rpcsx/rpcs3/Emu/Cell/PPUDisAsm.h

#pragma once

#include "Emu/Cell/PPCDisAsm.h"
#include "Emu/Cell/PPUOpcodes.h"

class PPUDisAsm final : public PPCDisAsm
{
public:
	PPUDisAsm(cpu_disasm_mode mode, const u8* offset) : PPCDisAsm(mode, offset)
	{
	}

private:
	u32 DisAsmBranchTarget(const s32 imm) override
	{
		return dump_pc + (imm & ~3);
	}

	constexpr const char* get_partial_BI_field(u32 bi)
	{
		switch (bi % 4)
		{
		case 0x0: return "lt";
		case 0x1: return "gt";
		case 0x2: return "eq";
		case 0x3: return "so";
		default: fmt::throw_exception("Unreachable");
		}
	}

private:
	void DisAsm_V4(std::string_view op, u32 v0, u32 v1, u32 v2, u32 v3)
	{
		fmt::append(last_opcode, "%-*s v%d,v%d,v%d,v%d", PadOp(), op, v0, v1, v2, v3);
	}
	void DisAsm_V3_UIMM(std::string_view op, u32 v0, u32 v1, u32 v2, u32 uimm)
	{
		fmt::append(last_opcode, "%-*s v%d,v%d,v%d,%s", PadOp(), op, v0, v1, v2, uimm);
	}
	void DisAsm_V3(std::string_view op, u32 v0, u32 v1, u32 v2)
	{
		fmt::append(last_opcode, "%-*s v%d,v%d,v%d", PadOp(), op, v0, v1, v2);
	}
	void DisAsm_V2_UIMM(std::string_view op, u32 v0, u32 v1, u32 uimm)
	{
		fmt::append(last_opcode, "%-*s v%d,v%d,%s", PadOp(), op, v0, v1, uimm);
	}
	void DisAsm_V2(std::string_view op, u32 v0, u32 v1)
	{
		fmt::append(last_opcode, "%-*s v%d,v%d", PadOp(), op, v0, v1);
	}
	void DisAsm_V1_SIMM(std::string_view op, u32 v0, s32 simm)
	{
		fmt::append(last_opcode, "%-*s v%d,%s", PadOp(), op, v0, SignedHex(simm));
	}
	void DisAsm_V1(std::string_view op, u32 v0)
	{
		fmt::append(last_opcode, "%-*s v%d", PadOp(), op, v0);
	}
	void DisAsm_V1_R2(std::string_view op, u32 v0, u32 r1, u32 r2)
	{
		fmt::append(last_opcode, "%-*s v%d,r%d,r%d", PadOp(), op, v0, r1, r2);
	}
	void DisAsm_CR1_F2_RC(std::string_view op, u32 cr0, u32 f0, u32 f1, u32 rc)
	{
		fmt::append(last_opcode, "%-*s cr%d,f%d,f%d", PadOp(op, rc ? 1 : 0), op, cr0, f0, f1);
		insert_char_if(op, !!rc);
	}
	void DisAsm_CR1_F2(std::string_view op, u32 cr0, u32 f0, u32 f1)
	{
		DisAsm_CR1_F2_RC(op, cr0, f0, f1, false);
	}
	void DisAsm_INT1_R2(std::string_view op, u32 i0, u32 r0, u32 r1)
	{
		fmt::append(last_opcode, "%-*s %d,r%d,r%d", PadOp(), op, i0, r0, r1);
	}
	void DisAsm_INT1_R1_IMM(std::string_view op, u32 i0, u32 r0, s32 imm0)
	{
		fmt::append(last_opcode, "%-*s %d,r%d,%s", PadOp(), op, i0, r0, SignedHex(imm0));
	}
	void DisAsm_INT1_R1_RC(std::string_view op, u32 i0, u32 r0, u32 rc)
	{
		fmt::append(last_opcode, "%-*s %d,r%d", PadOp(op, rc ? 1 : 0), op, i0, r0);
		insert_char_if(op, !!rc);
	}
	void DisAsm_INT1_R1(std::string_view op, u32 i0, u32 r0)
	{
		DisAsm_INT1_R1_RC(op, i0, r0, false);
	}
	void DisAsm_F4_RC(std::string_view op, u32 f0, u32 f1, u32 f2, u32 f3, u32 rc)
	{
		fmt::append(last_opcode, "%-*s f%d,f%d,f%d,f%d", PadOp(op, rc ? 1 : 0), op, f0, f1, f2, f3);
		insert_char_if(op, !!rc);
	}
	void DisAsm_F3_RC(std::string_view op, u32 f0, u32 f1, u32 f2, u32 rc)
	{
		fmt::append(last_opcode, "%-*s f%d,f%d,f%d", PadOp(op, rc ? 1 : 0), op, f0, f1, f2);
		insert_char_if(op, !!rc);
	}
	void DisAsm_F3(std::string_view op, u32 f0, u32 f1, u32 f2)
	{
		DisAsm_F3_RC(op, f0, f1, f2, false);
	}
	void DisAsm_F2_RC(std::string_view op, u32 f0, u32 f1, u32 rc)
	{
		fmt::append(last_opcode, "%-*s f%d,f%d", PadOp(op, rc ? 1 : 0), op, f0, f1);
		insert_char_if(op, !!rc);
	}
	void DisAsm_F2(std::string_view op, u32 f0, u32 f1)
	{
		DisAsm_F2_RC(op, f0, f1, false);
	}
	void DisAsm_F1_R2(std::string_view op, u32 f0, u32 r0, u32 r1)
	{
		if (m_mode == cpu_disasm_mode::compiler_elf)
		{
			fmt::append(last_opcode, "%-*s f%d,r%d,r%d", PadOp(), op, f0, r0, r1);
			return;
		}

		fmt::append(last_opcode, "%-*s f%d,r%d(r%d)", PadOp(), op, f0, r0, r1);
	}
	void DisAsm_F1_IMM_R1_RC(std::string_view op, u32 f0, s32 imm0, u32 r0, u32 rc)
	{
		if (m_mode == cpu_disasm_mode::compiler_elf)
		{
			fmt::append(last_opcode, "%-*s f%d,r%d,%s", PadOp(op, rc ? 1 : 0), op, f0, r0, SignedHex(imm0));
			insert_char_if(op, !!rc);
			return;
		}

		fmt::append(last_opcode, "%-*s f%d,%s(r%d)", PadOp(op, rc ? 1 : 0), op, f0, SignedHex(imm0), r0);
		insert_char_if(op, !!rc);
	}
	void DisAsm_F1_IMM_R1(std::string_view op, u32 f0, s32 imm0, u32 r0)
	{
		DisAsm_F1_IMM_R1_RC(op, f0, imm0, r0, false);
	}
	void DisAsm_F1_RC(std::string_view op, u32 f0, u32 rc)
	{
		fmt::append(last_opcode, "%-*s f%d", PadOp(op, rc ? 1 : 0), op, f0);
		insert_char_if(op, !!rc);
	}
	void DisAsm_R1_RC(std::string_view op, u32 r0, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d", PadOp(op, rc ? 1 : 0), op, r0);
		insert_char_if(op, !!rc);
	}
	void DisAsm_R1(std::string_view op, u32 r0)
	{
		DisAsm_R1_RC(op, r0, false);
	}
	void DisAsm_R2_OE_RC(std::string_view op, u32 r0, u32 r1, u32 _oe, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d,r%d", PadOp(op, (rc ? 1 : 0) + (_oe ? 1 : 0)), op, r0, r1);
		insert_char_if(insert_char_if(op, !!_oe, 'o'), !!rc, '.');
	}
	void DisAsm_R2_RC(std::string_view op, u32 r0, u32 r1, u32 rc)
	{
		DisAsm_R2_OE_RC(op, r0, r1, false, rc);
	}
	void DisAsm_R2(std::string_view op, u32 r0, u32 r1)
	{
		DisAsm_R2_RC(op, r0, r1, false);
	}
	void DisAsm_R3_OE_RC(std::string_view op, u32 r0, u32 r1, u32 r2, u32 _oe, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d,r%d,r%d", PadOp(op, (rc ? 1 : 0) + (_oe ? 1 : 0)), op, r0, r1, r2);
		insert_char_if(insert_char_if(op, !!_oe, 'o'), !!rc, '.');
	}
	void DisAsm_R3_INT2_RC(std::string_view op, u32 r0, u32 r1, u32 r2, s32 i0, s32 i1, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d,r%d,r%d,%d,%d", PadOp(op, rc ? 1 : 0), op, r0, r1, r2, i0, i1);
		insert_char_if(op, !!rc);
	}
	void DisAsm_R3_RC(std::string_view op, u32 r0, u32 r1, u32 r2, u32 rc)
	{
		DisAsm_R3_OE_RC(op, r0, r1, r2, false, rc);
	}
	void DisAsm_R3(std::string_view op, u32 r0, u32 r1, u32 r2)
	{
		DisAsm_R3_RC(op, r0, r1, r2, false);
	}
	void DisAsm_R2_INT3_RC(std::string_view op, u32 r0, u32 r1, s32 i0, s32 i1, s32 i2, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d,r%d,%d,%d,%d", PadOp(op, rc ? 1 : 0), op, r0, r1, i0, i1, i2);
		insert_char_if(op, !!rc);
	}
	void DisAsm_R2_INT3(std::string_view op, u32 r0, u32 r1, s32 i0, s32 i1, s32 i2)
	{
		DisAsm_R2_INT3_RC(op, r0, r1, i0, i1, i2, false);
	}
	void DisAsm_R2_INT2_RC(std::string_view op, u32 r0, u32 r1, s32 i0, s32 i1, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d,r%d,%d,%d", PadOp(op, rc ? 1 : 0), op, r0, r1, i0, i1);
		insert_char_if(op, !!rc);
	}
	void DisAsm_R2_INT2(std::string_view op, u32 r0, u32 r1, s32 i0, s32 i1)
	{
		DisAsm_R2_INT2_RC(op, r0, r1, i0, i1, false);
	}
	void DisAsm_R2_INT1_RC(std::string_view op, u32 r0, u32 r1, s32 i0, u32 rc)
	{
		fmt::append(last_opcode, "%-*s r%d,r%d,%d", PadOp(op, rc ? 1 : 0), op, r0, r1, i0);
		insert_char_if(op, !!rc);
	}
	void DisAsm_R2_INT1(std::string_view op, u32 r0, u32 r1, s32 i0)
	{
		DisAsm_R2_INT1_RC(op, r0, r1, i0, false);
	}
	void DisAsm_R2_IMM(std::string_view op, u32 r0, u32 r1, s32 imm0)
	{
		if (m_mode == cpu_disasm_mode::compiler_elf)
		{
			fmt::append(last_opcode, "%-*s r%d,r%d,%s", PadOp(), op, r0, r1, SignedHex(imm0));
			return;
		}

		fmt::append(last_opcode, "%-*s r%d,%s(r%d)", PadOp(), op, r0, SignedHex(imm0), r1);
	}
	void DisAsm_R1_IMM(std::string_view op, u32 r0, s32 imm0)
	{
		fmt::append(last_opcode, "%-*s r%d,%s", PadOp(), op, r0, SignedHex(imm0));
	}
	void DisAsm_IMM_R1(std::string_view op, s32 imm0, u32 r0)
	{
		fmt::append(last_opcode, "%-*s %d,r%d  #%x", PadOp(), op, imm0, r0, imm0);
	}
	void DisAsm_CR1_R1_IMM(std::string_view op, u32 cr0, u32 r0, s32 imm0)
	{
		fmt::append(last_opcode, "%-*s cr%d,r%d,%s", PadOp(), op, cr0, r0, SignedHex(imm0));
	}
	void DisAsm_CR1_R2_RC(std::string_view op, u32 cr0, u32 r0, u32 r1, u32 rc)
	{
		fmt::append(last_opcode, "%-*s cr%d,r%d,r%d", PadOp(op, rc ? 1 : 0), op, cr0, r0, r1);
		insert_char_if(op, !!rc);
	}
	void DisAsm_CR1_R1(std::string_view op, u32 cr0, u32 r0)
	{
		fmt::append(last_opcode, "%-*s cr%d,r%d", PadOp(), op, cr0, r0);
	}
	void DisAsm_R1_CR1(std::string_view op, u32 r0, u32 cr0)
	{
		fmt::append(last_opcode, "%-*s r%d,cr%d", PadOp(), op, r0, cr0);
	}
	void DisAsm_CR1_R2(std::string_view op, u32 cr0, u32 r0, u32 r1)
	{
		DisAsm_CR1_R2_RC(op, cr0, r0, r1, false);
	}
	void DisAsm_CR2(std::string_view op, u32 cr0, u32 cr1)
	{
		fmt::append(last_opcode, "%-*s cr%d,cr%d", PadOp(), op, cr0, cr1);
	}
	void DisAsm_BI1(std::string_view op, const int i0)
	{
		fmt::append(last_opcode, "%-*s cr%d[%s]", PadOp(), op, i0 / 4, get_partial_BI_field(i0));
	}
	void DisAsm_BI2(std::string_view op, const int i0, const int i1)
	{
		fmt::append(last_opcode, "%-*s cr%d[%s],cr%d[%s]", PadOp(), op, i0 / 4, get_partial_BI_field(i0), i1 / 4, get_partial_BI_field(i1));
	}
	void DisAsm_BI3(std::string_view op, const int i0, const int i1, const int i2)
	{
		fmt::append(last_opcode, "%-*s cr%d[%s],cr%d[%s],cr%d[%s]", PadOp(), op,
		i0 / 4, get_partial_BI_field(i0), i1 / 4, get_partial_BI_field(i1), i2 / 4, get_partial_BI_field(i2));
	}
	void DisAsm_INT3(std::string_view op, const int i0, const int i1, const int i2)
	{
		fmt::append(last_opcode, "%-*s %d,%d,%d", PadOp(), op, i0, i1, i2);
	}
	void DisAsm_INT1(std::string_view op, const int i0)
	{
		fmt::append(last_opcode, "%-*s %d", PadOp(), op, i0);
	}
	void DisAsm_BRANCH(std::string_view op, const int pc)
	{
		fmt::append(last_opcode, "%-*s 0x%x", PadOp(), op, DisAsmBranchTarget(pc));
	}
	void DisAsm_BRANCH_A(std::string_view op, const int pc)
	{
		fmt::append(last_opcode, "%-*s 0x%x", PadOp(), op, pc);
	}
	void DisAsm_B2_BRANCH(std::string_view op, u32 b0, u32 b1, const int pc)
	{
		fmt::append(last_opcode, "%-*s %d,%d,0x%x ", PadOp(), op, b0, b1, DisAsmBranchTarget(pc));
	}
	void DisAsm_CR_BRANCH(std::string_view op, u32 cr, const int pc)
	{
		fmt::append(last_opcode, "%-*s cr%d,0x%x ", PadOp(), op, cr, DisAsmBranchTarget(pc));
	}
	void DisAsm_CR_BRANCH_A(std::string_view op, u32 cr, const int pc)
	{
		fmt::append(last_opcode, "%-*s cr%d,0x%x ", PadOp(), op, cr, pc);
	}
	void DisAsm_BI_BRANCH(std::string_view op, u32 bi, const int pc)
	{
		fmt::append(last_opcode, "%-*s cr%d[%s],0x%x ", PadOp(), op, bi / 4, get_partial_BI_field(bi), DisAsmBranchTarget(pc));
	}
	void DisAsm_BI_BRANCH_A(std::string_view op, u32 bi, const int pc)
	{
		fmt::append(last_opcode, "%-*s cr%d[%s],0x%x ", PadOp(), op, bi / 4, get_partial_BI_field(bi), pc);
	}

public:
	u32 disasm(u32 pc) override;
	std::pair<const void*, usz> get_memory_span() const override;
	std::unique_ptr<CPUDisAsm> copy_type_erased() const override;

	enum class const_op
	{
		none,
		form, // Cosntant formation
		xor_mask, // Constant XOR mask applied (used with CMPI/CMPLI instructions, covers their limit of 16-bit immediates)
	};

	std::pair<const_op, u64> try_get_const_op_gpr_value(u32 reg, u32 pc = -1, u32 TTL = 10) const;

	std::pair<bool, u64> try_get_const_gpr_value(u32 reg, u32 pc = -1) const
	{
		auto [op, res] = try_get_const_op_gpr_value(reg, pc);
		return {op == const_op::form, res};
	}

	std::pair<bool, u64> try_get_const_xor_gpr_value(u32 reg, u32 pc = -1) const
	{
		auto [op, res] = try_get_const_op_gpr_value(reg, pc);
		return {op == const_op::xor_mask, res};
	}

	void MFVSCR(ppu_opcode_t op);
	void MTVSCR(ppu_opcode_t op);
	void VADDCUW(ppu_opcode_t op);
	void VADDFP(ppu_opcode_t op);
	void VADDSBS(ppu_opcode_t op);
	void VADDSHS(ppu_opcode_t op);
	void VADDSWS(ppu_opcode_t op);
	void VADDUBM(ppu_opcode_t op);
	void VADDUBS(ppu_opcode_t op);
	void VADDUHM(ppu_opcode_t op);
	void VADDUHS(ppu_opcode_t op);
	void VADDUWM(ppu_opcode_t op);
	void VADDUWS(ppu_opcode_t op);
	void VAND(ppu_opcode_t op);
	void VANDC(ppu_opcode_t op);
	void VAVGSB(ppu_opcode_t op);
	void VAVGSH(ppu_opcode_t op);
	void VAVGSW(ppu_opcode_t op);
	void VAVGUB(ppu_opcode_t op);
	void VAVGUH(ppu_opcode_t op);
	void VAVGUW(ppu_opcode_t op);
	void VCFSX(ppu_opcode_t op);
	void VCFUX(ppu_opcode_t op);
	void VCMPBFP(ppu_opcode_t op);
	void VCMPBFP_(ppu_opcode_t op) { return VCMPBFP(op); }
	void VCMPEQFP(ppu_opcode_t op);
	void VCMPEQFP_(ppu_opcode_t op) { return VCMPEQFP(op); }
	void VCMPEQUB(ppu_opcode_t op);
	void VCMPEQUB_(ppu_opcode_t op) { return VCMPEQUB(op); }
	void VCMPEQUH(ppu_opcode_t op);
	void VCMPEQUH_(ppu_opcode_t op) { return VCMPEQUH(op); }
	void VCMPEQUW(ppu_opcode_t op);
	void VCMPEQUW_(ppu_opcode_t op) { return VCMPEQUW(op); }
	void VCMPGEFP(ppu_opcode_t op);
	void VCMPGEFP_(ppu_opcode_t op) { return VCMPGEFP(op); }
	void VCMPGTFP(ppu_opcode_t op);
	void VCMPGTFP_(ppu_opcode_t op) { return VCMPGTFP(op); }
	void VCMPGTSB(ppu_opcode_t op);
	void VCMPGTSB_(ppu_opcode_t op) { return VCMPGTSB(op); }
	void VCMPGTSH(ppu_opcode_t op);
	void VCMPGTSH_(ppu_opcode_t op) { return VCMPGTSH(op); }
	void VCMPGTSW(ppu_opcode_t op);
	void VCMPGTSW_(ppu_opcode_t op) { return VCMPGTSW(op); }
	void VCMPGTUB(ppu_opcode_t op);
	void VCMPGTUB_(ppu_opcode_t op) { return VCMPGTUB(op); }
	void VCMPGTUH(ppu_opcode_t op);
	void VCMPGTUH_(ppu_opcode_t op) { return VCMPGTUH(op); }
	void VCMPGTUW(ppu_opcode_t op);
	void VCMPGTUW_(ppu_opcode_t op) { return VCMPGTUW(op); }
	void VCTSXS(ppu_opcode_t op);
	void VCTUXS(ppu_opcode_t op);
	void VEXPTEFP(ppu_opcode_t op);
	void VLOGEFP(ppu_opcode_t op);
	void VMADDFP(ppu_opcode_t op);
	void VMAXFP(ppu_opcode_t op);
	void VMAXSB(ppu_opcode_t op);
	void VMAXSH(ppu_opcode_t op);
	void VMAXSW(ppu_opcode_t op);
	void VMAXUB(ppu_opcode_t op);
	void VMAXUH(ppu_opcode_t op);
	void VMAXUW(ppu_opcode_t op);
	void VMHADDSHS(ppu_opcode_t op);
	void VMHRADDSHS(ppu_opcode_t op);
	void VMINFP(ppu_opcode_t op);
	void VMINSB(ppu_opcode_t op);
	void VMINSH(ppu_opcode_t op);
	void VMINSW(ppu_opcode_t op);
	void VMINUB(ppu_opcode_t op);
	void VMINUH(ppu_opcode_t op);
	void VMINUW(ppu_opcode_t op);
	void VMLADDUHM(ppu_opcode_t op);
	void VMRGHB(ppu_opcode_t op);
	void VMRGHH(ppu_opcode_t op);
	void VMRGHW(ppu_opcode_t op);
	void VMRGLB(ppu_opcode_t op);
	void VMRGLH(ppu_opcode_t op);
	void VMRGLW(ppu_opcode_t op);
	void VMSUMMBM(ppu_opcode_t op);
	void VMSUMSHM(ppu_opcode_t op);
	void VMSUMSHS(ppu_opcode_t op);
	void VMSUMUBM(ppu_opcode_t op);
	void VMSUMUHM(ppu_opcode_t op);
	void VMSUMUHS(ppu_opcode_t op);
	void VMULESB(ppu_opcode_t op);
	void VMULESH(ppu_opcode_t op);
	void VMULEUB(ppu_opcode_t op);
	void VMULEUH(ppu_opcode_t op);
	void VMULOSB(ppu_opcode_t op);
	void VMULOSH(ppu_opcode_t op);
	void VMULOUB(ppu_opcode_t op);
	void VMULOUH(ppu_opcode_t op);
	void VNMSUBFP(ppu_opcode_t op);
	void VNOR(ppu_opcode_t op);
	void VOR(ppu_opcode_t op);
	void VPERM(ppu_opcode_t op);
	void VPKPX(ppu_opcode_t op);
	void VPKSHSS(ppu_opcode_t op);
	void VPKSHUS(ppu_opcode_t op);
	void VPKSWSS(ppu_opcode_t op);
	void VPKSWUS(ppu_opcode_t op);
	void VPKUHUM(ppu_opcode_t op);
	void VPKUHUS(ppu_opcode_t op);
	void VPKUWUM(ppu_opcode_t op);
	void VPKUWUS(ppu_opcode_t op);
	void VREFP(ppu_opcode_t op);
	void VRFIM(ppu_opcode_t op);
	void VRFIN(ppu_opcode_t op);
	void VRFIP(ppu_opcode_t op);
	void VRFIZ(ppu_opcode_t op);
	void VRLB(ppu_opcode_t op);
	void VRLH(ppu_opcode_t op);
	void VRLW(ppu_opcode_t op);
	void VRSQRTEFP(ppu_opcode_t op);
	void VSEL(ppu_opcode_t op);
	void VSL(ppu_opcode_t op);
	void VSLB(ppu_opcode_t op);
	void VSLDOI(ppu_opcode_t op);
	void VSLH(ppu_opcode_t op);
	void VSLO(ppu_opcode_t op);
	void VSLW(ppu_opcode_t op);
	void VSPLTB(ppu_opcode_t op);
	void VSPLTH(ppu_opcode_t op);
	void VSPLTISB(ppu_opcode_t op);
	void VSPLTISH(ppu_opcode_t op);
	void VSPLTISW(ppu_opcode_t op);
	void VSPLTW(ppu_opcode_t op);
	void VSR(ppu_opcode_t op);
	void VSRAB(ppu_opcode_t op);
	void VSRAH(ppu_opcode_t op);
	void VSRAW(ppu_opcode_t op);
	void VSRB(ppu_opcode_t op);
	void VSRH(ppu_opcode_t op);
	void VSRO(ppu_opcode_t op);
	void VSRW(ppu_opcode_t op);
	void VSUBCUW(ppu_opcode_t op);
	void VSUBFP(ppu_opcode_t op);
	void VSUBSBS(ppu_opcode_t op);
	void VSUBSHS(ppu_opcode_t op);
	void VSUBSWS(ppu_opcode_t op);
	void VSUBUBM(ppu_opcode_t op);
	void VSUBUBS(ppu_opcode_t op);
	void VSUBUHM(ppu_opcode_t op);
	void VSUBUHS(ppu_opcode_t op);
	void VSUBUWM(ppu_opcode_t op);
	void VSUBUWS(ppu_opcode_t op);
	void VSUMSWS(ppu_opcode_t op);
	void VSUM2SWS(ppu_opcode_t op);
	void VSUM4SBS(ppu_opcode_t op);
	void VSUM4SHS(ppu_opcode_t op);
	void VSUM4UBS(ppu_opcode_t op);
	void VUPKHPX(ppu_opcode_t op);
	void VUPKHSB(ppu_opcode_t op);
	void VUPKHSH(ppu_opcode_t op);
	void VUPKLPX(ppu_opcode_t op);
	void VUPKLSB(ppu_opcode_t op);
	void VUPKLSH(ppu_opcode_t op);
	void VXOR(ppu_opcode_t op);
	void TDI(ppu_opcode_t op);
	void TWI(ppu_opcode_t op);
	void MULLI(ppu_opcode_t op);
	void SUBFIC(ppu_opcode_t op);
	void CMPLI(ppu_opcode_t op);
	void CMPI(ppu_opcode_t op);
	void ADDIC(ppu_opcode_t op);
	void ADDI(ppu_opcode_t op);
	void ADDIS(ppu_opcode_t op);
	void BC(ppu_opcode_t op);
	void SC(ppu_opcode_t op);
	void B(ppu_opcode_t op);
	void MCRF(ppu_opcode_t op);
	void BCLR(ppu_opcode_t op);
	void CRNOR(ppu_opcode_t op);
	void CRANDC(ppu_opcode_t op);
	void ISYNC(ppu_opcode_t op);
	void CRXOR(ppu_opcode_t op);
	void CRNAND(ppu_opcode_t op);
	void CRAND(ppu_opcode_t op);
	void CREQV(ppu_opcode_t op);
	void CRORC(ppu_opcode_t op);
	void CROR(ppu_opcode_t op);
	void BCCTR(ppu_opcode_t op);
	void RLWIMI(ppu_opcode_t op);
	void RLWINM(ppu_opcode_t op);
	void RLWNM(ppu_opcode_t op);
	void ORI(ppu_opcode_t op);
	void ORIS(ppu_opcode_t op);
	void XORI(ppu_opcode_t op);
	void XORIS(ppu_opcode_t op);
	void ANDI(ppu_opcode_t op);
	void ANDIS(ppu_opcode_t op);
	void RLDICL(ppu_opcode_t op);
	void RLDICR(ppu_opcode_t op);
	void RLDIC(ppu_opcode_t op);
	void RLDIMI(ppu_opcode_t op);
	void RLDCL(ppu_opcode_t op);
	void RLDCR(ppu_opcode_t op);
	void CMP(ppu_opcode_t op);
	void TW(ppu_opcode_t op);
	void LVSL(ppu_opcode_t op);
	void LVEBX(ppu_opcode_t op);
	void SUBFC(ppu_opcode_t op);
	void ADDC(ppu_opcode_t op);
	void MULHDU(ppu_opcode_t op);
	void MULHWU(ppu_opcode_t op);
	void MFOCRF(ppu_opcode_t op);
	void LWARX(ppu_opcode_t op);
	void LDX(ppu_opcode_t op);
	void LWZX(ppu_opcode_t op);
	void SLW(ppu_opcode_t op);
	void CNTLZW(ppu_opcode_t op);
	void SLD(ppu_opcode_t op);
	void AND(ppu_opcode_t op);
	void CMPL(ppu_opcode_t op);
	void LVSR(ppu_opcode_t op);
	void LVEHX(ppu_opcode_t op);
	void SUBF(ppu_opcode_t op);
	void LDUX(ppu_opcode_t op);
	void DCBST(ppu_opcode_t op);
	void LWZUX(ppu_opcode_t op);
	void CNTLZD(ppu_opcode_t op);
	void ANDC(ppu_opcode_t op);
	void TD(ppu_opcode_t op);
	void LVEWX(ppu_opcode_t op);
	void MULHD(ppu_opcode_t op);
	void MULHW(ppu_opcode_t op);
	void LDARX(ppu_opcode_t op);
	void DCBF(ppu_opcode_t op);
	void LBZX(ppu_opcode_t op);
	void LVX(ppu_opcode_t op);
	void NEG(ppu_opcode_t op);
	void LBZUX(ppu_opcode_t op);
	void NOR(ppu_opcode_t op);
	void STVEBX(ppu_opcode_t op);
	void SUBFE(ppu_opcode_t op);
	void ADDE(ppu_opcode_t op);
	void MTOCRF(ppu_opcode_t op);
	void STDX(ppu_opcode_t op);
	void STWCX(ppu_opcode_t op);
	void STWX(ppu_opcode_t op);
	void STVEHX(ppu_opcode_t op);
	void STDUX(ppu_opcode_t op);
	void STWUX(ppu_opcode_t op);
	void STVEWX(ppu_opcode_t op);
	void SUBFZE(ppu_opcode_t op);
	void ADDZE(ppu_opcode_t op);
	void STDCX(ppu_opcode_t op);
	void STBX(ppu_opcode_t op);
	void STVX(ppu_opcode_t op);
	void SUBFME(ppu_opcode_t op);
	void MULLD(ppu_opcode_t op);
	void ADDME(ppu_opcode_t op);
	void MULLW(ppu_opcode_t op);
	void DCBTST(ppu_opcode_t op);
	void STBUX(ppu_opcode_t op);
	void ADD(ppu_opcode_t op);
	void DCBT(ppu_opcode_t op);
	void LHZX(ppu_opcode_t op);
	void EQV(ppu_opcode_t op);
	void ECIWX(ppu_opcode_t op);
	void LHZUX(ppu_opcode_t op);
	void XOR(ppu_opcode_t op);
	void MFSPR(ppu_opcode_t op);
	void LWAX(ppu_opcode_t op);
	void DST(ppu_opcode_t op);
	void LHAX(ppu_opcode_t op);
	void LVXL(ppu_opcode_t op);
	void MFTB(ppu_opcode_t op);
	void LWAUX(ppu_opcode_t op);
	void DSTST(ppu_opcode_t op);
	void LHAUX(ppu_opcode_t op);
	void STHX(ppu_opcode_t op);
	void ORC(ppu_opcode_t op);
	void ECOWX(ppu_opcode_t op);
	void STHUX(ppu_opcode_t op);
	void OR(ppu_opcode_t op);
	void DIVDU(ppu_opcode_t op);
	void DIVWU(ppu_opcode_t op);
	void MTSPR(ppu_opcode_t op);
	void DCBI(ppu_opcode_t op);
	void NAND(ppu_opcode_t op);
	void STVXL(ppu_opcode_t op);
	void DIVD(ppu_opcode_t op);
	void DIVW(ppu_opcode_t op);
	void LVLX(ppu_opcode_t op);
	void LDBRX(ppu_opcode_t op);
	void LSWX(ppu_opcode_t op);
	void LWBRX(ppu_opcode_t op);
	void LFSX(ppu_opcode_t op);
	void SRW(ppu_opcode_t op);
	void SRD(ppu_opcode_t op);
	void LVRX(ppu_opcode_t op);
	void LSWI(ppu_opcode_t op);
	void LFSUX(ppu_opcode_t op);
	void SYNC(ppu_opcode_t op);
	void LFDX(ppu_opcode_t op);
	void LFDUX(ppu_opcode_t op);
	void STVLX(ppu_opcode_t op);
	void STDBRX(ppu_opcode_t op);
	void STSWX(ppu_opcode_t op);
	void STWBRX(ppu_opcode_t op);
	void STFSX(ppu_opcode_t op);
	void STVRX(ppu_opcode_t op);
	void STFSUX(ppu_opcode_t op);
	void STSWI(ppu_opcode_t op);
	void STFDX(ppu_opcode_t op);
	void STFDUX(ppu_opcode_t op);
	void LVLXL(ppu_opcode_t op);
	void LHBRX(ppu_opcode_t op);
	void SRAW(ppu_opcode_t op);
	void SRAD(ppu_opcode_t op);
	void LVRXL(ppu_opcode_t op);
	void DSS(ppu_opcode_t op);
	void SRAWI(ppu_opcode_t op);
	void SRADI(ppu_opcode_t op);
	void EIEIO(ppu_opcode_t op);
	void STVLXL(ppu_opcode_t op);
	void STHBRX(ppu_opcode_t op);
	void EXTSH(ppu_opcode_t op);
	void STVRXL(ppu_opcode_t op);
	void EXTSB(ppu_opcode_t op);
	void STFIWX(ppu_opcode_t op);
	void EXTSW(ppu_opcode_t op);
	void ICBI(ppu_opcode_t op);
	void DCBZ(ppu_opcode_t op);
	void LWZ(ppu_opcode_t op);
	void LWZU(ppu_opcode_t op);
	void LBZ(ppu_opcode_t op);
	void LBZU(ppu_opcode_t op);
	void STW(ppu_opcode_t op);
	void STWU(ppu_opcode_t op);
	void STB(ppu_opcode_t op);
	void STBU(ppu_opcode_t op);
	void LHZ(ppu_opcode_t op);
	void LHZU(ppu_opcode_t op);
	void LHA(ppu_opcode_t op);
	void LHAU(ppu_opcode_t op);
	void STH(ppu_opcode_t op);
	void STHU(ppu_opcode_t op);
	void LMW(ppu_opcode_t op);
	void STMW(ppu_opcode_t op);
	void LFS(ppu_opcode_t op);
	void LFSU(ppu_opcode_t op);
	void LFD(ppu_opcode_t op);
	void LFDU(ppu_opcode_t op);
	void STFS(ppu_opcode_t op);
	void STFSU(ppu_opcode_t op);
	void STFD(ppu_opcode_t op);
	void STFDU(ppu_opcode_t op);
	void LD(ppu_opcode_t op);
	void LDU(ppu_opcode_t op);
	void LWA(ppu_opcode_t op);
	void STD(ppu_opcode_t op);
	void STDU(ppu_opcode_t op);
	void FDIVS(ppu_opcode_t op);
	void FSUBS(ppu_opcode_t op);
	void FADDS(ppu_opcode_t op);
	void FSQRTS(ppu_opcode_t op);
	void FRES(ppu_opcode_t op);
	void FMULS(ppu_opcode_t op);
	void FMADDS(ppu_opcode_t op);
	void FMSUBS(ppu_opcode_t op);
	void FNMSUBS(ppu_opcode_t op);
	void FNMADDS(ppu_opcode_t op);
	void MTFSB1(ppu_opcode_t op);
	void MCRFS(ppu_opcode_t op);
	void MTFSB0(ppu_opcode_t op);
	void MTFSFI(ppu_opcode_t op);
	void MFFS(ppu_opcode_t op);
	void MTFSF(ppu_opcode_t op);
	void FCMPU(ppu_opcode_t op);
	void FRSP(ppu_opcode_t op);
	void FCTIW(ppu_opcode_t op);
	void FCTIWZ(ppu_opcode_t op);
	void FDIV(ppu_opcode_t op);
	void FSUB(ppu_opcode_t op);
	void FADD(ppu_opcode_t op);
	void FSQRT(ppu_opcode_t op);
	void FSEL(ppu_opcode_t op);
	void FMUL(ppu_opcode_t op);
	void FRSQRTE(ppu_opcode_t op);
	void FMSUB(ppu_opcode_t op);
	void FMADD(ppu_opcode_t op);
	void FNMSUB(ppu_opcode_t op);
	void FNMADD(ppu_opcode_t op);
	void FCMPO(ppu_opcode_t op);
	void FNEG(ppu_opcode_t op);
	void FMR(ppu_opcode_t op);
	void FNABS(ppu_opcode_t op);
	void FABS(ppu_opcode_t op);
	void FCTID(ppu_opcode_t op);
	void FCTIDZ(ppu_opcode_t op);
	void FCFID(ppu_opcode_t op);

	void UNK(ppu_opcode_t op);

	void SUBFCO(ppu_opcode_t op) { return SUBFC(op); }
	void ADDCO(ppu_opcode_t op) { return ADDC(op); }
	void SUBFO(ppu_opcode_t op) { return SUBF(op); }
	void NEGO(ppu_opcode_t op) { return NEG(op); }
	void SUBFEO(ppu_opcode_t op) { return SUBFE(op); }
	void ADDEO(ppu_opcode_t op) { return ADDE(op); }
	void SUBFZEO(ppu_opcode_t op) { return SUBFZE(op); }
	void ADDZEO(ppu_opcode_t op) { return ADDZE(op); }
	void SUBFMEO(ppu_opcode_t op) { return SUBFME(op); }
	void MULLDO(ppu_opcode_t op) { return MULLD(op); }
	void ADDMEO(ppu_opcode_t op) { return ADDME(op); }
	void MULLWO(ppu_opcode_t op) { return MULLW(op); }
	void ADDO(ppu_opcode_t op) { return ADD(op); }
	void DIVDUO(ppu_opcode_t op) { return DIVDU(op); }
	void DIVWUO(ppu_opcode_t op) { return DIVWU(op); }
	void DIVDO(ppu_opcode_t op) { return DIVD(op); }
	void DIVWO(ppu_opcode_t op) { return DIVW(op); }

	void SUBFCO_(ppu_opcode_t op) { return SUBFC(op); }
	void ADDCO_(ppu_opcode_t op) { return ADDC(op); }
	void SUBFO_(ppu_opcode_t op) { return SUBF(op); }
	void NEGO_(ppu_opcode_t op) { return NEG(op); }
	void SUBFEO_(ppu_opcode_t op) { return SUBFE(op); }
	void ADDEO_(ppu_opcode_t op) { return ADDE(op); }
	void SUBFZEO_(ppu_opcode_t op) { return SUBFZE(op); }
	void ADDZEO_(ppu_opcode_t op) { return ADDZE(op); }
	void SUBFMEO_(ppu_opcode_t op) { return SUBFME(op); }
	void MULLDO_(ppu_opcode_t op) { return MULLD(op); }
	void ADDMEO_(ppu_opcode_t op) { return ADDME(op); }
	void MULLWO_(ppu_opcode_t op) { return MULLW(op); }
	void ADDO_(ppu_opcode_t op) { return ADD(op); }
	void DIVDUO_(ppu_opcode_t op) { return DIVDU(op); }
	void DIVWUO_(ppu_opcode_t op) { return DIVWU(op); }
	void DIVDO_(ppu_opcode_t op) { return DIVD(op); }
	void DIVWO_(ppu_opcode_t op) { return DIVW(op); }

	void RLWIMI_(ppu_opcode_t op) { return RLWIMI(op); }
	void RLWINM_(ppu_opcode_t op) { return RLWINM(op); }
	void RLWNM_(ppu_opcode_t op) { return RLWNM(op); }
	void RLDICL_(ppu_opcode_t op) { return RLDICL(op); }
	void RLDICR_(ppu_opcode_t op) { return RLDICR(op); }
	void RLDIC_(ppu_opcode_t op) { return RLDIC(op); }
	void RLDIMI_(ppu_opcode_t op) { return RLDIMI(op); }
	void RLDCL_(ppu_opcode_t op) { return RLDCL(op); }
	void RLDCR_(ppu_opcode_t op) { return RLDCR(op); }
	void SUBFC_(ppu_opcode_t op) { return SUBFC(op); }
	void MULHDU_(ppu_opcode_t op) { return MULHDU(op); }
	void ADDC_(ppu_opcode_t op) { return ADDC(op); }
	void MULHWU_(ppu_opcode_t op) { return MULHWU(op); }
	void SLW_(ppu_opcode_t op) { return SLW(op); }
	void CNTLZW_(ppu_opcode_t op) { return CNTLZW(op); }
	void SLD_(ppu_opcode_t op) { return SLD(op); }
	void AND_(ppu_opcode_t op) { return AND(op); }
	void SUBF_(ppu_opcode_t op) { return SUBF(op); }
	void CNTLZD_(ppu_opcode_t op) { return CNTLZD(op); }
	void ANDC_(ppu_opcode_t op) { return ANDC(op); }
	void MULHD_(ppu_opcode_t op) { return MULHD(op); }
	void MULHW_(ppu_opcode_t op) { return MULHW(op); }
	void NEG_(ppu_opcode_t op) { return NEG(op); }
	void NOR_(ppu_opcode_t op) { return NOR(op); }
	void SUBFE_(ppu_opcode_t op) { return SUBFE(op); }
	void ADDE_(ppu_opcode_t op) { return ADDE(op); }
	void SUBFZE_(ppu_opcode_t op) { return SUBFZE(op); }
	void ADDZE_(ppu_opcode_t op) { return ADDZE(op); }
	void MULLD_(ppu_opcode_t op) { return MULLD(op); }
	void SUBFME_(ppu_opcode_t op) { return SUBFME(op); }
	void ADDME_(ppu_opcode_t op) { return ADDME(op); }
	void MULLW_(ppu_opcode_t op) { return MULLW(op); }
	void ADD_(ppu_opcode_t op) { return ADD(op); }
	void EQV_(ppu_opcode_t op) { return EQV(op); }
	void XOR_(ppu_opcode_t op) { return XOR(op); }
	void ORC_(ppu_opcode_t op) { return ORC(op); }
	void OR_(ppu_opcode_t op) { return OR(op); }
	void DIVDU_(ppu_opcode_t op) { return DIVDU(op); }
	void DIVWU_(ppu_opcode_t op) { return DIVWU(op); }
	void NAND_(ppu_opcode_t op) { return NAND(op); }
	void DIVD_(ppu_opcode_t op) { return DIVD(op); }
	void DIVW_(ppu_opcode_t op) { return DIVW(op); }
	void SRW_(ppu_opcode_t op) { return SRW(op); }
	void SRD_(ppu_opcode_t op) { return SRD(op); }
	void SRAW_(ppu_opcode_t op) { return SRAW(op); }
	void SRAD_(ppu_opcode_t op) { return SRAD(op); }
	void SRAWI_(ppu_opcode_t op) { return SRAWI(op); }
	void SRADI_(ppu_opcode_t op) { return SRADI(op); }
	void EXTSH_(ppu_opcode_t op) { return EXTSH(op); }
	void EXTSB_(ppu_opcode_t op) { return EXTSB(op); }
	void EXTSW_(ppu_opcode_t op) { return EXTSW(op); }
	void FDIVS_(ppu_opcode_t op) { return FDIVS(op); }
	void FSUBS_(ppu_opcode_t op) { return FSUBS(op); }
	void FADDS_(ppu_opcode_t op) { return FADDS(op); }
	void FSQRTS_(ppu_opcode_t op) { return FSQRTS(op); }
	void FRES_(ppu_opcode_t op) { return FRES(op); }
	void FMULS_(ppu_opcode_t op) { return FMULS(op); }
	void FMADDS_(ppu_opcode_t op) { return FMADDS(op); }
	void FMSUBS_(ppu_opcode_t op) { return FMSUBS(op); }
	void FNMSUBS_(ppu_opcode_t op) { return FNMSUBS(op); }
	void FNMADDS_(ppu_opcode_t op) { return FNMADDS(op); }
	void MTFSB1_(ppu_opcode_t op) { return MTFSB1(op); }
	void MTFSB0_(ppu_opcode_t op) { return MTFSB0(op); }
	void MTFSFI_(ppu_opcode_t op) { return MTFSFI(op); }
	void MFFS_(ppu_opcode_t op) { return MFFS(op); }
	void MTFSF_(ppu_opcode_t op) { return MTFSF(op); }
	void FRSP_(ppu_opcode_t op) { return FRSP(op); }
	void FCTIW_(ppu_opcode_t op) { return FCTIW(op); }
	void FCTIWZ_(ppu_opcode_t op) { return FCTIWZ(op); }
	void FDIV_(ppu_opcode_t op) { return FDIV(op); }
	void FSUB_(ppu_opcode_t op) { return FSUB(op); }
	void FADD_(ppu_opcode_t op) { return FADD(op); }
	void FSQRT_(ppu_opcode_t op) { return FSQRT(op); }
	void FSEL_(ppu_opcode_t op) { return FSEL(op); }
	void FMUL_(ppu_opcode_t op) { return FMUL(op); }
	void FRSQRTE_(ppu_opcode_t op) { return FRSQRTE(op); }
	void FMSUB_(ppu_opcode_t op) { return FMSUB(op); }
	void FMADD_(ppu_opcode_t op) { return FMADD(op); }
	void FNMSUB_(ppu_opcode_t op) { return FNMSUB(op); }
	void FNMADD_(ppu_opcode_t op) { return FNMADD(op); }
	void FNEG_(ppu_opcode_t op) { return FNEG(op); }
	void FMR_(ppu_opcode_t op) { return FMR(op); }
	void FNABS_(ppu_opcode_t op) { return FNABS(op); }
	void FABS_(ppu_opcode_t op) { return FABS(op); }
	void FCTID_(ppu_opcode_t op) { return FCTID(op); }
	void FCTIDZ_(ppu_opcode_t op) { return FCTIDZ(op); }
	void FCFID_(ppu_opcode_t op) { return FCFID(op); }
};