#include "CPU.h" #include "Interpreter CPU.h" #include "RSP Command.h" #include "RSP Registers.h" #include "Rsp.h" #include "cpu/RspTypes.h" #include "dma.h" #include "log.h" #include "memory.h" #include "x86.h" #include "cpu/RSPInstruction.h" #include #include #include #include // TODO: Is this still an issue? If so, investigate, and if not, remove this! /* * Unfortunately, GCC 4.8.2 stable still has a bug with their that * includes a different copy of from a different directory. * * Until that bug is fixed, the below macro definitions can be forced. * * It also is possible to emulate the RSP divide op-codes using a hardware- * accurate LUT instead of any floating-point functions, so that works, too. */ #ifndef _MCW_RC #define _MCW_RC 0x00000300 #endif #ifndef _RC_CHOP #define _RC_CHOP 0x00000300 #endif extern UWORD32 Recp, RecpResult, SQroot, SQrootResult; extern bool AudioHle, GraphicsHle; // Opcode functions void RSP_Opcode_SPECIAL(void) { RSP_Special[RSPOpC.funct](); } void RSP_Opcode_REGIMM(void) { RSP_RegImm[RSPOpC.rt](); } void RSP_Opcode_J(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = (RSPOpC.target << 2) & 0xFFC; } void RSP_Opcode_JAL(void) { RSP_NextInstruction = DELAY_SLOT; RSP_GPR[31].UW = (*PrgCount + 8) & 0xFFC; RSP_JumpTo = (RSPOpC.target << 2) & 0xFFC; } void RSP_Opcode_BEQ(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W == RSP_GPR[RSPOpC.rt].W); } void RSP_Opcode_BNE(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W != RSP_GPR[RSPOpC.rt].W); } void RSP_Opcode_BLEZ(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W <= 0); } void RSP_Opcode_BGTZ(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W > 0); } void RSP_Opcode_ADDI(void) { RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rs].W + (int16_t)RSPOpC.immediate; } void RSP_Opcode_ADDIU(void) { RSP_GPR[RSPOpC.rt].UW = RSP_GPR[RSPOpC.rs].UW + (uint32_t)((int16_t)RSPOpC.immediate); } void RSP_Opcode_SLTI(void) { RSP_GPR[RSPOpC.rt].W = (RSP_GPR[RSPOpC.rs].W < (int16_t)RSPOpC.immediate) ? 1 : 0; } void RSP_Opcode_SLTIU(void) { RSP_GPR[RSPOpC.rt].W = (RSP_GPR[RSPOpC.rs].UW < (uint32_t)(int16_t)RSPOpC.immediate) ? 1 : 0; } void RSP_Opcode_ANDI(void) { RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rs].W & RSPOpC.immediate; } void RSP_Opcode_ORI(void) { RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rs].W | RSPOpC.immediate; } void RSP_Opcode_XORI(void) { RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rs].W ^ RSPOpC.immediate; } void RSP_Opcode_LUI(void) { RSP_GPR[RSPOpC.rt].W = RSPOpC.immediate << 16; } void RSP_Opcode_COP0(void) { RSP_Cop0[RSPOpC.rs](); } void RSP_Opcode_COP2(void) { RSP_Cop2[RSPOpC.rs](); } void RSP_Opcode_LB(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_LB_DMEM(Address, &RSP_GPR[RSPOpC.rt].UB[0]); RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rt].B[0]; } void RSP_Opcode_LH(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_LH_DMEM(Address, &RSP_GPR[RSPOpC.rt].UHW[0]); RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rt].HW[0]; } void RSP_Opcode_LW(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_LW_DMEM(Address, &RSP_GPR[RSPOpC.rt].UW); } void RSP_Opcode_LBU(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_LB_DMEM(Address, &RSP_GPR[RSPOpC.rt].UB[0]); RSP_GPR[RSPOpC.rt].UW = RSP_GPR[RSPOpC.rt].UB[0]; } void RSP_Opcode_LHU(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_LH_DMEM(Address, &RSP_GPR[RSPOpC.rt].UHW[0]); RSP_GPR[RSPOpC.rt].UW = RSP_GPR[RSPOpC.rt].UHW[0]; } void RSP_Opcode_SB(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_SB_DMEM(Address, RSP_GPR[RSPOpC.rt].UB[0]); } void RSP_Opcode_SH(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_SH_DMEM(Address, RSP_GPR[RSPOpC.rt].UHW[0]); } void RSP_Opcode_SW(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (short)RSPOpC.offset) & 0xFFF; RSP_SW_DMEM(Address, RSP_GPR[RSPOpC.rt].UW); } void RSP_Opcode_LC2(void) { RSP_Lc2[RSPOpC.rd](); } void RSP_Opcode_SC2(void) { RSP_Sc2[RSPOpC.rd](); } // R4300i Opcodes: Special void RSP_Special_SLL(void) { RSP_GPR[RSPOpC.rd].W = RSP_GPR[RSPOpC.rt].W << RSPOpC.sa; } void RSP_Special_SRL(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rt].UW >> RSPOpC.sa; } void RSP_Special_SRA(void) { RSP_GPR[RSPOpC.rd].W = RSP_GPR[RSPOpC.rt].W >> RSPOpC.sa; } void RSP_Special_SLLV(void) { RSP_GPR[RSPOpC.rd].W = RSP_GPR[RSPOpC.rt].W << (RSP_GPR[RSPOpC.rs].W & 0x1F); } void RSP_Special_SRLV(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rt].UW >> (RSP_GPR[RSPOpC.rs].W & 0x1F); } void RSP_Special_SRAV(void) { RSP_GPR[RSPOpC.rd].W = RSP_GPR[RSPOpC.rt].W >> (RSP_GPR[RSPOpC.rs].W & 0x1F); } void RSP_Special_JR(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = (RSP_GPR[RSPOpC.rs].W & 0xFFC); } void RSP_Special_JALR(void) { RSP_NextInstruction = DELAY_SLOT; RSP_GPR[RSPOpC.rd].W = (*PrgCount + 8) & 0xFFC; RSP_JumpTo = (RSP_GPR[RSPOpC.rs].W & 0xFFC); } void RSP_Special_BREAK(void) { RSP_Running = false; *RSPInfo.SP_STATUS_REG |= (SP_STATUS_HALT | SP_STATUS_BROKE); if ((*RSPInfo.SP_STATUS_REG & SP_STATUS_INTR_BREAK) != 0) { *RSPInfo.MI_INTR_REG |= R4300i_SP_Intr; RSPInfo.CheckInterrupts(); } } void RSP_Special_ADD(void) { RSP_GPR[RSPOpC.rd].W = RSP_GPR[RSPOpC.rs].W + RSP_GPR[RSPOpC.rt].W; } void RSP_Special_ADDU(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rs].UW + RSP_GPR[RSPOpC.rt].UW; } void RSP_Special_SUB(void) { RSP_GPR[RSPOpC.rd].W = RSP_GPR[RSPOpC.rs].W - RSP_GPR[RSPOpC.rt].W; } void RSP_Special_SUBU(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rs].UW - RSP_GPR[RSPOpC.rt].UW; } void RSP_Special_AND(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rs].UW & RSP_GPR[RSPOpC.rt].UW; } void RSP_Special_OR(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rs].UW | RSP_GPR[RSPOpC.rt].UW; } void RSP_Special_XOR(void) { RSP_GPR[RSPOpC.rd].UW = RSP_GPR[RSPOpC.rs].UW ^ RSP_GPR[RSPOpC.rt].UW; } void RSP_Special_NOR(void) { RSP_GPR[RSPOpC.rd].UW = ~(RSP_GPR[RSPOpC.rs].UW | RSP_GPR[RSPOpC.rt].UW); } void RSP_Special_SLT(void) { RSP_GPR[RSPOpC.rd].UW = (RSP_GPR[RSPOpC.rs].W < RSP_GPR[RSPOpC.rt].W) ? 1 : 0; } void RSP_Special_SLTU(void) { RSP_GPR[RSPOpC.rd].UW = (RSP_GPR[RSPOpC.rs].UW < RSP_GPR[RSPOpC.rt].UW) ? 1 : 0; } // R4300i Opcodes: RegImm void RSP_Opcode_BLTZ(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W < 0); } void RSP_Opcode_BGEZ(void) { RSP_NextInstruction = DELAY_SLOT; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W >= 0); } void RSP_Opcode_BLTZAL(void) { RSP_NextInstruction = DELAY_SLOT; RSP_GPR[31].UW = (*PrgCount + 8) & 0xFFC; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W < 0); } void RSP_Opcode_BGEZAL(void) { RSP_NextInstruction = DELAY_SLOT; RSP_GPR[31].UW = (*PrgCount + 8) & 0xFFC; RSP_JumpTo = RSP_branch_if(RSP_GPR[RSPOpC.rs].W >= 0); } // COP0 functions void RSP_Cop0_MF(void) { if (LogRDP && CPUCore == InterpreterCPU) { RDP_LogMF0(*PrgCount, RSPOpC.rd); } switch (RSPOpC.rd) { case 0: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.SP_MEM_ADDR_REG; break; case 1: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.SP_DRAM_ADDR_REG; break; case 4: RSP_MfStatusCount += 1; RSP_GPR[RSPOpC.rt].UW = *RSPInfo.SP_STATUS_REG; if (Mfc0Count != 0 && RSP_MfStatusCount > Mfc0Count) { RSP_Running = false; } break; case 5: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.SP_DMA_FULL_REG; break; case 6: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.SP_DMA_BUSY_REG; break; case 7: if (AudioHle || GraphicsHle || SemaphoreExit == 0) { RSP_GPR[RSPOpC.rt].W = 0; } else { RSP_GPR[RSPOpC.rt].W = *RSPInfo.SP_SEMAPHORE_REG; *RSPInfo.SP_SEMAPHORE_REG = 1; RSP_Running = false; } break; case 8: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.DPC_START_REG; break; case 9: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.DPC_END_REG; break; case 10: RSP_GPR[RSPOpC.rt].UW = *RSPInfo.DPC_CURRENT_REG; break; case 11: RSP_GPR[RSPOpC.rt].W = *RSPInfo.DPC_STATUS_REG; break; case 12: RSP_GPR[RSPOpC.rt].W = *RSPInfo.DPC_CLOCK_REG; break; default: DisplayError("We have not implemented RSP MF CP0 reg %s (%d)", COP0_Name(RSPOpC.rd), RSPOpC.rd); } } void RSP_Cop0_MT(void) { if (LogRDP && CPUCore == InterpreterCPU) { RDP_LogMT0(*PrgCount, RSPOpC.rd, RSP_GPR[RSPOpC.rt].UW); } switch (RSPOpC.rd) { case 0: *RSPInfo.SP_MEM_ADDR_REG = RSP_GPR[RSPOpC.rt].UW; break; case 1: *RSPInfo.SP_DRAM_ADDR_REG = RSP_GPR[RSPOpC.rt].UW; break; case 2: *RSPInfo.SP_RD_LEN_REG = RSP_GPR[RSPOpC.rt].UW; SP_DMA_READ(); break; case 3: *RSPInfo.SP_WR_LEN_REG = RSP_GPR[RSPOpC.rt].UW; SP_DMA_WRITE(); break; case 4: if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_HALT) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_HALT; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_HALT) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_HALT; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_BROKE) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_BROKE; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_INTR) != 0) { *RSPInfo.MI_INTR_REG &= ~R4300i_SP_Intr; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_INTR) != 0) { *RSPInfo.MI_INTR_REG |= R4300i_SP_Intr; RSPInfo.CheckInterrupts(); RSP_Running = false; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SSTEP) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SSTEP; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SSTEP) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SSTEP; RSP_NextInstruction = SINGLE_STEP; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_INTR_BREAK) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_INTR_BREAK; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_INTR_BREAK) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_INTR_BREAK; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG0) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG0; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG0) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG0; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG1) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG1; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG1) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG1; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG2) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG2; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG2) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG2; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG3) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG3; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG3) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG3; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG4) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG4; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG4) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG4; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG5) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG5; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG5) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG5; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG6) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG6; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG6) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG6; } if ((RSP_GPR[RSPOpC.rt].W & SP_CLR_SIG7) != 0) { *RSPInfo.SP_STATUS_REG &= ~SP_STATUS_SIG7; } if ((RSP_GPR[RSPOpC.rt].W & SP_SET_SIG7) != 0) { *RSPInfo.SP_STATUS_REG |= SP_STATUS_SIG7; } break; case 7: *RSPInfo.SP_SEMAPHORE_REG = 0; break; case 8: *RSPInfo.DPC_START_REG = RSP_GPR[RSPOpC.rt].UW; *RSPInfo.DPC_CURRENT_REG = RSP_GPR[RSPOpC.rt].UW; break; case 9: *RSPInfo.DPC_END_REG = RSP_GPR[RSPOpC.rt].UW; RDP_LogDlist(); if (RSPInfo.ProcessRdpList != NULL) { RSPInfo.ProcessRdpList(); } break; case 10: *RSPInfo.DPC_CURRENT_REG = RSP_GPR[RSPOpC.rt].UW; break; case 11: if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_XBUS_DMEM_DMA) != 0) { *RSPInfo.DPC_STATUS_REG &= ~DPC_STATUS_XBUS_DMEM_DMA; } if ((RSP_GPR[RSPOpC.rt].W & DPC_SET_XBUS_DMEM_DMA) != 0) { *RSPInfo.DPC_STATUS_REG |= DPC_STATUS_XBUS_DMEM_DMA; } if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_FREEZE) != 0) { *RSPInfo.DPC_STATUS_REG &= ~DPC_STATUS_FREEZE; } if ((RSP_GPR[RSPOpC.rt].W & DPC_SET_FREEZE) != 0) { *RSPInfo.DPC_STATUS_REG |= DPC_STATUS_FREEZE; } if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_FLUSH) != 0) { *RSPInfo.DPC_STATUS_REG &= ~DPC_STATUS_FLUSH; } if ((RSP_GPR[RSPOpC.rt].W & DPC_SET_FLUSH) != 0) { *RSPInfo.DPC_STATUS_REG |= DPC_STATUS_FLUSH; } if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_TMEM_CTR) != 0) { /* DisplayError("RSP: DPC_STATUS_REG: DPC_CLR_TMEM_CTR"); */ } if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_PIPE_CTR) != 0) { DisplayError("RSP: DPC_STATUS_REG: DPC_CLR_PIPE_CTR"); } if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_CMD_CTR) != 0) { DisplayError("RSP: DPC_STATUS_REG: DPC_CLR_CMD_CTR"); } if ((RSP_GPR[RSPOpC.rt].W & DPC_CLR_CLOCK_CTR) != 0) { /* DisplayError("RSP: DPC_STATUS_REG: DPC_CLR_CLOCK_CTR"); */ } break; default: DisplayError("We have not implemented RSP MT CP0 reg %s (%d)", COP0_Name(RSPOpC.rd), RSPOpC.rd); } } // COP2 functions void RSP_Cop2_MF(void) { uint8_t element = (uint8_t)(RSPOpC.sa >> 1); RSP_GPR[RSPOpC.rt].B[1] = RSP_Vect[RSPOpC.vs].s8(15 - element); RSP_GPR[RSPOpC.rt].B[0] = RSP_Vect[RSPOpC.vs].s8(15 - ((element + 1) % 16)); RSP_GPR[RSPOpC.rt].W = RSP_GPR[RSPOpC.rt].HW[0]; } void RSP_Cop2_CF(void) { switch ((RSPOpC.rd & 0x03)) { case 0: RSP_GPR[RSPOpC.rt].W = RSP_Flags[0].HW[0]; break; case 1: RSP_GPR[RSPOpC.rt].W = RSP_Flags[1].HW[0]; break; case 2: RSP_GPR[RSPOpC.rt].W = RSP_Flags[2].HW[0]; break; case 3: RSP_GPR[RSPOpC.rt].W = RSP_Flags[2].HW[0]; break; } } void RSP_Cop2_MT(void) { uint8_t element = (uint8_t)(15 - (RSPOpC.sa >> 1)); RSP_Vect[RSPOpC.vs].s8(element) = RSP_GPR[RSPOpC.rt].B[1]; if (element != 0) { RSP_Vect[RSPOpC.vs].s8(element - 1) = RSP_GPR[RSPOpC.rt].B[0]; } } void RSP_Cop2_CT(void) { switch ((RSPOpC.rd & 0x03)) { case 0: RSP_Flags[0].HW[0] = RSP_GPR[RSPOpC.rt].HW[0]; break; case 1: RSP_Flags[1].HW[0] = RSP_GPR[RSPOpC.rt].HW[0]; break; case 2: RSP_Flags[2].B[0] = RSP_GPR[RSPOpC.rt].B[0]; break; case 3: RSP_Flags[2].B[0] = RSP_GPR[RSPOpC.rt].B[0]; break; } } void RSP_COP2_VECTOR(void) { RSP_Vector[RSPOpC.funct](); } // Vector functions void RSP_Vector_VMULF(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_Vect[RSPOpC.vs].u16(el) != 0x8000 || RSP_Vect[RSPOpC.vt].u16(del) != 0x8000) { temp.W = ((int32_t)RSP_Vect[RSPOpC.vs].s16(el) * (int32_t)RSP_Vect[RSPOpC.vt].s16(del)) << 1; temp.UW += 0x8000; RSP_ACCUM[el].HW[2] = temp.HW[1]; RSP_ACCUM[el].HW[1] = temp.HW[0]; RSP_ACCUM[el].HW[3] = (RSP_ACCUM[el].HW[2] < 0) ? -1 : 0; Result.s16(el) = RSP_ACCUM[el].HW[2]; } else { temp.W = 0x80000000; RSP_ACCUM[el].UHW[3] = 0; RSP_ACCUM[el].UHW[2] = 0x8000; RSP_ACCUM[el].UHW[1] = 0x8000; Result.s16(el) = 0x7FFF; } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMULU(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; RSP_ACCUM[el].DW = (int64_t)(RSP_Vect[RSPOpC.vs].s16(el) * RSP_Vect[RSPOpC.vt].s16(del)) << 17; RSP_ACCUM[el].DW += 0x80000000; if (RSP_ACCUM[el].DW < 0) { Result.s16(el) = 0; } else if ((int16_t)(RSP_ACCUM[el].UHW[3] ^ RSP_ACCUM[el].UHW[2]) < 0) { Result.s16(el) = -1; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMUDL(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (uint32_t)RSP_Vect[RSPOpC.vs].u16(el) * (uint32_t)RSP_Vect[RSPOpC.vt].u16(del); RSP_ACCUM[el].W[1] = 0; RSP_ACCUM[el].HW[1] = temp.HW[1]; Result.s16(el) = RSP_ACCUM[el].HW[1]; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMUDM(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (uint32_t)((int32_t)RSP_Vect[RSPOpC.vs].s16(el)) * (uint32_t)RSP_Vect[RSPOpC.vt].u16(del); if (temp.W < 0) { RSP_ACCUM[el].HW[3] = -1; } else { RSP_ACCUM[el].HW[3] = 0; } RSP_ACCUM[el].HW[2] = temp.HW[1]; RSP_ACCUM[el].HW[1] = temp.HW[0]; Result.s16(el) = RSP_ACCUM[el].HW[2]; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMUDN(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (uint32_t)RSP_Vect[RSPOpC.vs].u16(el) * (uint32_t)((int32_t)RSP_Vect[RSPOpC.vt].s16(del)); if (temp.W < 0) { RSP_ACCUM[el].HW[3] = -1; } else { RSP_ACCUM[el].HW[3] = 0; } RSP_ACCUM[el].HW[2] = temp.HW[1]; RSP_ACCUM[el].HW[1] = temp.HW[0]; Result.s16(el) = RSP_ACCUM[el].HW[1]; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMUDH(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; RSP_ACCUM[el].W[1] = (int32_t)RSP_Vect[RSPOpC.vs].s16(el) * (int32_t)RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].HW[1] = 0; if (RSP_ACCUM[el].HW[3] < 0) { if (RSP_ACCUM[el].UHW[3] != 0xFFFF) { Result.u16(el) = 0x8000; } else { if (RSP_ACCUM[el].HW[2] >= 0) { Result.u16(el) = 0x8000; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.u16(el) = 0x7FFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.s16(el) = 0x7FFF; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMACF(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; /*temp.W = (long)RSP_Vect[RSPOpC.vs].s16(el) * (long)(DWORD)RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].UHW[3] += (WORD)(temp.W >> 31); temp.UW = temp.UW << 1; temp2.UW = temp.UHW[0] + RSP_ACCUM[el].UHW[1]; RSP_ACCUM[el].HW[1] = temp2.HW[0]; temp2.UW = temp.UHW[1] + RSP_ACCUM[el].UHW[2] + temp2.UHW[1]; RSP_ACCUM[el].HW[2] = temp2.HW[0]; RSP_ACCUM[el].HW[3] += temp2.HW[1];*/ temp.W = (int32_t)RSP_Vect[RSPOpC.vs].s16(el) * (int32_t)(uint32_t)RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].DW += ((int64_t)temp.W) << 17; if (RSP_ACCUM[el].HW[3] < 0) { if (RSP_ACCUM[el].UHW[3] != 0xFFFF) { Result.u16(el) = 0x8000; } else { if (RSP_ACCUM[el].HW[2] >= 0) { Result.u16(el) = 0x8000; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.s16(el) = 0x7FFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.s16(el) = 0x7FFF; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMACU(void) { uint8_t el, del; UWORD32 temp, temp2; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.W = (int32_t)RSP_Vect[RSPOpC.vs].s16(el) * (int32_t)(uint32_t)RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].UHW[3] = (RSP_ACCUM[el].UHW[3] + (WORD)(temp.W >> 31)) & 0xFFFF; temp.UW = temp.UW << 1; temp2.UW = temp.UHW[0] + RSP_ACCUM[el].UHW[1]; RSP_ACCUM[el].HW[1] = temp2.HW[0]; temp2.UW = temp.UHW[1] + RSP_ACCUM[el].UHW[2] + temp2.UHW[1]; RSP_ACCUM[el].HW[2] = temp2.HW[0]; RSP_ACCUM[el].HW[3] += temp2.HW[1]; if (RSP_ACCUM[el].HW[3] < 0) { Result.s16(el) = 0; } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.u16(el) = 0xFFFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.u16(el) = 0xFFFF; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMACQ(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_ACCUM[el].W[1] > 0x20) { if ((RSP_ACCUM[el].W[1] & 0x20) == 0) { RSP_ACCUM[el].W[1] -= 0x20; } } else if (RSP_ACCUM[el].W[1] < -0x20) { if ((RSP_ACCUM[el].W[1] & 0x20) == 0) { RSP_ACCUM[el].W[1] += 0x20; } } temp.W = RSP_ACCUM[el].W[1] >> 1; if (temp.HW[1] < 0) { if (temp.UHW[1] != 0xFFFF) { Result.u16(el) = 0x8000; } else { if (temp.HW[0] >= 0) { Result.u16(el) = 0x8000; } else { Result.u16(el) = (uint16_t)(temp.UW & 0xFFF0); } } } else { if (temp.UHW[1] != 0) { Result.u16(el) = 0x7FF0; } else { if (temp.HW[0] < 0) { Result.u16(el) = 0x7FF0; } else { Result.u16(el) = (uint16_t)(temp.UW & 0xFFF0); } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMADL(void) { uint8_t el, del; UWORD32 temp, temp2; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (uint32_t)RSP_Vect[RSPOpC.vs].u16(el) * (uint32_t)RSP_Vect[RSPOpC.vt].u16(del); temp2.UW = temp.UHW[1] + RSP_ACCUM[el].UHW[1]; RSP_ACCUM[el].HW[1] = temp2.HW[0]; temp2.UW = RSP_ACCUM[el].UHW[2] + temp2.UHW[1]; RSP_ACCUM[el].HW[2] = temp2.HW[0]; RSP_ACCUM[el].HW[3] += temp2.HW[1]; if (RSP_ACCUM[el].HW[3] < 0) { if (RSP_ACCUM[el].UHW[3] != 0xFFFF) { Result.u16(el) = 0; } else { if (RSP_ACCUM[el].HW[2] >= 0) { Result.u16(el) = 0; } else { Result.u16(el) = RSP_ACCUM[el].UHW[1]; } } } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.u16(el) = 0xFFFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.u16(el) = 0xFFFF; } else { Result.u16(el) = RSP_ACCUM[el].UHW[1]; } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMADM(void) { uint8_t el, del; UWORD32 temp, temp2; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (uint32_t)((int32_t)RSP_Vect[RSPOpC.vs].s16(el)) * (uint32_t)RSP_Vect[RSPOpC.vt].u16(del); temp2.UW = temp.UHW[0] + RSP_ACCUM[el].UHW[1]; RSP_ACCUM[el].HW[1] = temp2.HW[0]; temp2.UW = temp.UHW[1] + RSP_ACCUM[el].UHW[2] + temp2.UHW[1]; RSP_ACCUM[el].HW[2] = temp2.HW[0]; RSP_ACCUM[el].HW[3] += temp2.HW[1]; if (temp.W < 0) { RSP_ACCUM[el].HW[3] -= 1; } if (RSP_ACCUM[el].HW[3] < 0) { if (RSP_ACCUM[el].UHW[3] != 0xFFFF) { Result.u16(el) = 0x8000; } else { if (RSP_ACCUM[el].HW[2] >= 0) { Result.u16(el) = 0x8000; } else { Result.s16(el) = RSP_ACCUM[el].HW[2]; } } } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.u16(el) = 0x7FFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.u16(el) = 0x7FFF; } else { Result.u16(el) = RSP_ACCUM[el].UHW[2]; } } } //Result.s16(el) = RSP_ACCUM[el].HW[2]; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMADN(void) { uint8_t el, del; UWORD32 temp, temp2; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (uint32_t)RSP_Vect[RSPOpC.vs].u16(el) * (uint32_t)((int32_t)RSP_Vect[RSPOpC.vt].s16(del)); temp2.UW = temp.UHW[0] + RSP_ACCUM[el].UHW[1]; RSP_ACCUM[el].HW[1] = temp2.HW[0]; temp2.UW = temp.UHW[1] + RSP_ACCUM[el].UHW[2] + temp2.UHW[1]; RSP_ACCUM[el].HW[2] = temp2.HW[0]; RSP_ACCUM[el].HW[3] += temp2.HW[1]; if (temp.W < 0) { RSP_ACCUM[el].HW[3] -= 1; } if (RSP_ACCUM[el].HW[3] < 0) { if (RSP_ACCUM[el].UHW[3] != 0xFFFF) { Result.u16(el) = 0; } else { if (RSP_ACCUM[el].HW[2] >= 0) { Result.u16(el) = 0; } else { Result.u16(el) = RSP_ACCUM[el].UHW[1]; } } } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.u16(el) = 0xFFFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.u16(el) = 0xFFFF; } else { Result.u16(el) = RSP_ACCUM[el].UHW[1]; } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMADH(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; RSP_ACCUM[el].W[1] += (int32_t)RSP_Vect[RSPOpC.vs].s16(el) * (int32_t)RSP_Vect[RSPOpC.vt].s16(del); if (RSP_ACCUM[el].HW[3] < 0) { if (RSP_ACCUM[el].UHW[3] != 0xFFFF) { Result.u16(el) = 0x8000; } else { if (RSP_ACCUM[el].HW[2] >= 0) { Result.u16(el) = 0x8000; } else { Result.u16(el) = RSP_ACCUM[el].HW[2]; } } } else { if (RSP_ACCUM[el].UHW[3] != 0) { Result.u16(el) = 0x7FFF; } else { if (RSP_ACCUM[el].HW[2] < 0) { Result.u16(el) = 0x7FFF; } else { Result.u16(el) = RSP_ACCUM[el].UHW[2]; } } } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VADD(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.W = (int)RSP_Vect[RSPOpC.vs].s16(el) + (int)RSP_Vect[RSPOpC.vt].s16(del) + ((RSP_Flags[0].UW >> (7 - el)) & 0x1); RSP_ACCUM[el].HW[1] = temp.HW[0]; if ((temp.HW[0] & 0x8000) == 0) { if (temp.HW[1] != 0) { Result.u16(el) = 0x8000; } else { Result.u16(el) = temp.HW[0]; } } else { if (temp.HW[1] != -1) { Result.u16(el) = 0x7FFF; } else { Result.u16(el) = temp.UHW[0]; } } } RSP_Vect[RSPOpC.vd] = Result; RSP_Flags[0].UW = 0; } void RSP_Vector_VSUB(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.W = (int)RSP_Vect[RSPOpC.vs].s16(el) - (int)RSP_Vect[RSPOpC.vt].s16(del) - ((RSP_Flags[0].UW >> (7 - el)) & 0x1); RSP_ACCUM[el].HW[1] = temp.HW[0]; if ((temp.HW[0] & 0x8000) == 0) { if (temp.HW[1] != 0) { Result.u16(el) = 0x8000; } else { Result.u16(el) = temp.UHW[0]; } } else { if (temp.HW[1] != -1) { Result.u16(el) = 0x7FFF; } else { Result.u16(el) = temp.UHW[0]; } } } RSP_Flags[0].UW = 0; RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VABS(void) { uint8_t del; RSPVector Result; for (uint8_t el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_Vect[RSPOpC.vs].s16(el) > 0) { Result.s16(el) = RSP_Vect[RSPOpC.vt].u16(del); } else if (RSP_Vect[RSPOpC.vs].s16(el) < 0) { Result.u16(el) = RSP_Vect[RSPOpC.vt].u16(del) == 0x8000 ? 0x7FFF : RSP_Vect[RSPOpC.vt].s16(del) * -1; } else { Result.u16(el) = 0; } RSP_ACCUM[el].UHW[1] = Result.u16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VADDC(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; RSP_Flags[0].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (int)RSP_Vect[RSPOpC.vs].u16(el) + (int)RSP_Vect[RSPOpC.vt].u16(del); RSP_ACCUM[el].HW[1] = temp.HW[0]; Result.u16(el) = temp.UHW[0]; if (temp.UW & 0xffff0000) { RSP_Flags[0].UW |= (1 << (7 - el)); } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VSUBC(void) { uint8_t el, del; UWORD32 temp; RSPVector Result; RSP_Flags[0].UW = 0x0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; temp.UW = (int)RSP_Vect[RSPOpC.vs].u16(el) - (int)RSP_Vect[RSPOpC.vt].u16(del); RSP_ACCUM[el].HW[1] = temp.HW[0]; Result.u16(el) = temp.UHW[0]; if (temp.HW[0] != 0) { RSP_Flags[0].UW |= (0x1 << (15 - el)); } if (temp.UW & 0xffff0000) { RSP_Flags[0].UW |= (0x1 << (7 - el)); } } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VSAW(void) { RSPVector Result; switch ((RSPOpC.rs & 0xF)) { case 8: Result.s16(0) = RSP_ACCUM[0].HW[3]; Result.s16(1) = RSP_ACCUM[1].HW[3]; Result.s16(2) = RSP_ACCUM[2].HW[3]; Result.s16(3) = RSP_ACCUM[3].HW[3]; Result.s16(4) = RSP_ACCUM[4].HW[3]; Result.s16(5) = RSP_ACCUM[5].HW[3]; Result.s16(6) = RSP_ACCUM[6].HW[3]; Result.s16(7) = RSP_ACCUM[7].HW[3]; break; case 9: Result.s16(0) = RSP_ACCUM[0].HW[2]; Result.s16(1) = RSP_ACCUM[1].HW[2]; Result.s16(2) = RSP_ACCUM[2].HW[2]; Result.s16(3) = RSP_ACCUM[3].HW[2]; Result.s16(4) = RSP_ACCUM[4].HW[2]; Result.s16(5) = RSP_ACCUM[5].HW[2]; Result.s16(6) = RSP_ACCUM[6].HW[2]; Result.s16(7) = RSP_ACCUM[7].HW[2]; break; case 10: Result.s16(0) = RSP_ACCUM[0].HW[1]; Result.s16(1) = RSP_ACCUM[1].HW[1]; Result.s16(2) = RSP_ACCUM[2].HW[1]; Result.s16(3) = RSP_ACCUM[3].HW[1]; Result.s16(4) = RSP_ACCUM[4].HW[1]; Result.s16(5) = RSP_ACCUM[5].HW[1]; Result.s16(6) = RSP_ACCUM[6].HW[1]; Result.s16(7) = RSP_ACCUM[7].HW[1]; break; default: Result.u64(1) = 0; Result.u64(0) = 0; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VLT(void) { uint8_t el, del; RSPVector Result; RSP_Flags[1].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_Vect[RSPOpC.vs].s16(el) < RSP_Vect[RSPOpC.vt].s16(del)) { Result.u16(el) = RSP_Vect[RSPOpC.vs].u16(el); RSP_Flags[1].UW |= (1 << (7 - el)); } else if (RSP_Vect[RSPOpC.vs].s16(el) != RSP_Vect[RSPOpC.vt].s16(del)) { Result.u16(el) = RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW &= ~(1 << (7 - el)); } else { Result.u16(el) = RSP_Vect[RSPOpC.vs].u16(el); if ((RSP_Flags[0].UW & (0x101 << (7 - el))) == (WORD)(0x101 << (7 - el))) { RSP_Flags[1].UW |= (1 << (7 - el)); } else { RSP_Flags[1].UW &= ~(1 << (7 - el)); } } RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Flags[0].UW = 0; RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VEQ(void) { uint8_t el, del; RSPVector Result; RSP_Flags[1].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_Vect[RSPOpC.vs].u16(el) == RSP_Vect[RSPOpC.vt].u16(del)) { if ((RSP_Flags[0].UW & (1 << (15 - el))) == 0) { RSP_Flags[1].UW |= (1 << (7 - el)); } } Result.u16(el) = RSP_Vect[RSPOpC.vt].u16(del); RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vt].u16(del); } RSP_Flags[0].UW = 0; RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VNE(void) { uint8_t el, del; RSPVector Result; RSP_Flags[1].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_Vect[RSPOpC.vs].u16(el) != RSP_Vect[RSPOpC.vt].u16(del)) { RSP_Flags[1].UW |= (1 << (7 - el)); } else { if ((RSP_Flags[0].UW & (1 << (15 - el))) != 0) { RSP_Flags[1].UW |= (1 << (7 - el)); } } Result.u16(el) = RSP_Vect[RSPOpC.vs].u16(el); RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].u16(el); } RSP_Flags[0].UW = 0; RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VGE(void) { uint8_t el, del; RSPVector Result; RSP_Flags[1].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if (RSP_Vect[RSPOpC.vs].s16(el) == RSP_Vect[RSPOpC.vt].s16(del)) { Result.u16(el) = RSP_Vect[RSPOpC.vs].u16(el); if ((RSP_Flags[0].UW & (0x101 << (7 - el))) == (WORD)(0x101 << (7 - el))) { RSP_Flags[1].UW &= ~(1 << (7 - el)); } else { RSP_Flags[1].UW |= (1 << (7 - el)); } } else if (RSP_Vect[RSPOpC.vs].s16(el) > RSP_Vect[RSPOpC.vt].s16(del)) { Result.u16(el) = RSP_Vect[RSPOpC.vs].u16(el); RSP_Flags[1].UW |= (1 << (7 - el)); } else { Result.u16(el) = RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW &= ~(1 << (7 - el)); } RSP_ACCUM[el].UHW[1] = Result.u16(el); } RSP_Flags[0].UW = 0; RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VCL(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if ((RSP_Flags[0].UW & (1 << (7 - el))) != 0) { if ((RSP_Flags[0].UW & (1 << (15 - el))) != 0) { if ((RSP_Flags[1].UW & (1 << (7 - el))) != 0) { RSP_ACCUM[el].HW[1] = -RSP_Vect[RSPOpC.vt].u16(del); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); } } else { if ((RSP_Flags[2].UW & (1 << (7 - el)))) { if (RSP_Vect[RSPOpC.vs].u16(el) + RSP_Vect[RSPOpC.vt].u16(del) > 0x10000) { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); RSP_Flags[1].UW &= ~(1 << (7 - el)); } else { RSP_ACCUM[el].HW[1] = -RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW |= (1 << (7 - el)); } } else { if (RSP_Vect[RSPOpC.vt].u16(del) + RSP_Vect[RSPOpC.vs].u16(el) != 0) { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); RSP_Flags[1].UW &= ~(1 << (7 - el)); } else { RSP_ACCUM[el].HW[1] = -RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW |= (1 << (7 - el)); } } } } else { if ((RSP_Flags[0].UW & (1 << (15 - el))) != 0) { if ((RSP_Flags[1].UW & (1 << (15 - el))) != 0) { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vt].s16(del); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); } } else { if (RSP_Vect[RSPOpC.vs].u16(el) - RSP_Vect[RSPOpC.vt].u16(del) >= 0) { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW |= (1 << (15 - el)); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); RSP_Flags[1].UW &= ~(1 << (15 - el)); } } } Result.s16(el) = RSP_ACCUM[el].HW[1]; } RSP_Flags[0].UW = 0; RSP_Flags[2].UW = 0; RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VCH(void) { uint8_t el, del; RSPVector Result; RSP_Flags[0].UW = 0; RSP_Flags[1].UW = 0; RSP_Flags[2].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if ((RSP_Vect[RSPOpC.vs].s16(el) ^ RSP_Vect[RSPOpC.vt].s16(del)) < 0) { RSP_Flags[0].UW |= (1 << (7 - el)); if (RSP_Vect[RSPOpC.vt].s16(del) < 0) { RSP_Flags[1].UW |= (1 << (15 - el)); } if (RSP_Vect[RSPOpC.vs].s16(el) + RSP_Vect[RSPOpC.vt].s16(del) <= 0) { if (RSP_Vect[RSPOpC.vs].s16(el) + RSP_Vect[RSPOpC.vt].s16(del) == -1) { RSP_Flags[2].UW |= (1 << (7 - el)); } RSP_Flags[1].UW |= (1 << (7 - el)); RSP_ACCUM[el].HW[1] = -RSP_Vect[RSPOpC.vt].u16(del); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); } if (RSP_Vect[RSPOpC.vs].s16(el) + RSP_Vect[RSPOpC.vt].s16(del) != 0) { if (RSP_Vect[RSPOpC.vs].s16(el) != ~RSP_Vect[RSPOpC.vt].s16(del)) { RSP_Flags[0].UW |= (1 << (15 - el)); } } } else { if (RSP_Vect[RSPOpC.vt].s16(del) < 0) { RSP_Flags[1].UW |= (1 << (7 - el)); } if (RSP_Vect[RSPOpC.vs].s16(el) - RSP_Vect[RSPOpC.vt].s16(del) >= 0) { RSP_Flags[1].UW |= (1 << (15 - el)); RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vt].u16(del); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); } if (RSP_Vect[RSPOpC.vs].s16(el) - RSP_Vect[RSPOpC.vt].s16(del) != 0) { if (RSP_Vect[RSPOpC.vs].s16(el) != ~RSP_Vect[RSPOpC.vt].s16(del)) { RSP_Flags[0].UW |= (1 << (15 - el)); } } } Result.s16(el) = RSP_ACCUM[el].HW[1]; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VCR(void) { uint8_t el, del; RSPVector Result; RSP_Flags[0].UW = 0; RSP_Flags[1].UW = 0; RSP_Flags[2].UW = 0; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if ((RSP_Vect[RSPOpC.vs].s16(el) ^ RSP_Vect[RSPOpC.vt].s16(del)) < 0) { if (RSP_Vect[RSPOpC.vt].s16(del) < 0) { RSP_Flags[1].UW |= (1 << (15 - el)); } if (RSP_Vect[RSPOpC.vs].s16(el) + RSP_Vect[RSPOpC.vt].s16(del) <= 0) { RSP_ACCUM[el].HW[1] = ~RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW |= (1 << (7 - el)); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); } } else { if (RSP_Vect[RSPOpC.vt].s16(del) < 0) { RSP_Flags[1].UW |= (1 << (7 - el)); } if (RSP_Vect[RSPOpC.vs].s16(el) - RSP_Vect[RSPOpC.vt].s16(del) >= 0) { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vt].u16(del); RSP_Flags[1].UW |= (1 << (15 - el)); } else { RSP_ACCUM[el].HW[1] = RSP_Vect[RSPOpC.vs].s16(el); } } Result.s16(el) = RSP_ACCUM[el].HW[1]; } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VMRG(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; if ((RSP_Flags[1].UW & (1 << (7 - el))) != 0) { Result.s16(el) = RSP_Vect[RSPOpC.vs].s16(el); } else { Result.s16(el) = RSP_Vect[RSPOpC.vt].s16(del); } RSP_ACCUM[el].HW[1] = Result.s16(el); // Suggested by Angrylion } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VAND(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; Result.s16(el) = RSP_Vect[RSPOpC.vs].s16(el) & RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VNAND(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; Result.s16(el) = ~(RSP_Vect[RSPOpC.vs].s16(el) & RSP_Vect[RSPOpC.vt].s16(del)); RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VOR(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; Result.s16(el) = RSP_Vect[RSPOpC.vs].s16(el) | RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VNOR(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; Result.s16(el) = ~(RSP_Vect[RSPOpC.vs].s16(el) | RSP_Vect[RSPOpC.vt].s16(del)); RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VXOR(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; Result.s16(el) = RSP_Vect[RSPOpC.vs].s16(el) ^ RSP_Vect[RSPOpC.vt].s16(del); RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VNXOR(void) { uint8_t el, del; RSPVector Result; for (el = 0; el < 8; el++) { del = EleSpec[RSPOpC.e].B[el]; Result.s16(el) = ~(RSP_Vect[RSPOpC.vs].s16(el) ^ RSP_Vect[RSPOpC.vt].s16(del)); RSP_ACCUM[el].HW[1] = Result.s16(el); } RSP_Vect[RSPOpC.vd] = Result; } void RSP_Vector_VRCP(void) { RecpResult.W = RSP_Vect[RSPOpC.vt].s16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]); if (RecpResult.UW == 0) { RecpResult.UW = 0x7FFFFFFF; } else { bool neg = RecpResult.W < 0; if (neg) { RecpResult.W = ~RecpResult.W + 1; } for (int count = 15; count > 0; count--) { if ((RecpResult.W & (1 << count))) { RecpResult.W &= (0xFFC0 >> (15 - count)); count = 0; } } { DWORD RoundMethod = _RC_CHOP; DWORD OldModel = _controlfp(RoundMethod, _MCW_RC); RecpResult.W = (long)((0x7FFFFFFF / (double)RecpResult.W)); OldModel = _controlfp(OldModel, _MCW_RC); } for (int count = 31; count > 0; count--) { if ((RecpResult.W & (1 << count))) { RecpResult.W &= (0xFFFF8000 >> (31 - count)); count = 0; } } if (neg == true) { RecpResult.W = ~RecpResult.W; } } for (int count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].s16(7 - (RSPOpC.rd & 0x7)) = RecpResult.UHW[0]; } void RSP_Vector_VRCPL(void) { int count; bool neg; RecpResult.UW = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]) | Recp.W; if (RecpResult.UW == 0) { RecpResult.UW = 0x7FFFFFFF; } else { if (RecpResult.W < 0) { neg = true; if (RecpResult.UHW[1] == 0xFFFF && RecpResult.HW[0] < 0) { RecpResult.W = ~RecpResult.W + 1; } else { RecpResult.W = ~RecpResult.W; } } else { neg = false; } for (count = 31; count > 0; count--) { if ((RecpResult.W & (1 << count))) { RecpResult.W &= (0xFFC00000 >> (31 - count)); count = 0; } } { DWORD OldModel = _controlfp(_RC_CHOP, _MCW_RC); //RecpResult.W = 0x7FFFFFFF / RecpResult.W; RecpResult.W = (long)((0x7FFFFFFF / (double)RecpResult.W)); OldModel = _controlfp(OldModel, _MCW_RC); } for (count = 31; count > 0; count--) { if ((RecpResult.W & (1 << count))) { RecpResult.W &= (0xFFFF8000 >> (31 - count)); count = 0; } } if (neg == true) { RecpResult.W = ~RecpResult.W; } } for (count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].s16(7 - (RSPOpC.rd & 0x7)) = RecpResult.UHW[0]; } void RSP_Vector_VRCPH(void) { int count; Recp.UHW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]); for (count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].u16(7 - (RSPOpC.rd & 0x7)) = RecpResult.UHW[1]; } void RSP_Vector_VMOV(void) { int count; for (count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].u16(7 - (RSPOpC.rd & 0x7)) = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]); } void RSP_Vector_VRSQ(void) { int count; bool neg; SQrootResult.W = RSP_Vect[RSPOpC.vt].s16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]); if (SQrootResult.UW == 0) { SQrootResult.UW = 0x7FFFFFFF; } else if (SQrootResult.UW == 0xFFFF8000) { SQrootResult.UW = 0xFFFF0000; } else { if (SQrootResult.W < 0) { neg = true; SQrootResult.W = ~SQrootResult.W + 1; } else { neg = false; } for (count = 15; count > 0; count--) { if ((SQrootResult.W & (1 << count))) { SQrootResult.W &= (0xFF80 >> (15 - count)); count = 0; } } { DWORD RoundMethod = _RC_CHOP; DWORD OldModel = _controlfp(RoundMethod, _MCW_RC); SQrootResult.W = (long)(0x7FFFFFFF / sqrt(SQrootResult.W)); OldModel = _controlfp(OldModel, _MCW_RC); } for (count = 31; count > 0; count--) { if ((SQrootResult.W & (1 << count))) { SQrootResult.W &= (0xFFFF8000 >> (31 - count)); count = 0; } } if (neg == true) { SQrootResult.W = ~SQrootResult.W; } } for (count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].s16(7 - (RSPOpC.rd & 0x7)) = SQrootResult.UHW[0]; } void RSP_Vector_VRSQL(void) { int count; bool neg; SQrootResult.UW = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]) | SQroot.W; if (SQrootResult.UW == 0) { SQrootResult.UW = 0x7FFFFFFF; } else if (SQrootResult.UW == 0xFFFF8000) { SQrootResult.UW = 0xFFFF0000; } else { if (SQrootResult.W < 0) { neg = true; if (SQrootResult.UHW[1] == 0xFFFF && SQrootResult.HW[0] < 0) { SQrootResult.W = ~SQrootResult.W + 1; } else { SQrootResult.W = ~SQrootResult.W; } } else { neg = false; } for (count = 31; count > 0; count--) { if ((SQrootResult.W & (1 << count))) { SQrootResult.W &= (0xFF800000 >> (31 - count)); count = 0; } } { DWORD OldModel = _controlfp(_RC_CHOP, _MCW_RC); SQrootResult.W = (long)(0x7FFFFFFF / sqrt(SQrootResult.W)); OldModel = _controlfp(OldModel, _MCW_RC); } for (count = 31; count > 0; count--) { if ((SQrootResult.W & (1 << count))) { SQrootResult.W &= (0xFFFF8000 >> (31 - count)); count = 0; } } if (neg == true) { SQrootResult.W = ~SQrootResult.W; } } for (count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].s16(7 - (RSPOpC.rd & 0x7)) = SQrootResult.UHW[0]; } void RSP_Vector_VRSQH(void) { int count; SQroot.UHW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[(RSPOpC.rd & 0x7)]); for (count = 0; count < 8; count++) { RSP_ACCUM[count].HW[1] = RSP_Vect[RSPOpC.vt].u16(EleSpec[RSPOpC.e].B[count]); } RSP_Vect[RSPOpC.vd].u16(7 - (RSPOpC.rd & 0x7)) = SQrootResult.UHW[1]; } void RSP_Vector_VNOOP(void) { } // LC2 functions void RSP_Opcode_LBV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 0)) & 0xFFF; RSP_LBV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LSV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 1)) & 0xFFF; RSP_LSV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LLV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 2)) & 0xFFF; RSP_LLV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LDV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 3)) & 0xFFF; RSP_LDV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LQV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_LQV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LRV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_LRV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LPV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 3)) & 0xFFF; RSP_LPV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LUV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 3)) & 0xFFF; RSP_LUV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LHV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_LHV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LFV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_LFV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_LTV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_LTV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } // SC2 functions void RSP_Opcode_SBV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 0)) & 0xFFF; RSP_SBV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SSV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 1)) & 0xFFF; RSP_SSV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SLV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 2)) & 0xFFF; RSP_SLV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SDV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 3)) & 0xFFF; RSP_SDV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SQV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_SQV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SRV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_SRV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SPV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 3)) & 0xFFF; RSP_SPV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SUV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 3)) & 0xFFF; RSP_SUV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SHV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_SHV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SFV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_SFV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_STV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_STV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } void RSP_Opcode_SWV(void) { uint32_t Address = (uint32_t)(RSP_GPR[RSPOpC.base].W + (RSPOpC.voffset << 4)) & 0xFFF; RSP_SWV_DMEM(Address, RSPOpC.rt, RSPOpC.del); } // Other functions void rsp_UnknownOpcode(void) { char Message[200]; int response; if (InRSPCommandsWindow) { SetRSPCommandViewto(*PrgCount); DisplayError("Unhandled Opcode\n%s\n\nStopping emulation", RSPInstruction(*PrgCount, RSPOpC.Value).NameAndParam().c_str()); } else { sprintf(Message, "Unhandled Opcode\n%s\n\nStopping emulation.\n\nWould you like to open the debugger?", RSPInstruction(*PrgCount, RSPOpC.Value).NameAndParam().c_str()); response = MessageBoxA(NULL, Message, "Error", MB_YESNO | MB_ICONERROR); if (response == IDYES) { Enter_RSP_Commands_Window(); } } ExitThread(0); }