diff options
Diffstat (limited to '')
-rw-r--r-- | src/android/app/build.gradle.kts | 3 | ||||
-rw-r--r-- | src/core/CMakeLists.txt | 8 | ||||
-rw-r--r-- | src/core/arm/nce/arm_nce.cpp | 102 | ||||
-rw-r--r-- | src/core/arm/nce/arm_nce.h | 13 | ||||
-rw-r--r-- | src/core/arm/nce/arm_nce.s | 60 | ||||
-rw-r--r-- | src/core/arm/nce/arm_nce_asm_definitions.h | 3 | ||||
-rw-r--r-- | src/core/arm/nce/interpreter_visitor.cpp | 825 | ||||
-rw-r--r-- | src/core/arm/nce/interpreter_visitor.h | 103 | ||||
-rw-r--r-- | src/core/arm/nce/visitor_base.h | 2777 |
9 files changed, 3850 insertions, 44 deletions
diff --git a/src/android/app/build.gradle.kts b/src/android/app/build.gradle.kts index 5721327e7..f763c657e 100644 --- a/src/android/app/build.gradle.kts +++ b/src/android/app/build.gradle.kts @@ -174,7 +174,8 @@ android { "-DANDROID_ARM_NEON=true", // cryptopp requires Neon to work "-DYUZU_USE_BUNDLED_VCPKG=ON", "-DYUZU_USE_BUNDLED_FFMPEG=ON", - "-DYUZU_ENABLE_LTO=ON" + "-DYUZU_ENABLE_LTO=ON", + "-DCMAKE_EXPORT_COMPILE_COMMANDS=ON" ) abiFilters("arm64-v8a", "x86_64") diff --git a/src/core/CMakeLists.txt b/src/core/CMakeLists.txt index 7b9ed856f..bffe68bd3 100644 --- a/src/core/CMakeLists.txt +++ b/src/core/CMakeLists.txt @@ -947,15 +947,19 @@ if (HAS_NCE) set(CMAKE_ASM_FLAGS "${CFLAGS} -x assembler-with-cpp") target_sources(core PRIVATE + arm/nce/arm_nce_asm_definitions.h arm/nce/arm_nce.cpp arm/nce/arm_nce.h arm/nce/arm_nce.s arm/nce/guest_context.h + arm/nce/instructions.h + arm/nce/interpreter_visitor.cpp + arm/nce/interpreter_visitor.h arm/nce/patcher.cpp arm/nce/patcher.h - arm/nce/instructions.h + arm/nce/visitor_base.h ) - target_link_libraries(core PRIVATE merry::oaknut) + target_link_libraries(core PRIVATE merry::mcl merry::oaknut) endif() if (ARCHITECTURE_x86_64 OR ARCHITECTURE_arm64) diff --git a/src/core/arm/nce/arm_nce.cpp b/src/core/arm/nce/arm_nce.cpp index b42a32a0b..858c9f0a7 100644 --- a/src/core/arm/nce/arm_nce.cpp +++ b/src/core/arm/nce/arm_nce.cpp @@ -6,7 +6,7 @@ #include "common/signal_chain.h" #include "core/arm/nce/arm_nce.h" -#include "core/arm/nce/guest_context.h" +#include "core/arm/nce/interpreter_visitor.h" #include "core/arm/nce/patcher.h" #include "core/core.h" #include "core/memory.h" @@ -21,7 +21,8 @@ namespace Core { namespace { -struct sigaction g_orig_action; +struct sigaction g_orig_bus_action; +struct sigaction g_orig_segv_action; // Verify assembly offsets. using NativeExecutionParameters = Kernel::KThread::NativeExecutionParameters; @@ -37,6 +38,9 @@ fpsimd_context* GetFloatingPointState(mcontext_t& host_ctx) { return reinterpret_cast<fpsimd_context*>(header); } +using namespace Common::Literals; +constexpr u32 StackSize = 32_KiB; + } // namespace void* ArmNce::RestoreGuestContext(void* raw_context) { @@ -104,19 +108,10 @@ void ArmNce::SaveGuestContext(GuestContext* guest_ctx, void* raw_context) { host_ctx.regs[0] = guest_ctx->esr_el1.exchange(0); } -bool ArmNce::HandleGuestFault(GuestContext* guest_ctx, void* raw_info, void* raw_context) { +bool ArmNce::HandleFailedGuestFault(GuestContext* guest_ctx, void* raw_info, void* raw_context) { auto& host_ctx = static_cast<ucontext_t*>(raw_context)->uc_mcontext; auto* info = static_cast<siginfo_t*>(raw_info); - // Try to handle an invalid access. - // TODO: handle accesses which split a page? - const Common::ProcessAddress addr = - (reinterpret_cast<u64>(info->si_addr) & ~Memory::YUZU_PAGEMASK); - if (guest_ctx->system->ApplicationMemory().InvalidateNCE(addr, Memory::YUZU_PAGESIZE)) { - // We handled the access successfully and are returning to guest code. - return true; - } - // We can't handle the access, so determine why we crashed. const bool is_prefetch_abort = host_ctx.pc == reinterpret_cast<u64>(info->si_addr); @@ -143,8 +138,44 @@ bool ArmNce::HandleGuestFault(GuestContext* guest_ctx, void* raw_info, void* raw return false; } -void ArmNce::HandleHostFault(int sig, void* raw_info, void* raw_context) { - return g_orig_action.sa_sigaction(sig, static_cast<siginfo_t*>(raw_info), raw_context); +bool ArmNce::HandleGuestAlignmentFault(GuestContext* guest_ctx, void* raw_info, void* raw_context) { + auto& host_ctx = static_cast<ucontext_t*>(raw_context)->uc_mcontext; + auto* fpctx = GetFloatingPointState(host_ctx); + auto& memory = guest_ctx->system->ApplicationMemory(); + + // Match and execute an instruction. + auto next_pc = MatchAndExecuteOneInstruction(memory, &host_ctx, fpctx); + if (next_pc) { + host_ctx.pc = *next_pc; + return true; + } + + // We couldn't handle the access. + return HandleFailedGuestFault(guest_ctx, raw_info, raw_context); +} + +bool ArmNce::HandleGuestAccessFault(GuestContext* guest_ctx, void* raw_info, void* raw_context) { + auto* info = static_cast<siginfo_t*>(raw_info); + + // Try to handle an invalid access. + // TODO: handle accesses which split a page? + const Common::ProcessAddress addr = + (reinterpret_cast<u64>(info->si_addr) & ~Memory::YUZU_PAGEMASK); + if (guest_ctx->system->ApplicationMemory().InvalidateNCE(addr, Memory::YUZU_PAGESIZE)) { + // We handled the access successfully and are returning to guest code. + return true; + } + + // We couldn't handle the access. + return HandleFailedGuestFault(guest_ctx, raw_info, raw_context); +} + +void ArmNce::HandleHostAlignmentFault(int sig, void* raw_info, void* raw_context) { + return g_orig_bus_action.sa_sigaction(sig, static_cast<siginfo_t*>(raw_info), raw_context); +} + +void ArmNce::HandleHostAccessFault(int sig, void* raw_info, void* raw_context) { + return g_orig_segv_action.sa_sigaction(sig, static_cast<siginfo_t*>(raw_info), raw_context); } void ArmNce::LockThread(Kernel::KThread* thread) { @@ -220,6 +251,9 @@ void ArmNce::SetSvcArguments(std::span<const uint64_t, 8> args) { ArmNce::ArmNce(System& system, bool uses_wall_clock, std::size_t core_index) : ArmInterface{uses_wall_clock}, m_system{system}, m_core_index{core_index} { m_guest_ctx.system = &m_system; + + // Allocate signal stack. + m_stack = std::make_unique<u8[]>(StackSize); } ArmNce::~ArmNce() = default; @@ -227,16 +261,23 @@ ArmNce::~ArmNce() = default; void ArmNce::Initialize() { m_thread_id = gettid(); - // Setup our signals - static std::once_flag signals; - std::call_once(signals, [] { + // Configure signal stack. + stack_t ss{}; + ss.ss_sp = m_stack.get(); + ss.ss_size = StackSize; + sigaltstack(&ss, nullptr); + + // Set up signals. + static std::once_flag flag; + std::call_once(flag, [] { using HandlerType = decltype(sigaction::sa_sigaction); sigset_t signal_mask; sigemptyset(&signal_mask); sigaddset(&signal_mask, ReturnToRunCodeByExceptionLevelChangeSignal); sigaddset(&signal_mask, BreakFromRunCodeSignal); - sigaddset(&signal_mask, GuestFaultSignal); + sigaddset(&signal_mask, GuestAlignmentFaultSignal); + sigaddset(&signal_mask, GuestAccessFaultSignal); struct sigaction return_to_run_code_action {}; return_to_run_code_action.sa_flags = SA_SIGINFO | SA_ONSTACK; @@ -253,18 +294,19 @@ void ArmNce::Initialize() { break_from_run_code_action.sa_mask = signal_mask; Common::SigAction(BreakFromRunCodeSignal, &break_from_run_code_action, nullptr); - struct sigaction fault_action {}; - fault_action.sa_flags = SA_SIGINFO | SA_ONSTACK | SA_RESTART; - fault_action.sa_sigaction = reinterpret_cast<HandlerType>(&ArmNce::GuestFaultSignalHandler); - fault_action.sa_mask = signal_mask; - Common::SigAction(GuestFaultSignal, &fault_action, &g_orig_action); - - // Simplify call for g_orig_action. - // These fields occupy the same space in memory, so this should be a no-op in practice. - if (!(g_orig_action.sa_flags & SA_SIGINFO)) { - g_orig_action.sa_sigaction = - reinterpret_cast<decltype(g_orig_action.sa_sigaction)>(g_orig_action.sa_handler); - } + struct sigaction alignment_fault_action {}; + alignment_fault_action.sa_flags = SA_SIGINFO | SA_ONSTACK; + alignment_fault_action.sa_sigaction = + reinterpret_cast<HandlerType>(&ArmNce::GuestAlignmentFaultSignalHandler); + alignment_fault_action.sa_mask = signal_mask; + Common::SigAction(GuestAlignmentFaultSignal, &alignment_fault_action, nullptr); + + struct sigaction access_fault_action {}; + access_fault_action.sa_flags = SA_SIGINFO | SA_ONSTACK | SA_RESTART; + access_fault_action.sa_sigaction = + reinterpret_cast<HandlerType>(&ArmNce::GuestAccessFaultSignalHandler); + access_fault_action.sa_mask = signal_mask; + Common::SigAction(GuestAccessFaultSignal, &access_fault_action, &g_orig_segv_action); }); } diff --git a/src/core/arm/nce/arm_nce.h b/src/core/arm/nce/arm_nce.h index f55c10d1d..be9b304c4 100644 --- a/src/core/arm/nce/arm_nce.h +++ b/src/core/arm/nce/arm_nce.h @@ -61,7 +61,8 @@ private: static void ReturnToRunCodeByExceptionLevelChangeSignalHandler(int sig, void* info, void* raw_context); static void BreakFromRunCodeSignalHandler(int sig, void* info, void* raw_context); - static void GuestFaultSignalHandler(int sig, void* info, void* raw_context); + static void GuestAlignmentFaultSignalHandler(int sig, void* info, void* raw_context); + static void GuestAccessFaultSignalHandler(int sig, void* info, void* raw_context); static void LockThreadParameters(void* tpidr); static void UnlockThreadParameters(void* tpidr); @@ -70,8 +71,11 @@ private: // C++ implementation functions for assembly definitions. static void* RestoreGuestContext(void* raw_context); static void SaveGuestContext(GuestContext* ctx, void* raw_context); - static bool HandleGuestFault(GuestContext* ctx, void* info, void* raw_context); - static void HandleHostFault(int sig, void* info, void* raw_context); + static bool HandleFailedGuestFault(GuestContext* ctx, void* info, void* raw_context); + static bool HandleGuestAlignmentFault(GuestContext* ctx, void* info, void* raw_context); + static bool HandleGuestAccessFault(GuestContext* ctx, void* info, void* raw_context); + static void HandleHostAlignmentFault(int sig, void* info, void* raw_context); + static void HandleHostAccessFault(int sig, void* info, void* raw_context); public: Core::System& m_system; @@ -83,6 +87,9 @@ public: // Core context. GuestContext m_guest_ctx{}; Kernel::KThread* m_running_thread{}; + + // Stack for signal processing. + std::unique_ptr<u8[]> m_stack{}; }; } // namespace Core diff --git a/src/core/arm/nce/arm_nce.s b/src/core/arm/nce/arm_nce.s index 4aeda4740..c68c05949 100644 --- a/src/core/arm/nce/arm_nce.s +++ b/src/core/arm/nce/arm_nce.s @@ -130,11 +130,11 @@ _ZN4Core6ArmNce29BreakFromRunCodeSignalHandlerEiPvS1_: ret -/* static void Core::ArmNce::GuestFaultSignalHandler(int sig, void* info, void* raw_context) */ -.section .text._ZN4Core6ArmNce23GuestFaultSignalHandlerEiPvS1_, "ax", %progbits -.global _ZN4Core6ArmNce23GuestFaultSignalHandlerEiPvS1_ -.type _ZN4Core6ArmNce23GuestFaultSignalHandlerEiPvS1_, %function -_ZN4Core6ArmNce23GuestFaultSignalHandlerEiPvS1_: +/* static void Core::ArmNce::GuestAlignmentFaultSignalHandler(int sig, void* info, void* raw_context) */ +.section .text._ZN4Core6ArmNce32GuestAlignmentFaultSignalHandlerEiPvS1_, "ax", %progbits +.global _ZN4Core6ArmNce32GuestAlignmentFaultSignalHandlerEiPvS1_ +.type _ZN4Core6ArmNce32GuestAlignmentFaultSignalHandlerEiPvS1_, %function +_ZN4Core6ArmNce32GuestAlignmentFaultSignalHandlerEiPvS1_: /* Check to see if we have the correct TLS magic. */ mrs x8, tpidr_el0 ldr w9, [x8, #(TpidrEl0TlsMagic)] @@ -146,7 +146,7 @@ _ZN4Core6ArmNce23GuestFaultSignalHandlerEiPvS1_: /* Incorrect TLS magic, so this is a host fault. */ /* Tail call the handler. */ - b _ZN4Core6ArmNce15HandleHostFaultEiPvS1_ + b _ZN4Core6ArmNce24HandleHostAlignmentFaultEiPvS1_ 1: /* Correct TLS magic, so this is a guest fault. */ @@ -163,7 +163,53 @@ _ZN4Core6ArmNce23GuestFaultSignalHandlerEiPvS1_: msr tpidr_el0, x3 /* Call the handler. */ - bl _ZN4Core6ArmNce16HandleGuestFaultEPNS_12GuestContextEPvS3_ + bl _ZN4Core6ArmNce25HandleGuestAlignmentFaultEPNS_12GuestContextEPvS3_ + + /* If the handler returned false, we want to preserve the host tpidr_el0. */ + cbz x0, 2f + + /* Otherwise, restore guest tpidr_el0. */ + msr tpidr_el0, x19 + +2: + ldr x19, [sp, #0x10] + ldp x29, x30, [sp], #0x20 + ret + +/* static void Core::ArmNce::GuestAccessFaultSignalHandler(int sig, void* info, void* raw_context) */ +.section .text._ZN4Core6ArmNce29GuestAccessFaultSignalHandlerEiPvS1_, "ax", %progbits +.global _ZN4Core6ArmNce29GuestAccessFaultSignalHandlerEiPvS1_ +.type _ZN4Core6ArmNce29GuestAccessFaultSignalHandlerEiPvS1_, %function +_ZN4Core6ArmNce29GuestAccessFaultSignalHandlerEiPvS1_: + /* Check to see if we have the correct TLS magic. */ + mrs x8, tpidr_el0 + ldr w9, [x8, #(TpidrEl0TlsMagic)] + + LOAD_IMMEDIATE_32(w10, TlsMagic) + + cmp w9, w10 + b.eq 1f + + /* Incorrect TLS magic, so this is a host fault. */ + /* Tail call the handler. */ + b _ZN4Core6ArmNce21HandleHostAccessFaultEiPvS1_ + +1: + /* Correct TLS magic, so this is a guest fault. */ + stp x29, x30, [sp, #-0x20]! + str x19, [sp, #0x10] + mov x29, sp + + /* Save the old tpidr_el0. */ + mov x19, x8 + + /* Restore host tpidr_el0. */ + ldr x0, [x8, #(TpidrEl0NativeContext)] + ldr x3, [x0, #(GuestContextHostContext + HostContextTpidrEl0)] + msr tpidr_el0, x3 + + /* Call the handler. */ + bl _ZN4Core6ArmNce22HandleGuestAccessFaultEPNS_12GuestContextEPvS3_ /* If the handler returned false, we want to preserve the host tpidr_el0. */ cbz x0, 2f diff --git a/src/core/arm/nce/arm_nce_asm_definitions.h b/src/core/arm/nce/arm_nce_asm_definitions.h index 8a9b285b5..8ea4383f7 100644 --- a/src/core/arm/nce/arm_nce_asm_definitions.h +++ b/src/core/arm/nce/arm_nce_asm_definitions.h @@ -10,7 +10,8 @@ #define ReturnToRunCodeByExceptionLevelChangeSignal SIGUSR2 #define BreakFromRunCodeSignal SIGURG -#define GuestFaultSignal SIGSEGV +#define GuestAccessFaultSignal SIGSEGV +#define GuestAlignmentFaultSignal SIGBUS #define GuestContextSp 0xF8 #define GuestContextHostContext 0x320 diff --git a/src/core/arm/nce/interpreter_visitor.cpp b/src/core/arm/nce/interpreter_visitor.cpp new file mode 100644 index 000000000..8e81c66a5 --- /dev/null +++ b/src/core/arm/nce/interpreter_visitor.cpp @@ -0,0 +1,825 @@ +// SPDX-FileCopyrightText: Copyright 2023 yuzu Emulator Project +// SPDX-FileCopyrightText: Copyright 2023 merryhime <https://mary.rs> +// SPDX-License-Identifier: GPL-2.0-or-later + +#include "common/bit_cast.h" +#include "core/arm/nce/interpreter_visitor.h" + +#include <dynarmic/frontend/A64/decoder/a64.h> + +namespace Core { + +template <u32 BitSize> +u64 SignExtendToLong(u64 value) { + u64 mask = 1ULL << (BitSize - 1); + value &= (1ULL << BitSize) - 1; + return (value ^ mask) - mask; +} + +static u64 SignExtendToLong(u64 value, u64 bitsize) { + switch (bitsize) { + case 8: + return SignExtendToLong<8>(value); + case 16: + return SignExtendToLong<16>(value); + case 32: + return SignExtendToLong<32>(value); + default: + return value; + } +} + +template <u64 BitSize> +u32 SignExtendToWord(u32 value) { + u32 mask = 1ULL << (BitSize - 1); + value &= (1ULL << BitSize) - 1; + return (value ^ mask) - mask; +} + +static u32 SignExtendToWord(u32 value, u64 bitsize) { + switch (bitsize) { + case 8: + return SignExtendToWord<8>(value); + case 16: + return SignExtendToWord<16>(value); + default: + return value; + } +} + +static u64 SignExtend(u64 value, u64 bitsize, u64 regsize) { + if (regsize == 64) { + return SignExtendToLong(value, bitsize); + } else { + return SignExtendToWord(static_cast<u32>(value), bitsize); + } +} + +static u128 VectorGetElement(u128 value, u64 bitsize) { + switch (bitsize) { + case 8: + return {value[0] & ((1ULL << 8) - 1), 0}; + case 16: + return {value[0] & ((1ULL << 16) - 1), 0}; + case 32: + return {value[0] & ((1ULL << 32) - 1), 0}; + case 64: + return {value[0], 0}; + default: + return value; + } +} + +u64 InterpreterVisitor::ExtendReg(size_t bitsize, Reg reg, Imm<3> option, u8 shift) { + ASSERT(shift <= 4); + ASSERT(bitsize == 32 || bitsize == 64); + u64 val = this->GetReg(reg); + size_t len; + u64 extended; + bool signed_extend; + + switch (option.ZeroExtend()) { + case 0b000: { // UXTB + val &= ((1ULL << 8) - 1); + len = 8; + signed_extend = false; + break; + } + case 0b001: { // UXTH + val &= ((1ULL << 16) - 1); + len = 16; + signed_extend = false; + break; + } + case 0b010: { // UXTW + val &= ((1ULL << 32) - 1); + len = 32; + signed_extend = false; + break; + } + case 0b011: { // UXTX + len = 64; + signed_extend = false; + break; + } + case 0b100: { // SXTB + val &= ((1ULL << 8) - 1); + len = 8; + signed_extend = true; + break; + } + case 0b101: { // SXTH + val &= ((1ULL << 16) - 1); + len = 16; + signed_extend = true; + break; + } + case 0b110: { // SXTW + val &= ((1ULL << 32) - 1); + len = 32; + signed_extend = true; + break; + } + case 0b111: { // SXTX + len = 64; + signed_extend = true; + break; + } + default: + UNREACHABLE(); + } + + if (len < bitsize && signed_extend) { + extended = SignExtend(val, len, bitsize); + } else { + extended = val; + } + + return extended << shift; +} + +u128 InterpreterVisitor::GetVec(Vec v) { + return m_fpsimd_regs[static_cast<u32>(v)]; +} + +u64 InterpreterVisitor::GetReg(Reg r) { + return m_regs[static_cast<u32>(r)]; +} + +u64 InterpreterVisitor::GetSp() { + return m_sp; +} + +u64 InterpreterVisitor::GetPc() { + return m_pc; +} + +void InterpreterVisitor::SetVec(Vec v, u128 value) { + m_fpsimd_regs[static_cast<u32>(v)] = value; +} + +void InterpreterVisitor::SetReg(Reg r, u64 value) { + m_regs[static_cast<u32>(r)] = value; +} + +void InterpreterVisitor::SetSp(u64 value) { + m_sp = value; +} + +bool InterpreterVisitor::Ordered(size_t size, bool L, bool o0, Reg Rn, Reg Rt) { + const auto memop = L ? MemOp::Load : MemOp::Store; + const size_t elsize = 8 << size; + const size_t datasize = elsize; + + // Operation + const size_t dbytes = datasize / 8; + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + + switch (memop) { + case MemOp::Store: { + std::atomic_thread_fence(std::memory_order_seq_cst); + u64 value = this->GetReg(Rt); + m_memory.WriteBlock(address, &value, dbytes); + std::atomic_thread_fence(std::memory_order_seq_cst); + break; + } + case MemOp::Load: { + u64 value = 0; + m_memory.ReadBlock(address, &value, dbytes); + this->SetReg(Rt, value); + std::atomic_thread_fence(std::memory_order_seq_cst); + break; + } + default: + UNREACHABLE(); + } + + return true; +} + +bool InterpreterVisitor::STLLR(Imm<2> sz, Reg Rn, Reg Rt) { + const size_t size = sz.ZeroExtend<size_t>(); + const bool L = 0; + const bool o0 = 0; + return this->Ordered(size, L, o0, Rn, Rt); +} + +bool InterpreterVisitor::STLR(Imm<2> sz, Reg Rn, Reg Rt) { + const size_t size = sz.ZeroExtend<size_t>(); + const bool L = 0; + const bool o0 = 1; + return this->Ordered(size, L, o0, Rn, Rt); +} + +bool InterpreterVisitor::LDLAR(Imm<2> sz, Reg Rn, Reg Rt) { + const size_t size = sz.ZeroExtend<size_t>(); + const bool L = 1; + const bool o0 = 0; + return this->Ordered(size, L, o0, Rn, Rt); +} + +bool InterpreterVisitor::LDAR(Imm<2> sz, Reg Rn, Reg Rt) { + const size_t size = sz.ZeroExtend<size_t>(); + const bool L = 1; + const bool o0 = 1; + return this->Ordered(size, L, o0, Rn, Rt); +} + +bool InterpreterVisitor::LDR_lit_gen(bool opc_0, Imm<19> imm19, Reg Rt) { + const size_t size = opc_0 == 0 ? 4 : 8; + const s64 offset = Dynarmic::concatenate(imm19, Imm<2>{0}).SignExtend<s64>(); + const u64 address = this->GetPc() + offset; + + u64 data = 0; + m_memory.ReadBlock(address, &data, size); + + this->SetReg(Rt, data); + return true; +} + +bool InterpreterVisitor::LDR_lit_fpsimd(Imm<2> opc, Imm<19> imm19, Vec Vt) { + if (opc == 0b11) { + // Unallocated encoding + return false; + } + + const u64 size = 4 << opc.ZeroExtend(); + const u64 offset = imm19.SignExtend<u64>() << 2; + const u64 address = this->GetPc() + offset; + + u128 data{}; + m_memory.ReadBlock(address, &data, size); + this->SetVec(Vt, data); + return true; +} + +bool InterpreterVisitor::STP_LDP_gen(Imm<2> opc, bool not_postindex, bool wback, Imm<1> L, + Imm<7> imm7, Reg Rt2, Reg Rn, Reg Rt) { + if ((L == 0 && opc.Bit<0>() == 1) || opc == 0b11) { + // Unallocated encoding + return false; + } + + const auto memop = L == 1 ? MemOp::Load : MemOp::Store; + if (memop == MemOp::Load && wback && (Rt == Rn || Rt2 == Rn) && Rn != Reg::R31) { + // Unpredictable instruction + return false; + } + if (memop == MemOp::Store && wback && (Rt == Rn || Rt2 == Rn) && Rn != Reg::R31) { + // Unpredictable instruction + return false; + } + if (memop == MemOp::Load && Rt == Rt2) { + // Unpredictable instruction + return false; + } + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + + const bool postindex = !not_postindex; + const bool signed_ = opc.Bit<0>() != 0; + const size_t scale = 2 + opc.Bit<1>(); + const size_t datasize = 8 << scale; + const u64 offset = imm7.SignExtend<u64>() << scale; + + if (!postindex) { + address += offset; + } + + const size_t dbytes = datasize / 8; + switch (memop) { + case MemOp::Store: { + u64 data1 = this->GetReg(Rt); + u64 data2 = this->GetReg(Rt2); + m_memory.WriteBlock(address, &data1, dbytes); + m_memory.WriteBlock(address + dbytes, &data2, dbytes); + break; + } + case MemOp::Load: { + u64 data1 = 0, data2 = 0; + m_memory.ReadBlock(address, &data1, dbytes); + m_memory.ReadBlock(address + dbytes, &data2, dbytes); + if (signed_) { + this->SetReg(Rt, SignExtend(data1, datasize, 64)); + this->SetReg(Rt2, SignExtend(data2, datasize, 64)); + } else { + this->SetReg(Rt, data1); + this->SetReg(Rt2, data2); + } + break; + } + default: + UNREACHABLE(); + } + + if (wback) { + if (postindex) { + address += offset; + } + + if (Rn == Reg::SP) { + this->SetSp(address); + } else { + this->SetReg(Rn, address); + } + } + + return true; +} + +bool InterpreterVisitor::STP_LDP_fpsimd(Imm<2> opc, bool not_postindex, bool wback, Imm<1> L, + Imm<7> imm7, Vec Vt2, Reg Rn, Vec Vt) { + if (opc == 0b11) { + // Unallocated encoding + return false; + } + + const auto memop = L == 1 ? MemOp::Load : MemOp::Store; + if (memop == MemOp::Load && Vt == Vt2) { + // Unpredictable instruction + return false; + } + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + + const bool postindex = !not_postindex; + const size_t scale = 2 + opc.ZeroExtend<size_t>(); + const size_t datasize = 8 << scale; + const u64 offset = imm7.SignExtend<u64>() << scale; + const size_t dbytes = datasize / 8; + + if (!postindex) { + address += offset; + } + + switch (memop) { + case MemOp::Store: { + u128 data1 = VectorGetElement(this->GetVec(Vt), datasize); + u128 data2 = VectorGetElement(this->GetVec(Vt2), datasize); + m_memory.WriteBlock(address, &data1, dbytes); + m_memory.WriteBlock(address + dbytes, &data2, dbytes); + break; + } + case MemOp::Load: { + u128 data1{}, data2{}; + m_memory.ReadBlock(address, &data1, dbytes); + m_memory.ReadBlock(address + dbytes, &data2, dbytes); + this->SetVec(Vt, data1); + this->SetVec(Vt2, data2); + break; + } + default: + UNREACHABLE(); + } + + if (wback) { + if (postindex) { + address += offset; + } + + if (Rn == Reg::SP) { + this->SetSp(address); + } else { + this->SetReg(Rn, address); + } + } + + return true; +} + +bool InterpreterVisitor::RegisterImmediate(bool wback, bool postindex, size_t scale, u64 offset, + Imm<2> size, Imm<2> opc, Reg Rn, Reg Rt) { + MemOp memop; + bool signed_ = false; + size_t regsize = 0; + + if (opc.Bit<1>() == 0) { + memop = opc.Bit<0>() ? MemOp::Load : MemOp::Store; + regsize = size == 0b11 ? 64 : 32; + signed_ = false; + } else if (size == 0b11) { + memop = MemOp::Prefetch; + ASSERT(!opc.Bit<0>()); + } else { + memop = MemOp::Load; + ASSERT(!(size == 0b10 && opc.Bit<0>() == 1)); + regsize = opc.Bit<0>() ? 32 : 64; + signed_ = true; + } + + if (memop == MemOp::Load && wback && Rn == Rt && Rn != Reg::R31) { + // Unpredictable instruction + return false; + } + if (memop == MemOp::Store && wback && Rn == Rt && Rn != Reg::R31) { + // Unpredictable instruction + return false; + } + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + if (!postindex) { + address += offset; + } + + const size_t datasize = 8 << scale; + switch (memop) { + case MemOp::Store: { + u64 data = this->GetReg(Rt); + m_memory.WriteBlock(address, &data, datasize / 8); + break; + } + case MemOp::Load: { + u64 data = 0; + m_memory.ReadBlock(address, &data, datasize / 8); + if (signed_) { + this->SetReg(Rt, SignExtend(data, datasize, regsize)); + } else { + this->SetReg(Rt, data); + } + break; + } + case MemOp::Prefetch: + // this->Prefetch(address, Rt) + break; + } + + if (wback) { + if (postindex) { + address += offset; + } + + if (Rn == Reg::SP) { + this->SetSp(address); + } else { + this->SetReg(Rn, address); + } + } + + return true; +} + +bool InterpreterVisitor::STRx_LDRx_imm_1(Imm<2> size, Imm<2> opc, Imm<9> imm9, bool not_postindex, + Reg Rn, Reg Rt) { + const bool wback = true; + const bool postindex = !not_postindex; + const size_t scale = size.ZeroExtend<size_t>(); + const u64 offset = imm9.SignExtend<u64>(); + + return this->RegisterImmediate(wback, postindex, scale, offset, size, opc, Rn, Rt); +} + +bool InterpreterVisitor::STRx_LDRx_imm_2(Imm<2> size, Imm<2> opc, Imm<12> imm12, Reg Rn, Reg Rt) { + const bool wback = false; + const bool postindex = false; + const size_t scale = size.ZeroExtend<size_t>(); + const u64 offset = imm12.ZeroExtend<u64>() << scale; + + return this->RegisterImmediate(wback, postindex, scale, offset, size, opc, Rn, Rt); +} + +bool InterpreterVisitor::STURx_LDURx(Imm<2> size, Imm<2> opc, Imm<9> imm9, Reg Rn, Reg Rt) { + const bool wback = false; + const bool postindex = false; + const size_t scale = size.ZeroExtend<size_t>(); + const u64 offset = imm9.SignExtend<u64>(); + + return this->RegisterImmediate(wback, postindex, scale, offset, size, opc, Rn, Rt); +} + +bool InterpreterVisitor::SIMDImmediate(bool wback, bool postindex, size_t scale, u64 offset, + MemOp memop, Reg Rn, Vec Vt) { + const size_t datasize = 8 << scale; + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + + if (!postindex) { + address += offset; + } + + switch (memop) { + case MemOp::Store: { + u128 data = VectorGetElement(this->GetVec(Vt), datasize); + m_memory.WriteBlock(address, &data, datasize / 8); + break; + } + case MemOp::Load: { + u128 data{}; + m_memory.ReadBlock(address, &data, datasize); + this->SetVec(Vt, data); + break; + } + default: + UNREACHABLE(); + } + + if (wback) { + if (postindex) { + address += offset; + } + + if (Rn == Reg::SP) { + this->SetSp(address); + } else { + this->SetReg(Rn, address); + } + } + + return true; +} + +bool InterpreterVisitor::STR_imm_fpsimd_1(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, + bool not_postindex, Reg Rn, Vec Vt) { + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + + const bool wback = true; + const bool postindex = !not_postindex; + const u64 offset = imm9.SignExtend<u64>(); + + return this->SIMDImmediate(wback, postindex, scale, offset, MemOp::Store, Rn, Vt); +} + +bool InterpreterVisitor::STR_imm_fpsimd_2(Imm<2> size, Imm<1> opc_1, Imm<12> imm12, Reg Rn, + Vec Vt) { + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + + const bool wback = false; + const bool postindex = false; + const u64 offset = imm12.ZeroExtend<u64>() << scale; + + return this->SIMDImmediate(wback, postindex, scale, offset, MemOp::Store, Rn, Vt); +} + +bool InterpreterVisitor::LDR_imm_fpsimd_1(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, + bool not_postindex, Reg Rn, Vec Vt) { + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + + const bool wback = true; + const bool postindex = !not_postindex; + const u64 offset = imm9.SignExtend<u64>(); + + return this->SIMDImmediate(wback, postindex, scale, offset, MemOp::Load, Rn, Vt); +} + +bool InterpreterVisitor::LDR_imm_fpsimd_2(Imm<2> size, Imm<1> opc_1, Imm<12> imm12, Reg Rn, + Vec Vt) { + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + + const bool wback = false; + const bool postindex = false; + const u64 offset = imm12.ZeroExtend<u64>() << scale; + + return this->SIMDImmediate(wback, postindex, scale, offset, MemOp::Load, Rn, Vt); +} + +bool InterpreterVisitor::STUR_fpsimd(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, Reg Rn, Vec Vt) { + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + + const bool wback = false; + const bool postindex = false; + const u64 offset = imm9.SignExtend<u64>(); + + return this->SIMDImmediate(wback, postindex, scale, offset, MemOp::Store, Rn, Vt); +} + +bool InterpreterVisitor::LDUR_fpsimd(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, Reg Rn, Vec Vt) { + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + + const bool wback = false; + const bool postindex = false; + const u64 offset = imm9.SignExtend<u64>(); + + return this->SIMDImmediate(wback, postindex, scale, offset, MemOp::Load, Rn, Vt); +} + +bool InterpreterVisitor::RegisterOffset(size_t scale, u8 shift, Imm<2> size, Imm<1> opc_1, + Imm<1> opc_0, Reg Rm, Imm<3> option, Reg Rn, Reg Rt) { + MemOp memop; + size_t regsize = 64; + bool signed_ = false; + + if (opc_1 == 0) { + memop = opc_0 == 1 ? MemOp::Load : MemOp::Store; + regsize = size == 0b11 ? 64 : 32; + signed_ = false; + } else if (size == 0b11) { + memop = MemOp::Prefetch; + if (opc_0 == 1) { + // Unallocated encoding + return false; + } + } else { + memop = MemOp::Load; + if (size == 0b10 && opc_0 == 1) { + // Unallocated encoding + return false; + } + regsize = opc_0 == 1 ? 32 : 64; + signed_ = true; + } + + const size_t datasize = 8 << scale; + + // Operation + const u64 offset = this->ExtendReg(64, Rm, option, shift); + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + address += offset; + + switch (memop) { + case MemOp::Store: { + u64 data = this->GetReg(Rt); + m_memory.WriteBlock(address, &data, datasize / 8); + break; + } + case MemOp::Load: { + u64 data = 0; + m_memory.ReadBlock(address, &data, datasize / 8); + if (signed_) { + this->SetReg(Rt, SignExtend(data, datasize, regsize)); + } else { + this->SetReg(Rt, data); + } + break; + } + case MemOp::Prefetch: + break; + } + + return true; +} + +bool InterpreterVisitor::STRx_reg(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Reg Rt) { + const Imm<1> opc_0{0}; + const size_t scale = size.ZeroExtend<size_t>(); + const u8 shift = S ? static_cast<u8>(scale) : 0; + if (!option.Bit<1>()) { + // Unallocated encoding + return false; + } + return this->RegisterOffset(scale, shift, size, opc_1, opc_0, Rm, option, Rn, Rt); +} + +bool InterpreterVisitor::LDRx_reg(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Reg Rt) { + const Imm<1> opc_0{1}; + const size_t scale = size.ZeroExtend<size_t>(); + const u8 shift = S ? static_cast<u8>(scale) : 0; + if (!option.Bit<1>()) { + // Unallocated encoding + return false; + } + return this->RegisterOffset(scale, shift, size, opc_1, opc_0, Rm, option, Rn, Rt); +} + +bool InterpreterVisitor::SIMDOffset(size_t scale, u8 shift, Imm<1> opc_0, Reg Rm, Imm<3> option, + Reg Rn, Vec Vt) { + const auto memop = opc_0 == 1 ? MemOp::Load : MemOp::Store; + const size_t datasize = 8 << scale; + + // Operation + const u64 offset = this->ExtendReg(64, Rm, option, shift); + + u64 address; + if (Rn == Reg::SP) { + address = this->GetSp(); + } else { + address = this->GetReg(Rn); + } + address += offset; + + switch (memop) { + case MemOp::Store: { + u128 data = VectorGetElement(this->GetVec(Vt), datasize); + m_memory.WriteBlock(address, &data, datasize / 8); + break; + } + case MemOp::Load: { + u128 data{}; + m_memory.ReadBlock(address, &data, datasize / 8); + this->SetVec(Vt, data); + break; + } + default: + UNREACHABLE(); + } + + return true; +} + +bool InterpreterVisitor::STR_reg_fpsimd(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, + Reg Rn, Vec Vt) { + const Imm<1> opc_0{0}; + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + const u8 shift = S ? static_cast<u8>(scale) : 0; + if (!option.Bit<1>()) { + // Unallocated encoding + return false; + } + return this->SIMDOffset(scale, shift, opc_0, Rm, option, Rn, Vt); +} + +bool InterpreterVisitor::LDR_reg_fpsimd(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, + Reg Rn, Vec Vt) { + const Imm<1> opc_0{1}; + const size_t scale = Dynarmic::concatenate(opc_1, size).ZeroExtend<size_t>(); + if (scale > 4) { + // Unallocated encoding + return false; + } + const u8 shift = S ? static_cast<u8>(scale) : 0; + if (!option.Bit<1>()) { + // Unallocated encoding + return false; + } + return this->SIMDOffset(scale, shift, opc_0, Rm, option, Rn, Vt); +} + +std::optional<u64> MatchAndExecuteOneInstruction(Core::Memory::Memory& memory, mcontext_t* context, + fpsimd_context* fpsimd_context) { + // Construct the interpreter. + std::span<u64, 31> regs(reinterpret_cast<u64*>(context->regs), 31); + std::span<u128, 32> vregs(reinterpret_cast<u128*>(fpsimd_context->vregs), 32); + u64& sp = *reinterpret_cast<u64*>(&context->sp); + const u64& pc = *reinterpret_cast<u64*>(&context->pc); + + InterpreterVisitor visitor(memory, regs, vregs, sp, pc); + + // Read the instruction at the program counter. + u32 instruction = memory.Read32(pc); + bool was_executed = false; + + // Interpret the instruction. + if (auto decoder = Dynarmic::A64::Decode<VisitorBase>(instruction)) { + was_executed = decoder->get().call(visitor, instruction); + } else { + LOG_ERROR(Core_ARM, "Unallocated encoding: {:#x}", instruction); + } + + if (was_executed) { + return pc + 4; + } + + return std::nullopt; +} + +} // namespace Core diff --git a/src/core/arm/nce/interpreter_visitor.h b/src/core/arm/nce/interpreter_visitor.h new file mode 100644 index 000000000..f90d876ab --- /dev/null +++ b/src/core/arm/nce/interpreter_visitor.h @@ -0,0 +1,103 @@ +// SPDX-FileCopyrightText: Copyright 2023 yuzu Emulator Project +// SPDX-FileCopyrightText: Copyright 2023 merryhime <https://mary.rs> +// SPDX-License-Identifier: GPL-2.0-or-later + +#pragma once + +#include <signal.h> +#include <unistd.h> + +#include "core/arm/nce/visitor_base.h" + +namespace Core { + +namespace Memory { +class Memory; +} + +class InterpreterVisitor final : public VisitorBase { +public: + explicit InterpreterVisitor(Core::Memory::Memory& memory, std::span<u64, 31> regs, + std::span<u128, 32> fpsimd_regs, u64& sp, const u64& pc) + : m_memory(memory), m_regs(regs), m_fpsimd_regs(fpsimd_regs), m_sp(sp), m_pc(pc) {} + ~InterpreterVisitor() override = default; + + enum class MemOp { + Load, + Store, + Prefetch, + }; + + u128 GetVec(Vec v); + u64 GetReg(Reg r); + u64 GetSp(); + u64 GetPc(); + + void SetVec(Vec v, u128 value); + void SetReg(Reg r, u64 value); + void SetSp(u64 value); + + u64 ExtendReg(size_t bitsize, Reg reg, Imm<3> option, u8 shift); + + // Loads and stores - Load/Store Exclusive + bool Ordered(size_t size, bool L, bool o0, Reg Rn, Reg Rt); + bool STLLR(Imm<2> size, Reg Rn, Reg Rt) override; + bool STLR(Imm<2> size, Reg Rn, Reg Rt) override; + bool LDLAR(Imm<2> size, Reg Rn, Reg Rt) override; + bool LDAR(Imm<2> size, Reg Rn, Reg Rt) override; + + // Loads and stores - Load register (literal) + bool LDR_lit_gen(bool opc_0, Imm<19> imm19, Reg Rt) override; + bool LDR_lit_fpsimd(Imm<2> opc, Imm<19> imm19, Vec Vt) override; + + // Loads and stores - Load/Store register pair + bool STP_LDP_gen(Imm<2> opc, bool not_postindex, bool wback, Imm<1> L, Imm<7> imm7, Reg Rt2, + Reg Rn, Reg Rt) override; + bool STP_LDP_fpsimd(Imm<2> opc, bool not_postindex, bool wback, Imm<1> L, Imm<7> imm7, Vec Vt2, + Reg Rn, Vec Vt) override; + + // Loads and stores - Load/Store register (immediate) + bool RegisterImmediate(bool wback, bool postindex, size_t scale, u64 offset, Imm<2> size, + Imm<2> opc, Reg Rn, Reg Rt); + bool STRx_LDRx_imm_1(Imm<2> size, Imm<2> opc, Imm<9> imm9, bool not_postindex, Reg Rn, + Reg Rt) override; + bool STRx_LDRx_imm_2(Imm<2> size, Imm<2> opc, Imm<12> imm12, Reg Rn, Reg Rt) override; + bool STURx_LDURx(Imm<2> size, Imm<2> opc, Imm<9> imm9, Reg Rn, Reg Rt) override; + + bool SIMDImmediate(bool wback, bool postindex, size_t scale, u64 offset, MemOp memop, Reg Rn, + Vec Vt); + bool STR_imm_fpsimd_1(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, bool not_postindex, Reg Rn, + Vec Vt) override; + bool STR_imm_fpsimd_2(Imm<2> size, Imm<1> opc_1, Imm<12> imm12, Reg Rn, Vec Vt) override; + bool LDR_imm_fpsimd_1(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, bool not_postindex, Reg Rn, + Vec Vt) override; + bool LDR_imm_fpsimd_2(Imm<2> size, Imm<1> opc_1, Imm<12> imm12, Reg Rn, Vec Vt) override; + bool STUR_fpsimd(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, Reg Rn, Vec Vt) override; + bool LDUR_fpsimd(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, Reg Rn, Vec Vt) override; + + // Loads and stores - Load/Store register (register offset) + bool RegisterOffset(size_t scale, u8 shift, Imm<2> size, Imm<1> opc_1, Imm<1> opc_0, Reg Rm, + Imm<3> option, Reg Rn, Reg Rt); + bool STRx_reg(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Reg Rt) override; + bool LDRx_reg(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Reg Rt) override; + + bool SIMDOffset(size_t scale, u8 shift, Imm<1> opc_0, Reg Rm, Imm<3> option, Reg Rn, Vec Vt); + bool STR_reg_fpsimd(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Vec Vt) override; + bool LDR_reg_fpsimd(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Vec Vt) override; + +private: + Core::Memory::Memory& m_memory; + std::span<u64, 31> m_regs; + std::span<u128, 32> m_fpsimd_regs; + u64& m_sp; + const u64& m_pc; +}; + +std::optional<u64> MatchAndExecuteOneInstruction(Core::Memory::Memory& memory, mcontext_t* context, + fpsimd_context* fpsimd_context); + +} // namespace Core diff --git a/src/core/arm/nce/visitor_base.h b/src/core/arm/nce/visitor_base.h new file mode 100644 index 000000000..8fb032912 --- /dev/null +++ b/src/core/arm/nce/visitor_base.h @@ -0,0 +1,2777 @@ +// SPDX-FileCopyrightText: Copyright 2023 yuzu Emulator Project +// SPDX-FileCopyrightText: Copyright 2023 merryhime <https://mary.rs> +// SPDX-License-Identifier: GPL-2.0-or-later + +#pragma once + +#include <dynarmic/frontend/A64/a64_types.h> +#include <dynarmic/frontend/imm.h> + +namespace Core { + +class VisitorBase { +public: + using instruction_return_type = bool; + + template <size_t BitSize> + using Imm = Dynarmic::Imm<BitSize>; + using Reg = Dynarmic::A64::Reg; + using Vec = Dynarmic::A64::Vec; + using Cond = Dynarmic::A64::Cond; + + virtual ~VisitorBase() {} + + virtual bool UnallocatedEncoding() { + return false; + } + + // Data processing - Immediate - PC relative addressing + virtual bool ADR(Imm<2> immlo, Imm<19> immhi, Reg Rd) { + return false; + } + virtual bool ADRP(Imm<2> immlo, Imm<19> immhi, Reg Rd) { + return false; + } + + // Data processing - Immediate - Add/Sub (with tag) + virtual bool ADDG(Imm<6> offset_imm, Imm<4> tag_offset, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUBG(Imm<6> offset_imm, Imm<4> tag_offset, Reg Rn, Reg Rd) { + return false; + } + + // Data processing - Immediate - Add/Sub + virtual bool ADD_imm(bool sf, Imm<2> shift, Imm<12> imm12, Reg Rn, Reg Rd) { + return false; + } + virtual bool ADDS_imm(bool sf, Imm<2> shift, Imm<12> imm12, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUB_imm(bool sf, Imm<2> shift, Imm<12> imm12, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUBS_imm(bool sf, Imm<2> shift, Imm<12> imm12, Reg Rn, Reg Rd) { + return false; + } + + // Data processing - Immediate - Logical + virtual bool AND_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + virtual bool ORR_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + virtual bool EOR_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + virtual bool ANDS_imm(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + + // Data processing - Immediate - Move Wide + virtual bool MOVN(bool sf, Imm<2> hw, Imm<16> imm16, Reg Rd) { + return false; + } + virtual bool MOVZ(bool sf, Imm<2> hw, Imm<16> imm16, Reg Rd) { + return false; + } + virtual bool MOVK(bool sf, Imm<2> hw, Imm<16> imm16, Reg Rd) { + return false; + } + + // Data processing - Immediate - Bitfield + virtual bool SBFM(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + virtual bool BFM(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + virtual bool UBFM(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + virtual bool ASR_1(Imm<5> immr, Reg Rn, Reg Rd) { + return false; + } + virtual bool ASR_2(Imm<6> immr, Reg Rn, Reg Rd) { + return false; + } + virtual bool SXTB_1(Reg Rn, Reg Rd) { + return false; + } + virtual bool SXTB_2(Reg Rn, Reg Rd) { + return false; + } + virtual bool SXTH_1(Reg Rn, Reg Rd) { + return false; + } + virtual bool SXTH_2(Reg Rn, Reg Rd) { + return false; + } + virtual bool SXTW(Reg Rn, Reg Rd) { + return false; + } + + // Data processing - Immediate - Extract + virtual bool EXTR(bool sf, bool N, Reg Rm, Imm<6> imms, Reg Rn, Reg Rd) { + return false; + } + + // Conditional branch + virtual bool B_cond(Imm<19> imm19, Cond cond) { + return false; + } + + // Exception generation + virtual bool SVC(Imm<16> imm16) { + return false; + } + virtual bool HVC(Imm<16> imm16) { + return false; + } + virtual bool SMC(Imm<16> imm16) { + return false; + } + virtual bool BRK(Imm<16> imm16) { + return false; + } + virtual bool HLT(Imm<16> imm16) { + return false; + } + virtual bool DCPS1(Imm<16> imm16) { + return false; + } + virtual bool DCPS2(Imm<16> imm16) { + return false; + } + virtual bool DCPS3(Imm<16> imm16) { + return false; + } + + // System + virtual bool MSR_imm(Imm<3> op1, Imm<4> CRm, Imm<3> op2) { + return false; + } + virtual bool HINT(Imm<4> CRm, Imm<3> op2) { + return false; + } + virtual bool NOP() { + return false; + } + virtual bool YIELD() { + return false; + } + virtual bool WFE() { + return false; + } + virtual bool WFI() { + return false; + } + virtual bool SEV() { + return false; + } + virtual bool SEVL() { + return false; + } + virtual bool XPAC_1(bool D, Reg Rd) { + return false; + } + virtual bool XPAC_2() { + return false; + } + virtual bool PACIA_1(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool PACIA_2() { + return false; + } + virtual bool PACIB_1(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool PACIB_2() { + return false; + } + virtual bool AUTIA_1(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool AUTIA_2() { + return false; + } + virtual bool AUTIB_1(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool AUTIB_2() { + return false; + } + virtual bool BTI(Imm<2> upper_op2) { + return false; + } + virtual bool ESB() { + return false; + } + virtual bool PSB() { + return false; + } + virtual bool TSB() { + return false; + } + virtual bool CSDB() { + return false; + } + virtual bool CLREX(Imm<4> CRm) { + return false; + } + virtual bool DSB(Imm<4> CRm) { + return false; + } + virtual bool SSBB() { + return false; + } + virtual bool PSSBB() { + return false; + } + virtual bool DMB(Imm<4> CRm) { + return false; + } + virtual bool ISB(Imm<4> CRm) { + return false; + } + virtual bool SYS(Imm<3> op1, Imm<4> CRn, Imm<4> CRm, Imm<3> op2, Reg Rt) { + return false; + } + virtual bool SB() { + return false; + } + virtual bool MSR_reg(Imm<1> o0, Imm<3> op1, Imm<4> CRn, Imm<4> CRm, Imm<3> op2, Reg Rt) { + return false; + } + virtual bool SYSL(Imm<3> op1, Imm<4> CRn, Imm<4> CRm, Imm<3> op2, Reg Rt) { + return false; + } + virtual bool MRS(Imm<1> o0, Imm<3> op1, Imm<4> CRn, Imm<4> CRm, Imm<3> op2, Reg Rt) { + return false; + } + + // System - Flag manipulation instructions + virtual bool CFINV() { + return false; + } + virtual bool RMIF(Imm<6> lsb, Reg Rn, Imm<4> mask) { + return false; + } + virtual bool SETF8(Reg Rn) { + return false; + } + virtual bool SETF16(Reg Rn) { + return false; + } + + // System - Flag format instructions + virtual bool XAFlag() { + return false; + } + virtual bool AXFlag() { + return false; + } + + // SYS: Data Cache + virtual bool DC_IVAC(Reg Rt) { + return false; + } + virtual bool DC_ISW(Reg Rt) { + return false; + } + virtual bool DC_CSW(Reg Rt) { + return false; + } + virtual bool DC_CISW(Reg Rt) { + return false; + } + virtual bool DC_ZVA(Reg Rt) { + return false; + } + virtual bool DC_CVAC(Reg Rt) { + return false; + } + virtual bool DC_CVAU(Reg Rt) { + return false; + } + virtual bool DC_CVAP(Reg Rt) { + return false; + } + virtual bool DC_CIVAC(Reg Rt) { + return false; + } + + // SYS: Instruction Cache + virtual bool IC_IALLU() { + return false; + } + virtual bool IC_IALLUIS() { + return false; + } + virtual bool IC_IVAU(Reg Rt) { + return false; + } + + // Unconditional branch (Register) + virtual bool BR(Reg Rn) { + return false; + } + virtual bool BRA(bool Z, bool M, Reg Rn, Reg Rm) { + return false; + } + virtual bool BLR(Reg Rn) { + return false; + } + virtual bool BLRA(bool Z, bool M, Reg Rn, Reg Rm) { + return false; + } + virtual bool RET(Reg Rn) { + return false; + } + virtual bool RETA(bool M) { + return false; + } + virtual bool ERET() { + return false; + } + virtual bool ERETA(bool M) { + return false; + } + virtual bool DRPS() { + return false; + } + + // Unconditional branch (immediate) + virtual bool B_uncond(Imm<26> imm26) { + return false; + } + virtual bool BL(Imm<26> imm26) { + return false; + } + + // Compare and branch (immediate) + virtual bool CBZ(bool sf, Imm<19> imm19, Reg Rt) { + return false; + } + virtual bool CBNZ(bool sf, Imm<19> imm19, Reg Rt) { + return false; + } + virtual bool TBZ(Imm<1> b5, Imm<5> b40, Imm<14> imm14, Reg Rt) { + return false; + } + virtual bool TBNZ(Imm<1> b5, Imm<5> b40, Imm<14> imm14, Reg Rt) { + return false; + } + + // Loads and stores - Advanced SIMD Load/Store multiple structures + virtual bool STx_mult_1(bool Q, Imm<4> opcode, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool STx_mult_2(bool Q, Reg Rm, Imm<4> opcode, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LDx_mult_1(bool Q, Imm<4> opcode, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LDx_mult_2(bool Q, Reg Rm, Imm<4> opcode, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + + // Loads and stores - Advanced SIMD Load/Store single structures + virtual bool ST1_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool ST1_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool ST3_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool ST3_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool ST2_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool ST2_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool ST4_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool ST4_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool LD1_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD1_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool LD3_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD3_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool LD1R_1(bool Q, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD1R_2(bool Q, Reg Rm, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD3R_1(bool Q, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD3R_2(bool Q, Reg Rm, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD2_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD2_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool LD4_sngl_1(bool Q, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD4_sngl_2(bool Q, Reg Rm, Imm<2> upper_opcode, bool S, Imm<2> size, Reg Rn, + Vec Vt) { + return false; + } + virtual bool LD2R_1(bool Q, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD2R_2(bool Q, Reg Rm, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD4R_1(bool Q, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + virtual bool LD4R_2(bool Q, Reg Rm, Imm<2> size, Reg Rn, Vec Vt) { + return false; + } + + // Loads and stores - Load/Store Exclusive + virtual bool STXR(Imm<2> size, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool STLXR(Imm<2> size, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool STXP(Imm<1> size, Reg Rs, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool STLXP(Imm<1> size, Reg Rs, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDXR(Imm<2> size, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDAXR(Imm<2> size, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDXP(Imm<1> size, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDAXP(Imm<1> size, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool STLLR(Imm<2> size, Reg Rn, Reg Rt) { + return false; + } + virtual bool STLR(Imm<2> size, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDLAR(Imm<2> size, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDAR(Imm<2> size, Reg Rn, Reg Rt) { + return false; + } + virtual bool CASP(bool sz, bool L, Reg Rs, bool o0, Reg Rn, Reg Rt) { + return false; + } + virtual bool CASB(bool L, Reg Rs, bool o0, Reg Rn, Reg Rt) { + return false; + } + virtual bool CASH(bool L, Reg Rs, bool o0, Reg Rn, Reg Rt) { + return false; + } + virtual bool CAS(bool sz, bool L, Reg Rs, bool o0, Reg Rn, Reg Rt) { + return false; + } + + // Loads and stores - Load register (literal) + virtual bool LDR_lit_gen(bool opc_0, Imm<19> imm19, Reg Rt) { + return false; + } + virtual bool LDR_lit_fpsimd(Imm<2> opc, Imm<19> imm19, Vec Vt) { + return false; + } + virtual bool LDRSW_lit(Imm<19> imm19, Reg Rt) { + return false; + } + virtual bool PRFM_lit(Imm<19> imm19, Imm<5> prfop) { + return false; + } + + // Loads and stores - Load/Store no-allocate pair + virtual bool STNP_LDNP_gen(Imm<1> upper_opc, Imm<1> L, Imm<7> imm7, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool STNP_LDNP_fpsimd(Imm<2> opc, Imm<1> L, Imm<7> imm7, Vec Vt2, Reg Rn, Vec Vt) { + return false; + } + + // Loads and stores - Load/Store register pair + virtual bool STP_LDP_gen(Imm<2> opc, bool not_postindex, bool wback, Imm<1> L, Imm<7> imm7, + Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool STP_LDP_fpsimd(Imm<2> opc, bool not_postindex, bool wback, Imm<1> L, Imm<7> imm7, + Vec Vt2, Reg Rn, Vec Vt) { + return false; + } + virtual bool STGP_1(Imm<7> offset_imm, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool STGP_2(Imm<7> offset_imm, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + virtual bool STGP_3(Imm<7> offset_imm, Reg Rt2, Reg Rn, Reg Rt) { + return false; + } + + // Loads and stores - Load/Store register (immediate) + virtual bool STRx_LDRx_imm_1(Imm<2> size, Imm<2> opc, Imm<9> imm9, bool not_postindex, Reg Rn, + Reg Rt) { + return false; + } + virtual bool STRx_LDRx_imm_2(Imm<2> size, Imm<2> opc, Imm<12> imm12, Reg Rn, Reg Rt) { + return false; + } + virtual bool STURx_LDURx(Imm<2> size, Imm<2> opc, Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool PRFM_imm(Imm<12> imm12, Reg Rn, Reg Rt) { + return false; + } + virtual bool PRFM_unscaled_imm(Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool STR_imm_fpsimd_1(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, bool not_postindex, + Reg Rn, Vec Vt) { + return false; + } + virtual bool STR_imm_fpsimd_2(Imm<2> size, Imm<1> opc_1, Imm<12> imm12, Reg Rn, Vec Vt) { + return false; + } + virtual bool LDR_imm_fpsimd_1(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, bool not_postindex, + Reg Rn, Vec Vt) { + return false; + } + virtual bool LDR_imm_fpsimd_2(Imm<2> size, Imm<1> opc_1, Imm<12> imm12, Reg Rn, Vec Vt) { + return false; + } + virtual bool STUR_fpsimd(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, Reg Rn, Vec Vt) { + return false; + } + virtual bool LDUR_fpsimd(Imm<2> size, Imm<1> opc_1, Imm<9> imm9, Reg Rn, Vec Vt) { + return false; + } + + // Loads and stores - Load/Store register (unprivileged) + virtual bool STTRB(Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDTRB(Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDTRSB(Imm<2> opc, Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool STTRH(Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDTRH(Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDTRSH(Imm<2> opc, Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool STTR(Imm<2> size, Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDTR(Imm<2> size, Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDTRSW(Imm<9> imm9, Reg Rn, Reg Rt) { + return false; + } + + // Loads and stores - Atomic memory options + virtual bool LDADDB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDCLRB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDEORB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSETB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSMAXB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSMINB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDUMAXB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDUMINB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool SWPB(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDAPRB(Reg Rn, Reg Rt) { + return false; + } + virtual bool LDADDH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDCLRH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDEORH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSETH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSMAXH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSMINH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDUMAXH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDUMINH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool SWPH(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDAPRH(Reg Rn, Reg Rt) { + return false; + } + virtual bool LDADD(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDCLR(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDEOR(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSET(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSMAX(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDSMIN(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDUMAX(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDUMIN(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool SWP(bool A, bool R, Reg Rs, Reg Rn, Reg Rt) { + return false; + } + virtual bool LDAPR(Reg Rn, Reg Rt) { + return false; + } + + // Loads and stores - Load/Store register (register offset) + virtual bool STRx_reg(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Reg Rt) { + return false; + } + virtual bool LDRx_reg(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Reg Rt) { + return false; + } + virtual bool STR_reg_fpsimd(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Vec Vt) { + return false; + } + virtual bool LDR_reg_fpsimd(Imm<2> size, Imm<1> opc_1, Reg Rm, Imm<3> option, bool S, Reg Rn, + Vec Vt) { + return false; + } + + // Loads and stores - Load/Store memory tags + virtual bool STG_1(Imm<9> imm9, Reg Rn) { + return false; + } + virtual bool STG_2(Imm<9> imm9, Reg Rn) { + return false; + } + virtual bool STG_3(Imm<9> imm9, Reg Rn) { + return false; + } + virtual bool LDG(Imm<9> offset_imm, Reg Rn, Reg Rt) { + return false; + } + virtual bool STZG_1(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool STZG_2(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool STZG_3(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool ST2G_1(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool ST2G_2(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool ST2G_3(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool STGV(Reg Rn, Reg Rt) { + return false; + } + virtual bool STZ2G_1(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool STZ2G_2(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool STZ2G_3(Imm<9> offset_imm, Reg Rn) { + return false; + } + virtual bool LDGV(Reg Rn, Reg Rt) { + return false; + } + + // Loads and stores - Load/Store register (pointer authentication) + virtual bool LDRA(bool M, bool S, Imm<9> imm9, bool W, Reg Rn, Reg Rt) { + return false; + } + + // Data Processing - Register - 2 source + virtual bool UDIV(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool SDIV(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool LSLV(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool LSRV(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool ASRV(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool RORV(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool CRC32(bool sf, Reg Rm, Imm<2> sz, Reg Rn, Reg Rd) { + return false; + } + virtual bool CRC32C(bool sf, Reg Rm, Imm<2> sz, Reg Rn, Reg Rd) { + return false; + } + virtual bool PACGA(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUBP(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool IRG(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool GMI(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUBPS(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - 1 source + virtual bool RBIT_int(bool sf, Reg Rn, Reg Rd) { + return false; + } + virtual bool REV16_int(bool sf, Reg Rn, Reg Rd) { + return false; + } + virtual bool REV(bool sf, bool opc_0, Reg Rn, Reg Rd) { + return false; + } + virtual bool CLZ_int(bool sf, Reg Rn, Reg Rd) { + return false; + } + virtual bool CLS_int(bool sf, Reg Rn, Reg Rd) { + return false; + } + virtual bool REV32_int(Reg Rn, Reg Rd) { + return false; + } + virtual bool PACDA(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool PACDB(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool AUTDA(bool Z, Reg Rn, Reg Rd) { + return false; + } + virtual bool AUTDB(bool Z, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - Logical (shifted register) + virtual bool AND_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool BIC_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool ORR_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool ORN_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool EOR_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool EON(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool ANDS_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool BICS(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - Add/Sub (shifted register) + virtual bool ADD_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool ADDS_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUB_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUBS_shift(bool sf, Imm<2> shift, Reg Rm, Imm<6> imm6, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - Add/Sub (shifted register) + virtual bool ADD_ext(bool sf, Reg Rm, Imm<3> option, Imm<3> imm3, Reg Rn, Reg Rd) { + return false; + } + virtual bool ADDS_ext(bool sf, Reg Rm, Imm<3> option, Imm<3> imm3, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUB_ext(bool sf, Reg Rm, Imm<3> option, Imm<3> imm3, Reg Rn, Reg Rd) { + return false; + } + virtual bool SUBS_ext(bool sf, Reg Rm, Imm<3> option, Imm<3> imm3, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - Add/Sub (with carry) + virtual bool ADC(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool ADCS(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool SBC(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool SBCS(bool sf, Reg Rm, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - Conditional compare + virtual bool CCMN_reg(bool sf, Reg Rm, Cond cond, Reg Rn, Imm<4> nzcv) { + return false; + } + virtual bool CCMP_reg(bool sf, Reg Rm, Cond cond, Reg Rn, Imm<4> nzcv) { + return false; + } + virtual bool CCMN_imm(bool sf, Imm<5> imm5, Cond cond, Reg Rn, Imm<4> nzcv) { + return false; + } + virtual bool CCMP_imm(bool sf, Imm<5> imm5, Cond cond, Reg Rn, Imm<4> nzcv) { + return false; + } + + // Data Processing - Register - Conditional select + virtual bool CSEL(bool sf, Reg Rm, Cond cond, Reg Rn, Reg Rd) { + return false; + } + virtual bool CSINC(bool sf, Reg Rm, Cond cond, Reg Rn, Reg Rd) { + return false; + } + virtual bool CSINV(bool sf, Reg Rm, Cond cond, Reg Rn, Reg Rd) { + return false; + } + virtual bool CSNEG(bool sf, Reg Rm, Cond cond, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - Register - 3 source + virtual bool MADD(bool sf, Reg Rm, Reg Ra, Reg Rn, Reg Rd) { + return false; + } + virtual bool MSUB(bool sf, Reg Rm, Reg Ra, Reg Rn, Reg Rd) { + return false; + } + virtual bool SMADDL(Reg Rm, Reg Ra, Reg Rn, Reg Rd) { + return false; + } + virtual bool SMSUBL(Reg Rm, Reg Ra, Reg Rn, Reg Rd) { + return false; + } + virtual bool SMULH(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + virtual bool UMADDL(Reg Rm, Reg Ra, Reg Rn, Reg Rd) { + return false; + } + virtual bool UMSUBL(Reg Rm, Reg Ra, Reg Rn, Reg Rd) { + return false; + } + virtual bool UMULH(Reg Rm, Reg Rn, Reg Rd) { + return false; + } + + // Data Processing - FP and SIMD - AES + virtual bool AESE(Vec Vn, Vec Vd) { + return false; + } + virtual bool AESD(Vec Vn, Vec Vd) { + return false; + } + virtual bool AESMC(Vec Vn, Vec Vd) { + return false; + } + virtual bool AESIMC(Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SHA + virtual bool SHA1C(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA1P(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA1M(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA1SU0(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA256H(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA256H2(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA256SU1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA1H(Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA1SU1(Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA256SU0(Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Scalar copy + virtual bool DUP_elt_1(Imm<5> imm5, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Scalar three + virtual bool FMULX_vec_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMULX_vec_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_reg_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_reg_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPS_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPS_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTS_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTS_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_reg_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_reg_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGE_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGE_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABD_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABD_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_reg_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_reg_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGT_1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGT_2(bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Two register misc FP16 + virtual bool FCVTNS_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMS_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAS_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool SCVTF_int_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_zero_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_zero_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLT_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPS_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZS_int_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPE_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPX_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTNU_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMU_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAU_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool UCVTF_int_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_zero_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLE_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPU_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZU_int_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTE_1(Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Two register misc + virtual bool FCVTNS_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMS_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAS_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool SCVTF_int_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_zero_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_zero_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLT_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPS_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZS_int_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPE_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPX_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTNU_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMU_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAU_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool UCVTF_int_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_zero_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLE_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPU_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZU_int_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTE_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Scalar two register misc FP16 + virtual bool FCVTNS_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMS_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAS_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool SCVTF_int_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_zero_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_zero_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLT_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPS_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZS_int_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPE_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTNU_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMU_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAU_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool UCVTF_int_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_zero_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLE_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPU_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZU_int_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTE_3(bool Q, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Scalar two register misc + virtual bool FCVTNS_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMS_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAS_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool SCVTF_int_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_zero_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_zero_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLT_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPS_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZS_int_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPE_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTNU_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTMU_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTAU_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool UCVTF_int_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_zero_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLE_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTPU_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZU_int_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTE_4(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Scalar three same extra + virtual bool SQRDMLAH_vec_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMLAH_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMLSH_vec_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMLSH_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Scalar two-register misc + virtual bool SUQADD_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQABS_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGT_zero_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMEQ_zero_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMLT_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool ABS_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQXTN_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool USQADD_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQNEG_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGE_zero_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMLE_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool NEG_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQXTUN_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQXTN_1(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTXN_1(bool sz, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Scalar pairwise + virtual bool ADDP_pair(Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNMP_pair_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNMP_pair_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FADDP_pair_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FADDP_pair_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXP_pair_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXP_pair_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNMP_pair_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNMP_pair_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINP_pair_1(Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINP_pair_2(bool sz, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Scalar three different + virtual bool SQDMLAL_vec_1(Imm<2> size, Reg Rm, Reg Rn, Vec Vd) { + return false; + } + virtual bool SQDMLSL_vec_1(Imm<2> size, Reg Rm, Reg Rn, Vec Vd) { + return false; + } + virtual bool SQDMULL_vec_1(Imm<2> size, Reg Rm, Reg Rn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Scalar three same + virtual bool SQADD_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSUB_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGT_reg_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGE_reg_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSHL_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHL_reg_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRSHL_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRSHL_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ADD_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMTST_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQDMULH_vec_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQADD_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSUB_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMHI_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMHS_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool USHL_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSHL_reg_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSHL_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQRSHL_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SUB_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMEQ_reg_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMULH_vec_1(Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Scalar shift by immediate + virtual bool SSHR_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSRA_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRSHR_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRSRA_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHL_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHL_imm_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHRN_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRSHRN_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SCVTF_fix_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZS_fix_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool USHR_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool USRA_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSHR_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSRA_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRI_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SLI_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHLU_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSHL_imm_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHRUN_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRSHRUN_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSHRN_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQRSHRN_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UCVTF_fix_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZU_fix_1(Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Scalar x indexed element + virtual bool SQDMLAL_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQDMLSL_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQDMULL_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQDMULH_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQRDMULH_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLA_elt_1(Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLA_elt_2(bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLS_elt_1(Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLS_elt_2(bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMUL_elt_1(Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMUL_elt_2(bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMLAH_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQRDMLSH_elt_1(Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMULX_elt_1(Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMULX_elt_2(bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Table Lookup + virtual bool TBL(bool Q, Vec Vm, Imm<2> len, size_t Vn, Vec Vd) { + return false; + } + virtual bool TBX(bool Q, Vec Vm, Imm<2> len, size_t Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Permute + virtual bool UZP1(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool TRN1(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ZIP1(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UZP2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool TRN2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ZIP2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Extract + virtual bool EXT(bool Q, Vec Vm, Imm<4> imm4, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Copy + virtual bool DUP_elt_2(bool Q, Imm<5> imm5, Vec Vn, Vec Vd) { + return false; + } + virtual bool DUP_gen(bool Q, Imm<5> imm5, Reg Rn, Vec Vd) { + return false; + } + virtual bool SMOV(bool Q, Imm<5> imm5, Vec Vn, Reg Rd) { + return false; + } + virtual bool UMOV(bool Q, Imm<5> imm5, Vec Vn, Reg Rd) { + return false; + } + virtual bool INS_gen(Imm<5> imm5, Reg Rn, Vec Vd) { + return false; + } + virtual bool INS_elt(Imm<5> imm5, Imm<4> imm4, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Three same + virtual bool FMULX_vec_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_reg_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPS_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTS_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_reg_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGE_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABD_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_reg_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGT_3(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNM_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLA_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FADD_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAX_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNM_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLS_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FSUB_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMIN_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNMP_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FADDP_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMUL_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXP_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FDIV_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNMP_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINP_vec_1(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Three same extra + virtual bool SDOT_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UDOT_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMLA_vec(bool Q, Imm<2> size, Vec Vm, Imm<2> rot, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCADD_vec(bool Q, Imm<2> size, Vec Vm, Imm<1> rot, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Two register misc + virtual bool REV64_asimd(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool REV16_asimd(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SADDLP(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CLS_asimd(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CNT(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SADALP(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool XTN(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTN(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTL(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool URECPE(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool REV32_asimd(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool UADDLP(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CLZ_asimd(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool UADALP(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHLL(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool NOT(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool RBIT_asimd(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSQRTE(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool SUQADD_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQABS_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGT_zero_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMEQ_zero_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMLT_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool ABS_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQXTN_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool USQADD_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQNEG_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGE_zero_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMLE_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool NEG_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQXTUN_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQXTN_2(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTXN_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTN_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTN_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTM_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTM_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABS_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABS_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTP_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTP_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTZ_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTZ_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTA_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTA_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTX_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTX_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FNEG_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FNEG_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTI_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTI_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FSQRT_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FSQRT_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT32X_1(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT64X_1(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT32Z_1(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT64Z_1(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD across lanes + virtual bool SADDLV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMAXV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMINV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool ADDV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNMV_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNMV_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXV_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXV_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNMV_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNMV_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINV_1(bool Q, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINV_2(bool Q, bool sz, Vec Vn, Vec Vd) { + return false; + } + virtual bool UADDLV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMAXV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMINV(bool Q, Imm<2> size, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD three different + virtual bool SADDL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SADDW(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSUBL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSUBW(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ADDHN(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SABAL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SUBHN(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SABDL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMLAL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMLSL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMULL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool PMULL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UADDL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UADDW(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool USUBL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool USUBW(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool RADDHN(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UABAL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool RSUBHN(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UABDL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMLAL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMLSL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMULL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQDMLAL_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQDMLSL_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQDMULL_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD three same + virtual bool SHADD(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRHADD(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHSUB(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMAX(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMIN(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SABD(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SABA(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool MLA_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool MUL_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMAXP(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SMINP(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ADDP_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLAL_vec_1(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLAL_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool AND_asimd(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool BIC_asimd_reg(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLSL_vec_1(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLSL_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ORR_asimd_reg(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ORN_asimd(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UHADD(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool URHADD(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UHSUB(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMAX(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMIN(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UABD(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UABA(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool MLS_vec(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool PMUL(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMAXP(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UMINP(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool EOR_asimd(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool BSL(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool BIT(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool BIF(bool Q, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNM_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLA_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FADD_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAX_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNM_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLS_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FSUB_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMIN_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNMP_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FADDP_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMUL_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXP_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FDIV_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNMP_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINP_vec_2(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMULX_vec_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMEQ_reg_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRECPS_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRSQRTS_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGE_reg_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGE_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABD_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCMGT_reg_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FACGT_4(bool Q, bool sz, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQADD_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSUB_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGT_reg_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMGE_reg_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSHL_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHL_reg_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRSHL_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRSHL_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool ADD_vector(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMTST_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQDMULH_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQADD_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSUB_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMHI_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMHS_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool USHL_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSHL_reg_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSHL_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQRSHL_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SUB_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool CMEQ_reg_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMULH_vec_2(bool Q, Imm<2> size, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD modified immediate + virtual bool MOVI(bool Q, bool op, Imm<1> a, Imm<1> b, Imm<1> c, Imm<4> cmode, Imm<1> d, + Imm<1> e, Imm<1> f, Imm<1> g, Imm<1> h, Vec Vd) { + return false; + } + virtual bool FMOV_2(bool Q, bool op, Imm<1> a, Imm<1> b, Imm<1> c, Imm<1> d, Imm<1> e, Imm<1> f, + Imm<1> g, Imm<1> h, Vec Vd) { + return false; + } + virtual bool FMOV_3(bool Q, Imm<1> a, Imm<1> b, Imm<1> c, Imm<1> d, Imm<1> e, Imm<1> f, + Imm<1> g, Imm<1> h, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD Shift by immediate + virtual bool SSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHL_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHL_imm_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHRN(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool RSHRN(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHRN_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRSHRN_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SSHLL(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SCVTF_fix_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZS_fix_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool USHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool USRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool URSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SRI_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SLI_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHLU_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSHL_imm_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQSHRUN_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRSHRUN_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQSHRN_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UQRSHRN_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool USHLL(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool UCVTF_fix_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVTZU_fix_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SIMD vector x indexed element + virtual bool SMLAL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQDMLAL_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool SMLSL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQDMLSL_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool MUL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SMULL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vm, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQDMULL_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool SQDMULH_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool SQRDMULH_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool SDOT_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLA_elt_3(bool Q, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLA_elt_4(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLS_elt_3(bool Q, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMLS_elt_4(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMUL_elt_3(bool Q, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMUL_elt_4(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLAL_elt_1(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLAL_elt_2(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLSL_elt_1(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FMLSL_elt_2(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool MLA_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool UMLAL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool MLS_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool UMLSL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool UMULL_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQRDMLAH_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool UDOT_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool SQRDMLSH_elt_2(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, + Vec Vn, Vec Vd) { + return false; + } + virtual bool FMULX_elt_3(bool Q, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMULX_elt_4(bool Q, bool sz, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<1> H, Vec Vn, + Vec Vd) { + return false; + } + virtual bool FCMLA_elt(bool Q, Imm<2> size, Imm<1> L, Imm<1> M, Imm<4> Vmlo, Imm<2> rot, + Imm<1> H, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Cryptographic three register + virtual bool SM3TT1A(Vec Vm, Imm<2> imm2, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM3TT1B(Vec Vm, Imm<2> imm2, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM3TT2A(Vec Vm, Imm<2> imm2, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM3TT2B(Vec Vm, Imm<2> imm2, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SHA512 three register + virtual bool SHA512H(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA512H2(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SHA512SU1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool RAX1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool XAR(Vec Vm, Imm<6> imm6, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM3PARTW1(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM3PARTW2(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM4EKEY(Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Cryptographic four register + virtual bool EOR3(Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } + virtual bool BCAX(Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } + virtual bool SM3SS1(Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - SHA512 two register + virtual bool SHA512SU0(Vec Vn, Vec Vd) { + return false; + } + virtual bool SM4E(Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Conversion between floating point and fixed point + virtual bool SCVTF_float_fix(bool sf, Imm<2> type, Imm<6> scale, Reg Rn, Vec Vd) { + return false; + } + virtual bool UCVTF_float_fix(bool sf, Imm<2> type, Imm<6> scale, Reg Rn, Vec Vd) { + return false; + } + virtual bool FCVTZS_float_fix(bool sf, Imm<2> type, Imm<6> scale, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTZU_float_fix(bool sf, Imm<2> type, Imm<6> scale, Vec Vn, Reg Rd) { + return false; + } + + // Data Processing - FP and SIMD - Conversion between floating point and integer + virtual bool FCVTNS_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTNU_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool SCVTF_float_int(bool sf, Imm<2> type, Reg Rn, Vec Vd) { + return false; + } + virtual bool UCVTF_float_int(bool sf, Imm<2> type, Reg Rn, Vec Vd) { + return false; + } + virtual bool FCVTAS_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTAU_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FMOV_float_gen(bool sf, Imm<2> type, Imm<1> rmode_0, Imm<1> opc_0, size_t n, + size_t d) { + return false; + } + virtual bool FCVTPS_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTPU_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTMS_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTMU_float(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTZS_float_int(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FCVTZU_float_int(bool sf, Imm<2> type, Vec Vn, Reg Rd) { + return false; + } + virtual bool FJCVTZS(Vec Vn, Reg Rd) { + return false; + } + + // Data Processing - FP and SIMD - Floating point data processing + virtual bool FMOV_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FABS_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FNEG_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FSQRT_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FCVT_float(Imm<2> type, Imm<2> opc, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTN_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTP_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTM_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTZ_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTA_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTX_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINTI_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT32X_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT64X_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT32Z_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + virtual bool FRINT64Z_float(Imm<2> type, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Floating point compare + virtual bool FCMP_float(Imm<2> type, Vec Vm, Vec Vn, bool cmp_with_zero) { + return false; + } + virtual bool FCMPE_float(Imm<2> type, Vec Vm, Vec Vn, bool cmp_with_zero) { + return false; + } + + // Data Processing - FP and SIMD - Floating point immediate + virtual bool FMOV_float_imm(Imm<2> type, Imm<8> imm8, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Floating point conditional compare + virtual bool FCCMP_float(Imm<2> type, Vec Vm, Cond cond, Vec Vn, Imm<4> nzcv) { + return false; + } + virtual bool FCCMPE_float(Imm<2> type, Vec Vm, Cond cond, Vec Vn, Imm<4> nzcv) { + return false; + } + + // Data Processing - FP and SIMD - Floating point data processing two register + virtual bool FMUL_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FDIV_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FADD_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FSUB_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAX_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMIN_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMAXNM_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMINNM_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + virtual bool FNMUL_float(Imm<2> type, Vec Vm, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Floating point conditional select + virtual bool FCSEL_float(Imm<2> type, Vec Vm, Cond cond, Vec Vn, Vec Vd) { + return false; + } + + // Data Processing - FP and SIMD - Floating point data processing three register + virtual bool FMADD_float(Imm<2> type, Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } + virtual bool FMSUB_float(Imm<2> type, Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } + virtual bool FNMADD_float(Imm<2> type, Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } + virtual bool FNMSUB_float(Imm<2> type, Vec Vm, Vec Va, Vec Vn, Vec Vd) { + return false; + } +}; + +} // namespace Core |