A64: Implement SBFM, BFM, UBFM
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cdbc8d07a5
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9f57283a30
6 changed files with 91 additions and 6 deletions
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@ -61,6 +61,7 @@ add_library(dynarmic
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frontend/A64/location_descriptor.h
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frontend/A64/translate/impl/branch.cpp
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frontend/A64/translate/impl/data_processing_addsub.cpp
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frontend/A64/translate/impl/data_processing_bitfield.cpp
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frontend/A64/translate/impl/data_processing_logical.cpp
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frontend/A64/translate/impl/data_processing_pcrel.cpp
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frontend/A64/translate/impl/exception_generating.cpp
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@ -101,6 +101,8 @@ inline int HighestSetBit(T value) {
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template <typename T>
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inline T Ones(size_t count) {
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ASSERT_MSG(count <= BitSize<T>(), "count larger than bitsize of T");
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if (count == BitSize<T>())
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return ~static_cast<T>(0);
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return ~(~static_cast<T>(0) << count);
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}
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@ -20,9 +20,9 @@ INST(MOVZ, "MOVZ", "z1010
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INST(MOVK, "MOVK", "z11100101ssiiiiiiiiiiiiiiiiddddd")
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// Data processing - Immediate - Bitfield
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//INST(SBFM, "SBFM", "z00100110Nrrrrrrssssssnnnnnddddd")
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//INST(BFM, "BFM", "z01100110Nrrrrrrssssssnnnnnddddd")
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//INST(UBFM, "UBFM", "z10100110Nrrrrrrssssssnnnnnddddd")
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INST(SBFM, "SBFM", "z00100110Nrrrrrrssssssnnnnnddddd")
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INST(BFM, "BFM", "z01100110Nrrrrrrssssssnnnnnddddd")
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INST(UBFM, "UBFM", "z10100110Nrrrrrrssssssnnnnnddddd")
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// Data processing - Immediate - Extract
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//INST(EXTR, "EXTR", "z00100111N0mmmmmssssssnnnnnddddd")
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81
src/frontend/A64/translate/impl/data_processing_bitfield.cpp
Normal file
81
src/frontend/A64/translate/impl/data_processing_bitfield.cpp
Normal file
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@ -0,0 +1,81 @@
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/* This file is part of the dynarmic project.
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* Copyright (c) 2018 MerryMage
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* This software may be used and distributed according to the terms of the GNU
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* General Public License version 2 or any later version.
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*/
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#include "frontend/A64/translate/impl/impl.h"
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namespace Dynarmic {
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namespace A64 {
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static IR::U32U64 ReplicateBit(IREmitter& ir, const IR::U32U64& value, u8 bit_position_to_replicate) {
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u8 datasize = value.GetType() == IR::Type::U64 ? 64 : 32;
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auto bit = ir.LogicalShiftLeft(value, ir.Imm8(datasize - 1 - bit_position_to_replicate));
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return ir.ArithmeticShiftRight(bit, ir.Imm8(datasize - 1));
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}
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bool TranslatorVisitor::SBFM(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
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size_t datasize = sf ? 64 : 32;
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if (sf && !N) return ReservedValue();
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if (!sf && (N || immr.Bit<5>() || imms.Bit<5>())) return ReservedValue();
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u8 R = immr.ZeroExtend<u8>();
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u8 S = imms.ZeroExtend<u8>();
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auto masks = DecodeBitMasks(N, imms, immr, false);
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if (!masks) return ReservedValue();
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auto src = X(datasize, Rn);
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auto bot = ir.And(ir.RotateRight(src, ir.Imm8(R)), I(datasize, masks->wmask));
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auto top = ReplicateBit(ir, src, S);
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top = ir.And(top, I(datasize, ~masks->tmask));
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bot = ir.And(bot, I(datasize, masks->tmask));
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X(datasize, Rd, ir.Or(top, bot));
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return true;
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}
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bool TranslatorVisitor::BFM(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
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size_t datasize = sf ? 64 : 32;
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if (sf && !N) return ReservedValue();
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if (!sf && (N || immr.Bit<5>() || imms.Bit<5>())) return ReservedValue();
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u8 R = immr.ZeroExtend<u8>();
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auto masks = DecodeBitMasks(N, imms, immr, false);
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if (!masks) return ReservedValue();
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auto dst = X(datasize, Rd);
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auto src = X(datasize, Rn);
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auto bot = ir.Or(ir.And(dst, I(datasize, ~masks->wmask)), ir.And(ir.RotateRight(src, ir.Imm8(R)), I(datasize, masks->wmask)));
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X(datasize, Rd, ir.Or(ir.And(dst, I(datasize, ~masks->tmask)), ir.And(bot, I(datasize, masks->tmask))));
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return true;
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}
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bool TranslatorVisitor::UBFM(bool sf, bool N, Imm<6> immr, Imm<6> imms, Reg Rn, Reg Rd) {
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size_t datasize = sf ? 64 : 32;
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if (sf && !N) return ReservedValue();
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if (!sf && (N || immr.Bit<5>() || imms.Bit<5>())) return ReservedValue();
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u8 R = immr.ZeroExtend<u8>();
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auto masks = DecodeBitMasks(N, imms, immr, false);
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if (!masks) return ReservedValue();
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auto src = X(datasize, Rn);
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auto bot = ir.And(ir.RotateRight(src, ir.Imm8(R)), I(datasize, masks->wmask));
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X(datasize, Rd, ir.And(bot, I(datasize, masks->tmask)));
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return true;
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}
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} // namespace A64
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} // namespace Dynarmic
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@ -10,7 +10,6 @@ namespace Dynarmic {
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namespace A64 {
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bool TranslatorVisitor::SVC(Imm<16> imm16) {
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printf("translator %x\n", imm16.ZeroExtend());
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// ir.PushRSB(ir.current_location.AdvancePC(4)); // TODO
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ir.SetPC(ir.Imm64(ir.current_location.PC() + 4));
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ir.CallSupervisor(imm16.ZeroExtend());
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@ -115,7 +115,7 @@ restart:
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if (!should_continue)
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goto restart;
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for (const auto& ir_inst : block)
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if (ir_inst.CausesCPUException() || ir_inst.IsMemoryWrite() || ir_inst.GetOpcode() == IR::Opcode::A64ExceptionRaised)
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if (ir_inst.IsMemoryWrite() || ir_inst.GetOpcode() == IR::Opcode::A64ExceptionRaised || ir_inst.GetOpcode() == IR::Opcode::A64CallSupervisor)
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goto restart;
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return instruction;
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@ -155,13 +155,15 @@ static void TestInstance(const std::array<u64, 31>& regs, const std::vector<u32>
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}
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TEST_CASE("A64: Single random instruction", "[a64]") {
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for (size_t iteration = 0; iteration < 10000; ++iteration) {
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for (size_t iteration = 0; iteration < 100000; ++iteration) {
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std::array<u64, 31> regs;
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std::generate_n(regs.begin(), 31, []{ return RandInt<u64>(0, ~u64(0)); });
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std::vector<u32> instructions;
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instructions.push_back(GenRandomInst(0));
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u32 pstate = RandInt<u32>(0, 0xF) << 28;
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// printf("%08x\n", instructions[0]);
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TestInstance(regs, instructions, pstate);
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}
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}
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