/* Copyright 2016-2022 melonDS team This file is part of melonDS. melonDS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. melonDS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with melonDS. If not, see http://www.gnu.org/licenses/. */ #include #include "ARM.h" namespace ARMInterpreter { void A_B(ARM* cpu) { s32 offset = (s32)(cpu->CurInstr << 8) >> 6; cpu->JumpTo(cpu->R[15] + offset); } void A_BL(ARM* cpu) { s32 offset = (s32)(cpu->CurInstr << 8) >> 6; cpu->R[14] = cpu->R[15] - 4; cpu->JumpTo(cpu->R[15] + offset); } void A_BLX_IMM(ARM* cpu) { s32 offset = (s32)(cpu->CurInstr << 8) >> 6; if (cpu->CurInstr & 0x01000000) offset += 2; cpu->R[14] = cpu->R[15] - 4; cpu->JumpTo(cpu->R[15] + offset + 1); } void A_BX(ARM* cpu) { cpu->JumpTo(cpu->R[cpu->CurInstr & 0xF]); } void A_BLX_REG(ARM* cpu) { u32 lr = cpu->R[15] - 4; cpu->JumpTo(cpu->R[cpu->CurInstr & 0xF]); cpu->R[14] = lr; } void T_BCOND(ARM* cpu) { if (cpu->CheckCondition((cpu->CurInstr >> 8) & 0xF)) { s32 offset = (s32)(cpu->CurInstr << 24) >> 23; cpu->JumpTo(cpu->R[15] + offset + 1); } else cpu->AddCycles_C(); } void T_BX(ARM* cpu) { cpu->JumpTo(cpu->R[(cpu->CurInstr >> 3) & 0xF]); } void T_BLX_REG(ARM* cpu) { if (cpu->Num==1) { printf("!! THUMB BLX_REG ON ARM7\n"); return; } u32 lr = cpu->R[15] - 1; cpu->JumpTo(cpu->R[(cpu->CurInstr >> 3) & 0xF]); cpu->R[14] = lr; } void T_B(ARM* cpu) { s32 offset = (s32)((cpu->CurInstr & 0x7FF) << 21) >> 20; cpu->JumpTo(cpu->R[15] + offset + 1); } void T_BL_LONG_1(ARM* cpu) { s32 offset = (s32)((cpu->CurInstr & 0x7FF) << 21) >> 9; cpu->R[14] = cpu->R[15] + offset; cpu->AddCycles_C(); } void T_BL_LONG_2(ARM* cpu) { s32 offset = (cpu->CurInstr & 0x7FF) << 1; u32 pc = cpu->R[14] + offset; cpu->R[14] = (cpu->R[15] - 2) | 1; if ((cpu->Num==1) || (cpu->CurInstr & (1<<12))) pc |= 1; cpu->JumpTo(pc); } }