#include "stdafx.h" #include "Emu/System.h" #include "Emu/Memory/Memory.h" #include "Emu/CPU/CPUDecoder.h" #include "ARMv7Thread.h" #include "PSVFuncList.h" #include "ARMv7Interpreter.h" void ARMv7Interpreter::UNK(const u32 data) { LOG_ERROR(HLE, "Unknown/illegal opcode! (0x%04x : 0x%04x)", data >> 16, data & 0xffff); Emu.Pause(); } void ARMv7Interpreter::NULL_OP(const u32 data, const ARMv7_encoding type) { LOG_ERROR(HLE, "Null opcode found"); Emu.Pause(); } void ARMv7Interpreter::HACK(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 code = 0; switch (type) { case T1: { code = data & 0xffff; break; } case A1: { cond = data >> 28; code = (data & 0xfff00) >> 4 | (data & 0xf); break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { execute_psv_func_by_index(CPU, code); } } void ARMv7Interpreter::ADC_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADC_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADC_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADD_IMM(const u32 data, const ARMv7_encoding type) { bool set_flags = !CPU.ITSTATE; u32 cond = CPU.ITSTATE.advance(); u32 d = 0; u32 n = 0; u32 imm32 = 0; switch (type) { case T1: { d = (data & 0x7); n = (data & 0x38) >> 3; imm32 = (data & 0x1c0) >> 6; break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { if (set_flags) { bool carry, overflow; u32 res = AddWithCarry(CPU.read_gpr(n), imm32, false, carry, overflow); CPU.write_gpr(d, res); CPU.APSR.N = res >> 31; CPU.APSR.Z = res == 0; CPU.APSR.C = carry; CPU.APSR.V = overflow; } else { CPU.write_gpr(d, CPU.read_gpr(n) + imm32); } } } void ARMv7Interpreter::ADD_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADD_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADD_SPI(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADD_SPR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ADR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::AND_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::AND_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::AND_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ASR_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ASR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::B(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 jump = 0; // jump = instr_size + imm32 ??? switch (type) { case T1: { cond = (data >> 8) & 0xf; if (cond == 0xf) { throw "SVC"; } jump = 4 + sign<9, u32>((data & 0xff) << 1); break; } case T2: { jump = 4 + sign<12, u32>((data & 0x7ff) << 1); break; } case T3: { cond = (data >> 6) & 0xf; if (cond >= 0xe) { throw "B_T3: Related encodings"; } u32 s = (data >> 26) & 0x1; u32 j1 = (data >> 13) & 0x1; u32 j2 = (data >> 11) & 0x1; jump = 4 + sign<21, u32>(s << 20 | j2 << 19 | j1 << 18 | (data & 0x3f0000) >> 4 | (data & 0x7ff) << 1); break; } case T4: { u32 s = (data >> 26) & 0x1; u32 i1 = (data >> 13) & 0x1 ^ s ^ 1; u32 i2 = (data >> 11) & 0x1 ^ s ^ 1; jump = 4 + sign<25, u32>(s << 24 | i2 << 23 | i1 << 22 | (data & 0x3ff0000) >> 4 | (data & 0x7ff) << 1); break; } case A1: { cond = data >> 28; jump = 1 + 4 + sign<26, u32>((data & 0xffffff) << 2); break; } } if (ConditionPassed(cond)) { CPU.SetBranch(CPU.PC + jump); } } void ARMv7Interpreter::BFC(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::BFI(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::BIC_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::BIC_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::BIC_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::BKPT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::BL(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 newLR = CPU.PC; u32 imm32 = 0; switch (type) { case T1: { u32 s = (data >> 26) & 0x1; u32 i1 = (data >> 13) & 0x1 ^ s ^ 1; u32 i2 = (data >> 11) & 0x1 ^ s ^ 1; imm32 = 4 + sign<25, u32>(s << 24 | i2 << 23 | i1 << 22 | (data & 0x3ff0000) >> 4 | (data & 0x7ff) << 1); newLR = (CPU.PC + 4) | 1; break; } case A1: { cond = data >> 28; imm32 = 4 + sign<26, u32>((data & 0xffffff) << 2); newLR = (CPU.PC + 4) - 4; break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { CPU.LR = newLR; CPU.SetBranch(CPU.PC + imm32); } } void ARMv7Interpreter::BLX(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 newLR = CPU.PC; u32 target = 0; switch (type) { case T1: { target = CPU.read_gpr((data >> 3) & 0xf); newLR = (CPU.PC + 2) | 1; // ??? break; } case T2: { u32 s = (data >> 26) & 0x1; u32 i1 = (data >> 13) & 0x1 ^ s ^ 1; u32 i2 = (data >> 11) & 0x1 ^ s ^ 1; target = (CPU.PC + 4 & ~3) + sign<25, u32>(s << 24 | i2 << 23 | i1 << 22 | (data & 0x3ff0000) >> 4 | (data & 0x7ff) << 1); newLR = (CPU.PC + 4) | 1; break; } case A1: { cond = data >> 28; target = CPU.read_gpr(data & 0xf); newLR = (CPU.PC + 4) - 4; break; } case A2: { target = (CPU.PC + 4 | 1) + sign<25, u32>((data & 0xffffff) << 2 | (data & 0x1000000) >> 23); newLR = (CPU.PC + 4) - 4; break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { CPU.LR = newLR; if (target & 1) { CPU.ISET = Thumb; CPU.SetBranch(target & ~1); } else { CPU.ISET = ARM; CPU.SetBranch(target); } } } void ARMv7Interpreter::BX(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 target = 0; switch (type) { case T1: { target = CPU.read_gpr((data >> 3) & 0xf); break; } case A1: { cond = data >> 28; target = CPU.read_gpr(data & 0xf); } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { if (target & 1) { CPU.ISET = Thumb; CPU.SetBranch(target & ~1); } else { CPU.ISET = ARM; CPU.SetBranch(target); } } } void ARMv7Interpreter::CB_Z(const u32 data, const ARMv7_encoding type) { switch (type) { case T1: break; default: throw __FUNCTION__; } if ((CPU.read_gpr(data & 0x7) == 0) ^ ((data & 0x800) != 0)) { CPU.SetBranch(CPU.PC + 2 + ((data & 0xf8) >> 2) + ((data & 0x200) >> 3)); } } void ARMv7Interpreter::CLZ(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::CMN_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::CMN_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::CMN_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::CMP_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::CMP_REG(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 n = 0; u32 m = 0; auto shift_t = SRType_LSL; u32 shift_n = 0; switch (type) { case T1: { n = (data & 0x7); m = (data & 0x38) >> 3; break; } case T2: { n = (data & 0x80) >> 4 | (data & 0x7); m = (data & 0x78) >> 3; break; } case T3: { n = (data & 0xf0000) >> 16; m = (data & 0xf); shift_t = DecodeImmShift((data & 0x30) >> 4, (data & 0x7000) >> 10 | (data & 0xc0) >> 6, &shift_n); break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { bool carry, overflow; const u32 shifted = Shift(CPU.read_gpr(m), shift_t, shift_n, true); const u32 res = AddWithCarry(CPU.read_gpr(n), ~shifted, true, carry, overflow); CPU.APSR.N = res >> 31; CPU.APSR.Z = res == 0; CPU.APSR.C = carry; CPU.APSR.V = overflow; } } void ARMv7Interpreter::CMP_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::EOR_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::EOR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::EOR_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::IT(const u32 data, const ARMv7_encoding type) { switch (type) { case T1: { if ((data & 0xf) == 0) { throw "IT_T1: Related encodings"; } CPU.ITSTATE.IT = data & 0xff; return; } default: throw __FUNCTION__; } } void ARMv7Interpreter::LDM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDMDA(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDMDB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDMIB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDR_IMM(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 t = 0; u32 n = 13; u32 imm32 = 0; bool index = true; bool add = true; bool wback = false; switch (type) { case T1: { t = (data & 0x7); n = (data & 0x38) >> 3; imm32 = (data & 0x7c0) >> 4; break; } case T2: { t = (data & 0x700) >> 8; imm32 = (data & 0xff) << 2; break; } case T3: { t = (data & 0xf000) >> 12; n = (data & 0xf0000) >> 16; imm32 = (data & 0xfff); if (n == 15) { throw "LDR (literal)"; } break; } case T4: { t = (data & 0xf000) >> 12; n = (data & 0xf0000) >> 16; imm32 = (data & 0xff); index = (data & 0x400); add = (data & 0x200); wback = (data & 0x100); if (n == 15) { throw "LDR (literal)"; } if (index && add && !wback) { throw "LDRT"; } if (n == 13 && !index && add && wback && imm32 == 4) { throw "POP"; } if (!index && !wback) { throw "LDR_IMM_T4: undefined"; } break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { const u32 offset_addr = add ? CPU.read_gpr(n) + imm32 : CPU.read_gpr(n) - imm32; const u32 addr = index ? offset_addr : CPU.read_gpr(n); if (wback) { CPU.write_gpr(n, offset_addr); } CPU.write_gpr(t, vm::psv::read32(addr)); } } void ARMv7Interpreter::LDR_LIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRB_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRB_LIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRB_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRD_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRD_LIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRD_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRH_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRH_LIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRH_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRSB_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRSB_LIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRSB_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRSH_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRSH_LIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LDRSH_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LSL_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LSL_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LSR_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::LSR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MLA(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MLS(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MOV_IMM(const u32 data, const ARMv7_encoding type) { bool set_flags = !CPU.ITSTATE; bool carry = CPU.APSR.C; u32 cond = CPU.ITSTATE.advance(); u32 d = 0; u32 imm32 = 0; switch (type) { case T1: { d = (data >> 8) & 0x7; imm32 = sign<8, u32>(data & 0xff); break; } case T2: { set_flags = data & 0x100000; d = (data >> 8) & 0xf; imm32 = ThumbExpandImm_C((data & 0x4000000) >> 15 | (data & 0x7000) >> 4 | (data & 0xff), carry, carry); break; } case T3: { set_flags = false; d = (data >> 8) & 0xf; imm32 = (data & 0xf0000) >> 4 | (data & 0x4000000) >> 15 | (data & 0x7000) >> 4 | (data & 0xff); break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { CPU.write_gpr(d, imm32); if (set_flags) { CPU.APSR.N = imm32 >> 31; CPU.APSR.Z = imm32 == 0; CPU.APSR.C = carry; } } } void ARMv7Interpreter::MOV_REG(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 d = 0; u32 m = 0; bool set_flags = false; switch (type) { case T1: { d = (data & 0x80) >> 4 | (data & 0x7); m = (data & 0x78) >> 3; break; } case T2: { d = (data & 0x7); m = (data & 0x38) >> 3; set_flags = true; break; } case T3: { d = (data & 0xf00) >> 8; m = (data & 0xf); set_flags = (data & 0x100000); break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { u32 res = CPU.read_gpr(m); CPU.write_gpr(d, res); if (set_flags) { CPU.APSR.N = res >> 31; CPU.APSR.Z = res == 0; //CPU.APSR.C = ? } } } void ARMv7Interpreter::MOVT(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 d = 0; u32 imm16 = 0; switch (type) { case T1: { d = (data & 0xf00) >> 8; imm16 = (data & 0xf0000) >> 4 | (data & 0x4000000) >> 14 | (data & 0x7000) >> 4 | (data & 0xff); break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { CPU.write_gpr(d, (CPU.read_gpr(d) & 0xffff) | (imm16 << 16)); } } void ARMv7Interpreter::MRS(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MSR_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MSR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MUL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MVN_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MVN_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::MVN_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::NOP(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); switch (type) { case T1: { break; } case T2: { break; } case A1: { cond = data >> 28; break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { } } void ARMv7Interpreter::ORN_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ORN_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ORR_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ORR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ORR_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::PKH(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::POP(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u16 reg_list = 0; switch (type) { case T1: { reg_list = ((data & 0x100) << 7) | (data & 0xff); break; } case T2: { reg_list = data & 0xdfff; break; } case T3: { reg_list = 1 << (data >> 12); break; } case A1: { cond = data >> 28; reg_list = data & 0xffff; if (BitCount(reg_list) < 2) { throw "LDM / LDMIA / LDMFD"; } break; } case A2: { cond = data >> 28; reg_list = 1 << ((data >> 12) & 0xf); break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { for (u16 mask = 1, i = 0; mask; mask <<= 1, i++) { if (reg_list & mask) { CPU.write_gpr(i, vm::psv::read32(CPU.SP)); CPU.SP += 4; } } } } void ARMv7Interpreter::PUSH(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u16 reg_list = 0; switch (type) { case T1: { reg_list = ((data & 0x100) << 6) | (data & 0xff); break; } case T2: { reg_list = data & 0x5fff; break; } case T3: { reg_list = 1 << (data >> 12); break; } case A1: { cond = data >> 28; reg_list = data & 0xffff; if (BitCount(reg_list) < 2) { throw "STMDB / STMFD"; } break; } case A2: { cond = data >> 28; reg_list = 1 << ((data >> 12) & 0xf); break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { for (u16 mask = 1 << 15, i = 15; mask; mask >>= 1, i--) { if (reg_list & mask) { CPU.SP -= 4; vm::psv::write32(CPU.SP, CPU.read_gpr(i)); } } } } void ARMv7Interpreter::QADD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QADD16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QADD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QASX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QDADD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QDSUB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QSAX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QSUB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QSUB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::QSUB8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RBIT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::REV(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::REV16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::REVSH(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ROR_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::ROR_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RRX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RSB_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RSB_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RSB_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RSC_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RSC_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::RSC_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SADD16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SADD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SASX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SBC_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SBC_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SBC_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SBFX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SDIV(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SEL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SHADD16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SHADD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SHASX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SHSAX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SHSUB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SHSUB8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLA__(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLAD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLAL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLAL__(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLALD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLAW_(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLSD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMLSLD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMMLA(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMMLS(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMMUL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMUAD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMUL__(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMULL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMULW_(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SMUSD(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SSAT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SSAT16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SSAX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SSUB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SSUB8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STMDA(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STMDB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STMIB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STR_IMM(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 t = 16; u32 n = 13; u32 imm32 = 0; bool index = true; bool add = true; bool wback = false; switch (type) { case T1: { t = (data & 0x7); n = (data & 0x38) >> 3; imm32 = (data & 0x7c0) >> 4; break; } case T2: { t = (data & 0x700) >> 8; imm32 = (data & 0xff) << 2; break; } case T3: { t = (data & 0xf000) >> 12; n = (data & 0xf0000) >> 16; imm32 = (data & 0xfff); if (n == 0xf) { throw "STR_IMM_T3: undefined"; } break; } case T4: { t = (data & 0xf000) >> 12; n = (data & 0xf0000) >> 16; imm32 = (data & 0xff); index = (data & 0x400); add = (data & 0x200); wback = (data & 0x100); if (index && add && !wback) { throw "STRT"; } if (n == 13 && index && !add && wback && imm32 == 4) { throw "PUSH"; } if (n == 15 || (!index && !wback)) { throw "STR_IMM_T4: undefined"; } break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { const u32 offset_addr = add ? CPU.read_gpr(n) + imm32 : CPU.read_gpr(n) - imm32; const u32 addr = index ? offset_addr : CPU.read_gpr(n); vm::psv::write32(addr, CPU.read_gpr(t)); if (wback) { CPU.write_gpr(n, offset_addr); } } } void ARMv7Interpreter::STR_REG(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 t = 0; u32 n = 0; u32 m = 0; bool index = true; bool add = true; bool wback = false; auto shift_t = SRType_LSL; u32 shift_n = 0; switch (type) { case T1: { t = (data & 0x7); n = (data & 0x38) >> 3; m = (data & 0x1c0) >> 6; break; } case T2: { t = (data & 0xf000) >> 12; n = (data & 0xf0000) >> 16; m = (data & 0xf); shift_n = (data & 0x30) >> 4; if (n == 15) { throw "STR_REG_T2: undefined"; } break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { const u32 offset = Shift(CPU.read_gpr(m), shift_t, shift_n, CPU.APSR.C); const u32 offset_addr = add ? CPU.read_gpr(n) + offset : CPU.read_gpr(n) - offset; const u32 addr = index ? offset_addr : CPU.read_gpr(n); vm::psv::write32(addr, CPU.read_gpr(t)); if (wback) { CPU.write_gpr(n, offset_addr); } } } void ARMv7Interpreter::STRB_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STRB_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STRD_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STRD_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STRH_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::STRH_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SUB_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SUB_REG(const u32 data, const ARMv7_encoding type) { bool set_flags = !CPU.ITSTATE; u32 cond = CPU.ITSTATE.advance(); u32 d = 0; u32 n = 0; u32 m = 0; auto shift_t = SRType_LSL; u32 shift_n = 0; switch (type) { case T1: { d = (data & 0x7); n = (data & 0x38) >> 3; m = (data & 0x1c0) >> 6; break; } case T2: { d = (data & 0xf00) >> 8; n = (data & 0xf0000) >> 16; m = (data & 0xf); set_flags = (data & 0x100000); shift_t = DecodeImmShift((data & 0x30) >> 4, (data & 0x7000) >> 10 | (data & 0xc0) >> 6, &shift_n); if (d == 15 && set_flags) { throw "CMP (register)"; } if (n == 13) { throw "SUB (SP minus register)"; } break; } case A1: throw __FUNCTION__; default: throw __FUNCTION__; } if (ConditionPassed(cond)) { u32 shifted = Shift(CPU.read_gpr(m), shift_t, shift_n, CPU.APSR.C); if (set_flags) { bool carry, overflow; u32 res = AddWithCarry(CPU.read_gpr(n), ~shifted, true, carry, overflow); CPU.write_gpr(d, res); CPU.APSR.N = res >> 31; CPU.APSR.Z = res == 0; CPU.APSR.C = carry; CPU.APSR.V = overflow; } else { CPU.write_gpr(d, CPU.read_gpr(n) - shifted); } } } void ARMv7Interpreter::SUB_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SUB_SPI(const u32 data, const ARMv7_encoding type) { u32 cond = CPU.ITSTATE.advance(); u32 d = 13; u32 imm32 = 0; bool set_flags = false; switch (type) { case T1: { imm32 = (data & 0x7f) << 2; break; } default: throw __FUNCTION__; } if (ConditionPassed(cond)) { if (set_flags) { bool carry, overflow; u32 res = AddWithCarry(CPU.SP, ~imm32, true, carry, overflow); CPU.write_gpr(d, res); CPU.APSR.N = res >> 31; CPU.APSR.Z = res == 0; CPU.APSR.C = carry; CPU.APSR.V = overflow; } else { CPU.write_gpr(d, CPU.SP - imm32); } } } void ARMv7Interpreter::SUB_SPR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SVC(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SXTAB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SXTAB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SXTAH(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SXTB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SXTB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::SXTH(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TB_(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TEQ_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TEQ_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TEQ_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TST_IMM(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TST_REG(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::TST_RSR(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UADD16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UADD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UASX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UBFX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UDIV(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UHADD16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UHADD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UHASX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UHSAX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UHSUB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UHSUB8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UMAAL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UMLAL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UMULL(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UQADD16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UQADD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UQASX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UQSAX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UQSUB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UQSUB8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USAD8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USADA8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USAT(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USAT16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USAX(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USUB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::USUB8(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UXTAB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UXTAB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UXTAH(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UXTB(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UXTB16(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } } void ARMv7Interpreter::UXTH(const u32 data, const ARMv7_encoding type) { switch (type) { case A1: throw __FUNCTION__; default: throw __FUNCTION__; } }