_vid().src_vis().src_vit().dst_mask_zero();
add_op(VuInstrK::SQI, "sqi").dst_vfs().src_vit().dst_mask();
add_op(VuInstrK::ISW, "isw").src_vit().src_imm11_load_store().src_vis().dst_mask();
add_op(VuInstrK::LQI, "lqi").dst_mask().dst_vft().src_vis();
add_op(VuInstrK::IADD, "iadd").dst_mask_zero().dst_vid().src_vis().src_vit();
add_op(VuInstrK::XGKICK, "xgkick").dst_mask_zero().vft_zero().src_vis();
add_op(VuInstrK::ISUB, "isub").dst_mask_zero().dst_vid().src_vis().src_vit();
add_op(VuInstrK::SQ, "sq").dst_mask().dst_vfs().src_imm11_load_store().src_vit();
add_op(VuInstrK::FMAND, "fmand").imm15_zero().dst_vit().src_vis();
add_op(VuInstrK::DIV, "div").ftf_1().fsf_0().dst_q().src_vfs().src_vft();
add_op(VuInstrK::MOVE, "move").dst_mask().dst_vft().src_vfs();
add_op(VuInstrK::MR32, "mr32").dst_mask().dst_vft().src_vfs();
add_op(VuInstrK::RSQRT, "rsqrt").ftf_1().fsf_0().dst_q().src_vfs().src_vft();
add_op(VuInstrK::ILWR, "ilwr").dst_mask().dst_vit().src_vis();
add_op(VuInstrK::MTIR, "mtir").ftf_zero().fsf_0().dst_vit().src_vfs();
add_op(VuInstrK::JR, "jr").dst_mask_zero().vit_zero().src_vis().imm11_zero();
add_op(VuInstrK::IAND, "iand").dst_mask_zero().dst_vid().src_vis().src_vit();
add_op(VuInstrK::IBEQ, "ibeq").src_vit().src_vis().dst_mask_zero().rel_branch11();
add_op(VuInstrK::B, "b").dst_mask_zero().vit_zero().vis_zero().rel_branch11();
// add_op(VuInstrK::XITOP, "xitop").dst_mask_zero().vis_zero().src_vit();
add_op(VuInstrK::XTOP, "xtop").dst_mask_zero().vis_zero().src_vit();
add_op(VuInstrK::BAL, "bal").dst_mask_zero().vis_zero().dst_vit().rel_branch11();
add_op(VuInstrK::MFIR, "mfir").dst_mask().dst_vft().src_vis();
add_op(VuInstrK::IBGTZ, "ibgtz").dst_mask_zero().vit_zero().src_vis().rel_branch11();
add_op(VuInstrK::FCGET, "fcget").imm15_zero().vis_zero().dst_vit();
add_op(VuInstrK::ISUBIU, "isubiu").dst_vit().src_vis().imm15_unsigned();
add_op(VuInstrK::FSAND, "fsand").dst_vit().imm15_unsigned().vis_zero(); // really imm12.
add_op(VuInstrK::IBLTZ, "ibltz").dst_mask_zero().vit_zero().src_vis().rel_branch11();
add_op(VuInstrK::FCSET, "fcset").src_imm24_unsigned();
add_op(VuInstrK::FCAND, "fcand vi01,").src_imm24_unsigned();
add_op(VuInstrK::FCOR, "fcor vi01,").src_imm24_unsigned();
add_op(VuInstrK::IBGEZ, "ibgez").dst_mask_zero().vit_zero().src_vis().rel_branch11();
add_op(VuInstrK::ISWR, "iswr").dst_mask().src_vit().src_vis();
add_op(VuInstrK::JALR, "jalr").dst_mask_zero().dst_vit().src_vis().imm11_zero();
add_op(VuInstrK::WAITP, "waitp").dst_mask_zero().vft_zero().vfs_zero();
add_op(VuInstrK::WAITQ, "waitq").dst_mask_zero().vft_zero().vfs_zero();
add_op(VuInstrK::IBLEZ, "iblez").dst_mask_zero().vit_zero().src_vis().rel_branch11();
add_op(VuInstrK::SQRT, "sqrt").fsf_zero().ftf_0().vis_zero().dst_q().src_vft();
add_op(VuInstrK::SQD, "sqd").dst_mask().src_vfs().src_vit();
add_op(VuInstrK::ERLENG, "erleng").dst_mask().vft_zero().src_vfs().dst_p();
add_op(VuInstrK::ESUM, "esum").dst_mask().vft_zero().src_vfs().dst_p();
add_op(VuInstrK::ESADD, "esadd").dst_mask().vft_zero().src_vfs().dst_p();
add_op(VuInstrK::ELENG, "eleng").dst_mask().vft_zero().src_vfs().dst_p();
add_op(VuInstrK::MFP, "mfp").dst_mask().dst_vft().src_p();
}
/*!
* Add a VU operation to the decode table
*/
VuDisassembler::OpInfo& VuDisassembler::add_op(VuInstrK kind, const std::string& name) {
ASSERT((int)kind < (int)VuInstrK::INVALID);
auto& elt = m_op_info[(int)kind];
elt.name = name;
elt.known = true;
return elt;
}
/*!
* Decode a lower instruction kind
*/
VuInstrK VuDisassembler::lower_kind(u32 in) {
auto op = lower_op(in);
if (in == 0b10000000000000000000000000110000) {
return VuInstrK::LOWER_NOP;
}
if (op == 0b1000000) {
switch (in & 0b111111) {
case 0b110010:
return VuInstrK::IADDI;
case 0b110101:
return VuInstrK::IOR;
case 0b110000:
return VuInstrK::IADD;
case 0b110001:
return VuInstrK::ISUB;
case 0b110100:
return VuInstrK::IAND;
}
switch (in & 0b11111111111) {
case 0b01100'1111'00:
return VuInstrK::MOVE;
case 0b01100'1111'01:
return VuInstrK::MR32;
case 0b01101'1111'00:
return VuInstrK::LQI;
case 0b01101'1111'01:
return VuInstrK::SQI;
case 0b01101'1111'11:
return VuInstrK::SQD;
case 0b01110'1111'00:
return VuInstrK::DIV;
case 0b01110'1111'01:
return VuInstrK::SQRT;
case 0b01110'1111'10:
return VuInstrK::RSQRT;
case 0b01110'1111'11:
return VuInstrK::WAITQ;
case 0b01111'1111'00:
return VuInstrK::MTIR;
case 0b01111'1111'01:
return VuInstrK::MFIR;
case 0b01111'1111'10:
return VuInstrK::ILWR;
case 0b01111'1111'11:
return VuInstrK::ISWR;
case 0b11001'1111'00:
return VuInstrK::MFP;
case 0b11010'1111'00:
return VuInstrK::XTOP;
case 0b11011'1111'00:
return VuInstrK::XGKICK;
case 0b11100'1111'00:
return VuInstrK::ESADD;
case 0b11100'1111'10:
return VuInstrK::ELENG;
case 0b11100'1111'11:
return VuInstrK::ERLENG;
case 0b11101'1111'10:
return VuInstrK::ESUM;
case 0b11110'1111'11:
return VuInstrK::WAITP;
}
ASSERT_MSG(false, fmt::format("Unknown lower special: 0b{:b}", in));
} else {
ASSERT((op & 0b1000000) == 0);
ASSERT(op < 64);
auto elt = m_lower_op6_table[(int)op];
if (!elt.known) {
ASSERT_MSG(false, fmt::format("Invalid lower op6: 0b{:b} 0b{:b} 0x{:x}", op, in, in));
}
return elt.kind;
}
}
/*!
* Decode an upper instruction kind
*/
VuInstrK VuDisassembler::upper_kind(u32 in) {
auto& upper_info = m_upper_op6_table[upper_op6(in)];
if (upper_info.goto_11) {
switch (upper_op11(in)) {
case 0b00000'1111'00:
case 0b00000'1111'01:
case 0b00000'1111'10:
case 0b00000'1111'11:
return VuInstrK::ADDAbc;
case 0b00010'1111'00:
case 0b00010'1111'01:
case 0b00010'1111'10:
case 0b00010'1111'11:
return VuInstrK::MADDAbc;
case 0b00011'1111'00:
case 0b00011'1111'01:
case 0b00011'1111'10:
case 0b00011'1111'11:
return VuInstrK::MSUBAbc;
case 0b00100'1111'00:
return VuInstrK::ITOF0;
case 0b00100'1111'10:
return VuInstrK::ITOF12;
case 0b00100'1111'11:
return VuInstrK::ITOF15;
case 0b00101'1111'00:
return VuInstrK::FTOI0;
case 0b00101'1111'01:
return VuInstrK::FTOI4;
case 0b00101'1111'10:
return VuInstrK::FTOI12;
case 0b00110'1111'00:
case 0b00110'1111'01:
case 0b00110'1111'10:
case 0b00110'1111'11:
return VuInstrK::MULAbc;
case 0b00111'1111'00:
return VuInstrK::MULAq;
case 0b00111'1111'11:
return VuInstrK::CLIP;
case 0b01010'1111'00:
return VuInstrK::ADDA;
case 0b01010'1111'01:
return VuInstrK::MADDA;
case 0b01010'1111'10:
return VuInstrK::MULA;
case 0b01011'1111'10:
return VuInstrK::OPMULA;
case 0b01011'1111'11:
ASSERT(upper_dest_mask(in) == 0);
ASSERT(upper_fs(in) == 0);
ASSERT(upper_ft(in) == 0);
return VuInstrK::NOP;
break;
default:
ASSERT_MSG(false, fmt::format("Invalid op11: 0b{:b}", upper_op11(in)));
}
}
if (!upper_info.known) {
ASSERT_MSG(false, fmt::format("Invalid upper op6: 0b{:b}", upper_op6(in)));
}
return upper_info.kind;
}
/*!
* Get the mask applied to instruction offsets.
*/
s32 VuDisassembler::get_instruction_index_mask() {
switch (m_kind) {
case VU0:
return (4096 / 8) - 1;
case VU1:
return (16384 / 8) - 1;
default:
ASSERT(false);
}
}
VuProgram VuDisassembler::disassemble(void* data, int size_bytes, bool debug_print) {
auto bytes = (u8*)data;
// should be 8 byte aligned size.
ASSERT((size_bytes & 0x7) == 0);
VuProgram prog;
int instruction_count = size_bytes / 8;
for (int i = 0; i < instruction_count; i++) {
u32 lower, upper;
memcpy(&lower, bytes + i * 8, 4);
memcpy(&upper, bytes + i * 8 + 4, 4);
// decode
auto upper_instr = decode(upper_kind(upper), upper, i);
auto lower_instr = upper_instr.i_bit() ? VuInstruction::make_fp_constant(lower)
: decode(lower_kind(lower), lower, i);
prog.add_instruction(upper_instr, lower_instr);
// debug
if (debug_print) {
lg::print("{}\n", to_string(VuInstructionPair{upper_instr, lower_instr}));
}
}
name_labels();
if (debug_print) {
lg::print("----------------------------------\n");
lg::print("{}\n", to_string(prog));
}
return prog;
}
VuInstruction VuDisassembler::decode(VuInstrK kind, u32 data, int instr_idx) {
VuInstruction instr;
instr.kind = kind;
auto& inst = info(kind);
if (!inst.known) {
ASSERT_MSG(false, fmt::format("instr idx {} is unknown", (int)kind));
}
for (auto& step : inst.decode) {
s64 value = -1;
switch (step.field) {
case VuDecodeStep::FieldK::IEMDT:
value = data >> 25;
ASSERT((value & 3) == 0);
break;
case VuDecodeStep::FieldK::DST_MASK:
value = upper_dest_mask(data);
break;
case VuDecodeStep::FieldK::FS:
value = upper_fs(data);
break;
case VuDecodeStep::FieldK::FT:
value = upper_ft(data);
break;
case VuDecodeStep::FieldK::FD:
value = upper_fd(data);
break;
case VuDecodeStep::FieldK::BC:
value = upper_bc(data);
break;
case VuDecodeStep::FieldK::NONE:
break;
case VuDecodeStep::FieldK::IMM11_BRANCH: {
s32 signed_11 = upper_op11(data) << 21;
signed_11 >>= 21;
s32 offset = signed_11 + instr_idx + 1;
offset &= 2047;
value = add_label(offset);
} break;
case VuDecodeStep::FieldK::IMM11_SIGNED: {
s32 signed_value = (data << 21);
signed_value = (signed_value >> 21);
value = signed_value;
} break;
case VuDecodeStep::FieldK::IMM15_UNSIGNED:
value = upper_imm15_unsigned(data);
break;
case VuDecodeStep::FieldK::IMM5_SIGNED: {
s32 signed_value = (data << 21);
value = (signed_value >> 27);
break;
}
case VuDecodeStep::FieldK::FTF:
value = (data >> 23) & 0b11;
break;
case VuDecodeStep::FieldK::FSF:
value = (data >> 21) & 0b11;
break;
case VuDecodeStep::FieldK::IMM24_UNSIGNED:
value = (data & 0b1111'1111'1111'1111'1111'1111);
break;
default:
ASSERT(false);
}
switch (step.atom) {
case VuDecodeStep::AtomK::IEMDT:
instr.iemdt = value;
break;
case VuDecodeStep::AtomK::DST_MASK:
instr.mask = value;
break;
case VuDecodeStep::AtomK::DST_VF:
ASSERT(!instr.dst);
instr.dst = VuInstructionAtom::make_vf(value);
break;
case VuDecodeStep::AtomK::DST_VI:
ASSERT(!instr.dst);
instr.dst = VuInstructionAtom::make_vi(value);
break;
case VuDecodeStep::AtomK::SRC_VF:
instr.src.push_back(VuInstructionAtom::make_vf(value));
break;
case VuDecodeStep::AtomK::BC:
ASSERT(!instr.bc);
instr.bc = value;
break;
case VuDecodeStep::AtomK::ASSERT_ZERO:
ASSERT(value == 0);
break;
case VuDecodeStep::AtomK::SRC_VI:
instr.src.push_back(VuInstructionAtom::make_vi(value));
break;
case VuDecodeStep::AtomK::BRANCH_TARGET:
instr.src.push_back(VuInstructionAtom::make_label(value));
break;
case VuDecodeStep::AtomK::LOAD_STORE_OFFSET:
instr.src.push_back(VuInstructionAtom::make_load_store_imm(value));
break;
case VuDecodeStep::AtomK::SRC_IMM:
instr.src.push_back(VuInstructionAtom::make_imm(value));
break;
case VuDecodeStep::AtomK::DST_ACC:
ASSERT(!instr.dst);
instr.dst = VuInstructionAtom::make_acc();
break;
case VuDecodeStep::AtomK::DST_Q:
ASSERT(!instr.dst);
instr.dst = VuInstructionAtom::make_q();
break;
case VuDecodeStep::AtomK::DST_P:
ASSERT(!instr.dst);
instr.dst = VuInstructionAtom::make_p();
break;
case VuDecodeStep::AtomK::SRC_Q:
instr.src.push_back(VuInstructionAtom::make_q());
break;
case VuDecodeStep::AtomK::SRC_I:
instr.src.push_back(VuInstructionAtom::make_i());
break;
case VuDecodeStep::AtomK::SRC_P:
instr.src.push_back(VuInstructionAtom::make_p());
break;
case VuDecodeStep::AtomK::SECOND_SOURCE_FIELD:
instr.second_src_field = value;
break;
case VuDecodeStep::AtomK::FIRST_SOURCE_FIELD:
instr.first_src_field = value;
break;
default:
ASSERT(false);
}
}
return instr;
}
namespace {
char bc_to_part(int x) {
switch (x) {
case 0:
return 'x';
case 1:
return 'y';
case 2:
return 'z';
case 3:
return 'w';
default:
return '?';
}
}
std::string mask_to_string(u8 val) {
std::string result;
if (val & 8) {
result += 'x';
}
if (val & 4) {
result += 'y';
}
if (val & 2) {
result += 'z';
}
if (val & 1) {
result += 'w';
}
return result;
}
std::string vf_src(const std::string& name, bool mips2c_format) {
if (mips2c_format) {
return fmt::format("c->vf_src({}).vf", name);
} else {
return fmt::format("vu.{}", name);
}
}
std::string vf_dst(const std::string& name, bool mips2c_format) {
if (mips2c_format) {
return fmt::format("c->vfs[{}].vf", name);
} else {
return fmt::format("vu.{}", name);
}
}
std::string vi_src(const std::string& name, bool mips2c_format) {
if (mips2c_format) {
return fmt::format("vis[{}]", name);
} else {
return fmt::format("vu.{}", name);
}
}
} // namespace
int unk = 0;
std::string VuDisassembler::to_cpp(const VuInstruction& instr, bool mips2c_format) const {
switch (instr.kind) {
case VuInstrK::NOP:
case VuInstrK::LOWER_NOP:
return "/* nop */";
case VuInstrK::LQ:
if (instr.src.at(1).is_int_reg(0)) {
return fmt::format("lq_buffer(Mask::{}, vu.{}, {});", mask_to_string(*instr.mask),
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
} else if (instr.src.at(0).value() == 0) {
return fmt::format(
fmt::runtime(mips2c_format ? "lq_buffer(Mask::{}, c->vfs[{}].vf, vis[{}]);"
: "lq_buffer(Mask::{}, vu.{}, vu.{});"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
} else {
return fmt::format(
fmt::runtime(mips2c_format ? "lq_buffer(Mask::{}, c->vfs[{}].vf, vis[{}] + {});"
: "lq_buffer(Mask::{}, vu.{}, vu.{} + {});"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(1).to_string(m_label_names), instr.src.at(0).to_string(m_label_names));
}
goto unknown;
case VuInstrK::LQI:
ASSERT(!instr.src.at(0).is_int_reg(0));
return fmt::format(
fmt::runtime(mips2c_format ? "lq_buffer(Mask::{}, c->vfs[{}].vf, vis[{}]++);"
: "lq_buffer(Mask::{}, vu.{}, vu.{}++);"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
case VuInstrK::SQI:
ASSERT(!instr.src.at(0).is_int_reg(0));
if (mips2c_format) {
return fmt::format("sq_buffer(Mask::{}, {}, vis[{}]++);", mask_to_string(*instr.mask),
vf_src(instr.dst->to_string(m_label_names), mips2c_format),
instr.src.at(0).to_string(m_label_names));
} else {
return fmt::format("sq_buffer(Mask::{}, vu.{}, vu.{}++);", mask_to_string(*instr.mask),
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
}
case VuInstrK::SQ:
if (instr.src.at(1).is_int_reg(0)) {
return fmt::format("sq_buffer(Mask::{}, vu.{}, {});", mask_to_string(*instr.mask),
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
} else if (instr.src.at(0).value() == 0) {
return fmt::format(
fmt::runtime(mips2c_format ? "sq_buffer(Mask::{}, c->vf_src({}).vf, vis[{}]);"
: "sq_buffer(Mask::{}, vu.{}, vu.{});"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
} else {
return fmt::format(
fmt::runtime(mips2c_format ? "sq_buffer(Mask::{}, c->vf_src({}).vf, vis[{}] + {});"
: "sq_buffer(Mask::{}, vu.{}, vu.{} + {});"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(1).to_string(m_label_names), instr.src.at(0).to_string(m_label_names));
}
goto unknown;
case VuInstrK::IADDI:
if (instr.src.at(0).is_int_reg(0)) {
return fmt::format("vu.{} = {};", instr.dst->to_string(m_label_names),
(s16)instr.src.at(1).value());
} else {
return fmt::format("vu.{} = vu.{} + {};", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), (s16)instr.src.at(1).value());
}
case VuInstrK::IADDIU:
ASSERT(!instr.dst->is_int_reg(0));
if (instr.src.at(0).is_int_reg(0)) {
if (mips2c_format) {
return fmt::format("vis[{}] = 0x{:x}; /* {} */", instr.dst->to_string(m_label_names),
(u16)instr.src.at(1).value(), instr.src.at(1).value());
} else {
return fmt::format("vu.{} = 0x{:x}; /* {} */", instr.dst->to_string(m_label_names),
(u16)instr.src.at(1).value(), instr.src.at(1).value());
}
} else {
if (mips2c_format) {
return fmt::format("vis[{}] = vis[{}] + 0x{:x}; /* {} */",
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), (u16)instr.src.at(1).value(),
instr.src.at(1).value());
} else {
return fmt::format("vu.{} = vu.{} + 0x{:x}; /* {} */",
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), (u16)instr.src.at(1).value(),
instr.src.at(1).value());
}
}
case VuInstrK::ISW:
if (instr.src.at(2).is_int_reg(0)) {
return fmt::format("isw_buffer(Mask::{}, vu.{}, {});", mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
} else {
return fmt::format("isw_buffer(Mask::{}, vu.{}, vu.{} + {});", mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names),
instr.src.at(2).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
}
goto unknown;
case VuInstrK::ISWR:
return fmt::format("isw_buffer(Mask::{}, vu.{}, vu.{});", mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
case VuInstrK::ILWR:
return fmt::format("ilw_buffer(Mask::{}, vu.{}, vu.{});", mask_to_string(*instr.mask),
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
case VuInstrK::ILW:
if (instr.src.at(1).is_int_reg(0)) {
return fmt::format("ilw_buffer(Mask::{}, vu.{}, {});", mask_to_string(*instr.mask),
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
} else {
return fmt::format("ilw_buffer(Mask::{}, vu.{}, vu.{} + {});", mask_to_string(*instr.mask),
instr.dst->to_string(m_label_names),
instr.src.at(1).to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
}
case VuInstrK::ISUBIU:
if (instr.src.at(0).is_int_reg(0)) {
return fmt::format("vu.{} = -{};", instr.dst->to_string(m_label_names),
instr.src.at(1).value());
} else {
return fmt::format("vu.{} = vu.{} - 0x{:x}; /* {} */", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), (u16)instr.src.at(1).value(),
instr.src.at(1).value());
}
case VuInstrK::MTIR:
return fmt::format(fmt::runtime(mips2c_format ? "vis[{}] = c->vf_src({}).vf.{}_as_u16();"
: "vu.{} = vu.{}.{}_as_u16();"),
instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names),
bc_to_part(*instr.first_src_field));
case VuInstrK::MFIR:
return fmt::format("vu.{}.mfir(Mask::{}, vu.{});", instr.dst->to_string(m_label_names),
mask_to_string(*instr.mask), instr.src.at(0).to_string(m_label_names));
case VuInstrK::B:
return fmt::format("bc = true;", instr.src.at(0).to_string(m_label_names));
case VuInstrK::IBGTZ:
return fmt::format("bc = ((s16)vu.{}) > 0;", instr.src.at(0).to_string(m_label_names));
case VuInstrK::IBLTZ:
return fmt::format("bc = ((s16)vu.{}) < 0;", instr.src.at(0).to_string(m_label_names));
case VuInstrK::IBLEZ:
return fmt::format("bc = ((s16)vu.{}) <= 0;", instr.src.at(0).to_string(m_label_names));
case VuInstrK::IBGEZ:
return fmt::format("bc = ((s16)vu.{}) >= 0;", instr.src.at(0).to_string(m_label_names));
case VuInstrK::IBEQ:
ASSERT(!instr.src.at(1).is_int_reg(0));
if (instr.src.at(0).is_int_reg(0)) {
return fmt::format("bc = ({} == 0);",
vi_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
} else {
return fmt::format("bc = ({} == {});",
vi_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vi_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
}
case VuInstrK::IBNE:
ASSERT(!instr.src.at(1).is_int_reg(0));
if (instr.src.at(0).is_int_reg(0)) {
return fmt::format("bc = ({} != 0);",
vi_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
} else {
return fmt::format("bc = ({} != {});",
vi_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vi_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
}
case VuInstrK::IADD:
ASSERT(!instr.src.at(1).is_int_reg(0));
ASSERT(!instr.src.at(0).is_int_reg(0));
ASSERT(!instr.dst->is_int_reg(0));
return fmt::format(
fmt::runtime(mips2c_format ? "vis[{}] = vis[{}] + vis[{}];" : "vu.{} = vu.{} + vu.{};"),
instr.dst->to_string(m_label_names), instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
case VuInstrK::ISUB:
return fmt::format("vu.{} = vu.{} - vu.{};", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
case VuInstrK::IAND:
ASSERT(!instr.src.at(1).is_int_reg(0));
ASSERT(!instr.src.at(0).is_int_reg(0));
ASSERT(!instr.dst->is_int_reg(0));
return fmt::format("{} = {} & {};",
vi_src(instr.dst->to_string(m_label_names), mips2c_format),
vi_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vi_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
case VuInstrK::IOR:
if (instr.src.at(1).is_int_reg(0)) {
if (instr.src.at(0).is_int_reg(0) && instr.src.at(1).is_int_reg(0)) {
return fmt::format("vu.{} = 0;", instr.dst->to_string(m_label_names));
} else {
ASSERT(!instr.dst->is_int_reg(0));
ASSERT(!instr.src.at(0).is_int_reg(0));
if (mips2c_format) {
return fmt::format("vis[{}] = vis[{}];", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
} else {
return fmt::format("vu.{} = vu.{};", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names));
}
}
} else {
return fmt::format("vu.{} = vu.{} | vu.{};", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
}
case VuInstrK::MFP:
return fmt::format("vu.{}.mfp(Mask::{}, vu.P);", instr.dst->to_string(m_label_names),
mask_to_string(*instr.mask));
case VuInstrK::MULq:
return fmt::format(
fmt::runtime(mips2c_format ? "c->vfs[{}].vf.mul(Mask::{}, c->vf_src({}).vf, c->Q);"
: "vu.{}.mul(Mask::{}, vu.{}, vu.Q);"),
instr.dst->to_string(m_label_names), mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names));
case VuInstrK::MULi:
return fmt::format(
fmt::runtime(mips2c_format ? "c->vfs[{}].vf.mul(Mask::{}, c->vf_src({}).vf, c->I);"
: "vu.{}.mul(Mask::{}, vu.{}, vu.I);"),
instr.dst->to_string(m_label_names), mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names));
case VuInstrK::DIV:
return fmt::format(
"vu.Q = vu.{}.{}() / vu.{}.{}();", instr.src.at(0).to_string(m_label_names),
bc_to_part(*instr.first_src_field), instr.src.at(1).to_string(m_label_names),
bc_to_part(*instr.second_src_field));
case VuInstrK::ERLENG:
return fmt::format("vu.P = erleng(vu.{});", instr.src.at(0).to_string(m_label_names));
case VuInstrK::ELENG:
return fmt::format("vu.P = eleng(vu.{});", instr.src.at(0).to_string(m_label_names));
case VuInstrK::RSQRT:
return fmt::format(
"c->Q = c->vf_src({}).vf.{}() / std::sqrt(c->vf_src({}).vf.{}());",
instr.src.at(0).to_string(m_label_names), bc_to_part(*instr.first_src_field),
instr.src.at(1).to_string(m_label_names), bc_to_part(*instr.second_src_field));
case VuInstrK::MR32:
case VuInstrK::MOVE:
case VuInstrK::ITOF0:
case VuInstrK::ITOF12:
case VuInstrK::ITOF15:
case VuInstrK::FTOI0:
case VuInstrK::FTOI4:
case VuInstrK::FTOI12:
return fmt::format("{}.{}(Mask::{}, {});",
vf_dst(instr.dst->to_string(m_label_names), mips2c_format),
info(instr.kind).name, mask_to_string(*instr.mask),
vf_src(instr.src.at(0).to_string(m_label_names), mips2c_format));
case VuInstrK::CLIP:
return fmt::format("ASSERT(false); cf = clip({}, {}.w(), cf);",
vf_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vf_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
case VuInstrK::FCAND:
return fmt::format("fcand(vu.vi01, 0x{:x}, cf);\n", instr.src.at(0).value());
case VuInstrK::FCOR:
return fmt::format("fcor(vu.vi01, 0x{:x}, cf);\n", instr.src.at(0).value());
case VuInstrK::FCSET:
return fmt::format("cf = 0x{:x};\n", instr.src.at(0).value());
case VuInstrK::ADDbc:
case VuInstrK::SUBbc:
case VuInstrK::MULbc:
case VuInstrK::MINIbc:
case VuInstrK::MAXbc:
return fmt::format("{}.{}(Mask::{}, {}, {}.{}());",
vf_dst(instr.dst->to_string(m_label_names), mips2c_format),
info(instr.kind).name, mask_to_string(*instr.mask),
vf_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vf_src(instr.src.at(1).to_string(m_label_names), mips2c_format),
bc_to_part(*instr.bc));
case VuInstrK::FP_CONSTANT:
if (mips2c_format) {
return fmt::format("c->I = {};", float_to_string(instr.fp));
} else {
return fmt::format("vu.I = {};", float_to_string(instr.fp));
}
case VuInstrK::MINIi:
case VuInstrK::MAXi:
return fmt::format("{}.{}(Mask::{}, {}, {});",
vf_dst(instr.dst->to_string(m_label_names), mips2c_format),
info(instr.kind).name, mask_to_string(*instr.mask),
vf_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
mips2c_format ? "c->I" : "vu.I");
case VuInstrK::SUB:
if (instr.dst.value().value() == instr.src.at(0).value() &&
instr.src.at(0).value() == instr.src.at(1).value() && instr.mask.value() == 0b1111) {
return fmt::format("vu.{}.set_zero();", instr.src.at(0).to_string(m_label_names));
} else {
return fmt::format("{}.{}(Mask::{}, {}, {});",
vf_dst(instr.dst->to_string(m_label_names), mips2c_format),
info(instr.kind).name, mask_to_string(*instr.mask),
vf_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vf_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
}
break;
case VuInstrK::MUL:
case VuInstrK::ADD:
case VuInstrK::MAX:
case VuInstrK::MINI:
return fmt::format("{}.{}(Mask::{}, {}, {});",
vf_dst(instr.dst->to_string(m_label_names), mips2c_format),
info(instr.kind).name, mask_to_string(*instr.mask),
vf_src(instr.src.at(0).to_string(m_label_names), mips2c_format),
vf_src(instr.src.at(1).to_string(m_label_names), mips2c_format));
case VuInstrK::ADDAbc:
return fmt::format(
fmt::runtime(mips2c_format
? "c->acc.vf.adda(Mask::{}, c->vfs[{}].vf, c->vfs[{}].vf.{}());"
: "vu.acc.adda(Mask::{}, vu.{}, vu.{}.{}());"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), bc_to_part(*instr.bc));
case VuInstrK::MADDA:
return fmt::format("vu.acc.madda(Mask::{}, vu.{}, vu.{});", mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
case VuInstrK::MADDAbc:
return fmt::format(
fmt::runtime(mips2c_format
? "c->acc.vf.madda(Mask::{}, c->vfs[{}].vf, c->vfs[{}].vf.{}());"
: "vu.acc.madda(Mask::{}, vu.{}, vu.{}.{}());"),
mask_to_string(*instr.mask), instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names), bc_to_part(*instr.bc));
case VuInstrK::MADDbc:
return fmt::format(
fmt::runtime(mips2c_format ? "c->acc.vf.madd(Mask::{}, c->vfs[{}].vf, c->vf_src({}).vf, "
"c->vf_src({}).vf.{}());"
: "vu.acc.madd(Mask::{}, vu.{}, vu.{}, vu.{}.{}());"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), instr.src.at(1).to_string(m_label_names),
bc_to_part(*instr.bc));
case VuInstrK::MSUBbc:
return fmt::format(
fmt::runtime(mips2c_format ? "c->acc.vf.msub(Mask::{}, c->vfs[{}].vf, c->vf_src({}).vf, "
"c->vf_src({}).vf.{}());"
: "vu.acc.msub(Mask::{}, vu.{}, vu.{}, vu.{}.{}());"),
mask_to_string(*instr.mask), instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names), instr.src.at(1).to_string(m_label_names),
bc_to_part(*instr.bc));
case VuInstrK::MULA:
return fmt::format("vu.acc.mula(Mask::{}, vu.{}, vu.{});", mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
case VuInstrK::MULAq:
return fmt::format("vu.acc.mula(Mask::{}, vu.{}, vu.Q);", mask_to_string(*instr.mask),
instr.src.at(0).to_string(m_label_names));
case VuInstrK::MULAbc:
return fmt::format(
fmt::runtime(mips2c_format
? "c->acc.vf.mula(Mask::{}, c->vf_src({}).vf, c->vf_src({}).vf.{}());"
: "vu.acc.mula(Mask::{}, vu.{}, vu.{}.{}());"),
mask_to_string(*instr.mask), instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names), bc_to_part(*instr.bc));
case VuInstrK::XGKICK:
return fmt::format("xgkick(vu.{});", instr.src.at(0).to_string(m_label_names));
case VuInstrK::XTOP:
return fmt::format("vu.{} = xtop();", instr.src.at(0).to_string(m_label_names));
case VuInstrK::OPMULA:
return fmt::format("vu.acc.opmula(vu.{}, vu.{});", instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
case VuInstrK::OPMSUB:
return fmt::format("vu.acc.opmsub(vu.{}, vu.{}, vu.{});", instr.dst->to_string(m_label_names),
instr.src.at(0).to_string(m_label_names),
instr.src.at(1).to_string(m_label_names));
default:
unk++;
lg::print("unknown 0 is {}\n", to_string(instr));
return "ASSERT(false);"; //"???";
}
unknown:
unk++;
lg::print("unknown 1 is {}\n", to_string(instr));
return "ASSERT(false);";
}
std::string VuDisassembler::to_string(const VuInstruction& instr) const {
if (instr.kind == VuInstrK::FP_CONSTANT) {
return float_to_string(instr.fp);
}
auto& in = info(instr.kind);
if (!in.known) {
ASSERT(false);
}
std::string result;
result += in.name;
if (instr.bc) {
result += bc_to_part(*instr.bc);
}
if (instr.mask) {
u8 val = *instr.mask;
result += '.';
if (val & 8) {
result += 'x';
}
if (val & 4) {
result += 'y';
}
if (val & 2) {
result += 'z';
}
if (val & 1) {
result += 'w';
}
}
bool comma = false;
if (instr.dst) {
result += " ";
result += instr.dst->to_string(m_label_names);
result += ',';
comma = true;
}
bool close = false;
int idx = 0;
for (auto& src : instr.src) {
if (close) {
} else {
result += " ";
}
result += src.to_string(m_label_names);
if (idx == 0 && instr.first_src_field) {
result += '.';
result += bc_to_part(*instr.first_src_field);
}
if (idx == 1 && instr.second_src_field) {
result += '.';
result += bc_to_part(*instr.second_src_field);
}
if (src.kind() == VuInstructionAtom::Kind::LOAD_STORE_IMM) {
result += '(';
close = true;
} else {
if (close) {
result += ")";
close = false;
comma = false;
} else {
result += ',';
comma = true;
}
}
idx++;
}
ASSERT(!close);
if (comma) {
result.pop_back();
}
if (instr.iemdt) {
u8 val = *instr.iemdt;
if (val & 0b100) {
result += " :t";
}
if (val & 0b1000) {
result += " :d";
}
if (val & 0b10000) {
result += " :m";
}
if (val & 0b100000) {
result += " :e";
}
if (val & 0b1000000) {
result += " :i";
}
}
return result;
}
std::string VuDisassembler::to_string(const VuInstructionPair& pair) const {
return fmt::format(" {:25s} | {:25s}", to_string(pair.lower), to_string(pair.upper));
}
std::string VuDisassembler::to_string(const VuProgram& prog) const {
std::string result;
for (int i = 0; i < (int)prog.instructions().size(); i++) {
auto lab = m_labels.find(i);
if (lab != m_labels.end()) {
result += m_label_names.at(lab->second);
result += ':';
result += '\n';
}
// result += fmt::format("{} ;; 0x{:x}", to_string(prog.instructions().at(i)), i);
result += to_string(prog.instructions().at(i));
result += '\n';
}
return result;
}
int VuDisassembler::add_label(int instr) {
auto existing = m_labels.find(instr);
if (existing == m_labels.end()) {
int new_idx = m_labels.size();
m_labels[instr] = new_idx;
return new_idx;
} else {
return existing->second;
}
}
void VuDisassembler::add_label_with_name(int instr, const std::string& name) {
add_label(instr);
m_user_named_instructions[instr] = name;
}
void VuDisassembler::name_labels() {
std::vector<int> instrs_with_labels;
for (auto [instr, label_idx] : m_labels) {
instrs_with_labels.push_back(instr);
}
m_label_names.resize(instrs_with_labels.size());
std::sort(instrs_with_labels.begin(), instrs_with_labels.end());
int idx = 1;
for (auto& instr : instrs_with_labels) {
auto label_idx = m_labels.at(instr);
m_label_names.at(label_idx) = fmt::format("L{}", idx++);
}
for (auto& kv : m_user_named_instructions) {
m_label_names.at(m_labels.at(kv.first)) = kv.second;
}
}
bool has_branch_delay(const VuInstructionPair& pair) {
switch (pair.lower.kind) {
case VuInstrK::JALR:
// case VuInstrK::JR: it does, but it's not supported
case VuInstrK::IBGTZ:
case VuInstrK::IBNE:
case VuInstrK::IBEQ:
case VuInstrK::B:
case VuInstrK::BAL:
case VuInstrK::IBLTZ:
case VuInstrK::IBLEZ:
case VuInstrK::IBGEZ:
return true;
default:
return false;
}
}
std::string get_label_name(const VuInstructionPair& pair,
const std::vector<std::string>& label_names) {
for (auto& arg : pair.lower.src) {
if (arg.kind() == VuInstructionAtom::Kind::LABEL) {
return arg.to_string(label_names);
}
}
ASSERT(false);
}
std::string VuDisassembler::to_string_with_cpp(const VuProgram& prog, bool mips2c_format) const {
std::string result;
for (int i = 0; i < (int)prog.instructions().size(); i++) {
auto lab = m_labels.find(i);
if (lab != m_labels.end()) {
result += m_label_names.at(lab->second);
result += ':';
result += '\n';
}
auto& pair = prog.instructions().at(i);
if (has_branch_delay(pair) && pair.lower.kind != VuInstrK::JALR) {
result += " // BRANCH!\n";
// set bc
result += to_string_with_cpp(prog.instructions().at(i), mips2c_format, i);
result += "\n";
result += to_string_with_cpp(prog.instructions().at(i + 1), mips2c_format, i + 1);
result += "\n";
result += fmt::format(" if (bc) {{ goto {}; }}", get_label_name(pair, m_label_names));
result += "\n\n";
i++;
} else {
result += to_string_with_cpp(prog.instructions().at(i), mips2c_format, i);
result += '\n';
}
if (i > 0) {
const auto& prev = prog.instructions().at(i - 1);
bool has_ebit = false;
if (prev.lower.iemdt && (*prev.lower.iemdt & 0b100000)) {
has_ebit = true;
}
if (prev.upper.iemdt && (*prev.upper.iemdt & 0b100000)) {
has_ebit = true;
}
if (has_ebit) {
result += "return;\n\n";
}
}
}
lg::print("TOTAL unk: {}\n", unk);
return result;
}
namespace {
bool is_nop(const VuInstruction& i) {
return i.kind == VuInstrK::NOP || i.kind == VuInstrK::LOWER_NOP;
}
} // namespace
std::string VuDisassembler::to_string_with_cpp(const VuInstructionPair& pair,
bool mips2c_format,
int idx) const {
std::string result;
result +=
fmt::format(" // {:25s} | {:30s} {}\n", to_string(pair.lower), to_string(pair.upper), idx);
if (!is_nop(pair.lower) && !is_nop(pair.upper) && pair.lower.kind == VuInstrK::FP_CONSTANT) {
result += fmt::format(" {:25s}", to_cpp(pair.upper, mips2c_format));
result += fmt::format(" {:25s}", to_cpp(pair.lower, mips2c_format));
} else {
if (!is_nop(pair.upper)) {
result += fmt::format(" {:25s}", to_cpp(pair.upper, mips2c_format));
}
if (!is_nop(pair.lower)) {
result += fmt::format(" {:25s}", to_cpp(pair.lower, mips2c_format));
}
}
return result;
}
} // namespace decompiler