/* DingusPPC - The Experimental PowerPC Macintosh emulator Copyright (C) 2018-24 divingkatae and maximum (theweirdo) spatium (Contact divingkatae#1017 or powermax#2286 on Discord for more info) This program 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. This program 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 this program. If not, see . */ // The floating point opcodes for the processor - ppcfpopcodes.cpp #include "ppcemu.h" #include "ppcmmu.h" #include #include #include #include #include // Used for FP calcs // Storage and register retrieval functions for the floating point functions. #define GET_FPR(reg) ppc_state.fpr[(reg)].dbl64_r double fp_return_double(uint32_t reg) { return ppc_state.fpr[reg].dbl64_r; } uint64_t fp_return_uint64(uint32_t reg) { return ppc_state.fpr[reg].int64_r; } #define ppc_store_sfpresult_int(reg) \ ppc_state.fpr[(reg)].int64_r = ppc_result64_d; #define ppc_store_sfpresult_flt(reg) \ ppc_state.fpr[(reg)].dbl64_r = ppc_dblresult64_d; #define ppc_store_dfpresult_int(reg) \ ppc_state.fpr[(reg)].int64_r = ppc_result64_d; #define ppc_store_dfpresult_flt(reg) \ ppc_state.fpr[(reg)].dbl64_r = ppc_dblresult64_d; #define ppc_grab_regsfpdb() \ int reg_d = (ppc_cur_instruction >> 21) & 31; \ int reg_b = (ppc_cur_instruction >> 11) & 31; #define ppc_grab_regsfpdiab() \ int reg_d = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ int reg_b = (ppc_cur_instruction >> 11) & 31; \ uint32_t val_reg_a = ppc_state.gpr[reg_a]; \ uint32_t val_reg_b = ppc_state.gpr[reg_b]; #define ppc_grab_regsfpdia() \ int reg_d = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ uint32_t val_reg_a = ppc_state.gpr[reg_a]; #define ppc_grab_regsfpsia() \ int reg_s = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ uint32_t val_reg_a = ppc_state.gpr[reg_a]; #define ppc_grab_regsfpsiab() \ int reg_s = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ int reg_b = (ppc_cur_instruction >> 11) & 31; \ uint32_t val_reg_a = ppc_state.gpr[reg_a]; \ uint32_t val_reg_b = ppc_state.gpr[reg_b]; #define ppc_grab_regsfpsab() \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ int reg_b = (ppc_cur_instruction >> 11) & 31; \ int crf_d = (ppc_cur_instruction >> 21) & 0x1C; \ double db_test_a = GET_FPR(reg_a); \ double db_test_b = GET_FPR(reg_b); #define ppc_grab_regsfpdab() \ int reg_d = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ int reg_b = (ppc_cur_instruction >> 11) & 31; \ double val_reg_a = GET_FPR(reg_a); \ double val_reg_b = GET_FPR(reg_b); #define ppc_grab_regsfpdac() \ int reg_d = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ int reg_c = (ppc_cur_instruction >> 6) & 31; \ double val_reg_a = GET_FPR(reg_a); \ double val_reg_c = GET_FPR(reg_c); #define ppc_grab_regsfpdabc() \ int reg_d = (ppc_cur_instruction >> 21) & 31; \ int reg_a = (ppc_cur_instruction >> 16) & 31; \ int reg_b = (ppc_cur_instruction >> 11) & 31; \ int reg_c = (ppc_cur_instruction >> 6) & 31; \ double val_reg_a = GET_FPR(reg_a); \ double val_reg_b = GET_FPR(reg_b); \ double val_reg_c = GET_FPR(reg_c); inline void ppc_update_cr1() { // copy FPSCR[FX|FEX|VX|OX] to CR1 ppc_state.cr = (ppc_state.cr & ~CR_select::CR1_field) | ((ppc_state.fpscr >> 4) & CR_select::CR1_field); } int32_t round_to_nearest(double f) { return static_cast(static_cast (std::floor(f + 0.5))); } void set_host_rounding_mode(uint8_t mode) { switch(mode & FPSCR::RN_MASK) { case 0: std::fesetround(FE_TONEAREST); break; case 1: std::fesetround(FE_TOWARDZERO); break; case 2: std::fesetround(FE_UPWARD); break; case 3: std::fesetround(FE_DOWNWARD); break; } } void update_fpscr(uint32_t new_fpscr) { if ((new_fpscr & FPSCR::RN_MASK) != (ppc_state.fpscr & FPSCR::RN_MASK)) set_host_rounding_mode(new_fpscr & FPSCR::RN_MASK); ppc_state.fpscr = new_fpscr; } int32_t round_to_zero(double f) { return static_cast(std::trunc(f)); } int32_t round_to_pos_inf(double f) { return static_cast(std::ceil(f)); } int32_t round_to_neg_inf(double f) { return static_cast(std::floor(f)); } void update_fex() { int fex_result = !!((ppc_state.fpscr & (ppc_state.fpscr << 22)) & 0x3E000000); ppc_state.fpscr = (ppc_state.fpscr & ~0x40000000) | (fex_result << 30); } template void ppc_confirm_inf_nan(int chosen_reg_1, int chosen_reg_2, bool rc_flag = false) { double input_a = ppc_state.fpr[chosen_reg_1].dbl64_r; double input_b = ppc_state.fpr[chosen_reg_2].dbl64_r; ppc_state.fpscr &= 0x7fbfffff; switch (fpop) { case FPOP::DIV: if (std::isinf(input_a) && std::isinf(input_b)) { ppc_state.fpscr |= (FPSCR::FX | FPSCR::VXIDI); } else if ((input_a == FP_ZERO) && (input_b == FP_ZERO)) { ppc_state.fpscr |= (FPSCR::FX | FPSCR::VXZDZ); } update_fex(); break; case FPOP::SUB: if (std::isinf(input_a) && std::isinf(input_b)) { ppc_state.fpscr |= (FPSCR::FX | FPSCR::VXISI); } if (std::isnan(input_a) && std::isnan(input_b)) { ppc_state.fpscr |= (FPSCR::FX | FPSCR::VXISI); } update_fex(); break; case FPOP::ADD: if (std::isnan(input_a) && std::isnan(input_b)) { ppc_state.fpscr |= (FPSCR::FX | FPSCR::VXISI); } update_fex(); break; case FPOP::SQRT: if (std::isnan(input_b) || (input_b == -1.0)) { ppc_state.fpscr |= (FPSCR::FX | FPSCR::VXSQRT); } update_fex(); break; case FPOP::MUL: if (std::isnan(input_a) && std::isnan(input_b)) { ppc_state.fpscr |= (FPSCR::FX); } update_fex(); break; } } static void fpresult_update(double set_result) { if (std::isnan(set_result)) { ppc_state.fpscr |= FPCC_FUNAN | FPRCD; } else { if (set_result > 0.0) { ppc_state.fpscr |= FPCC_POS; } else if (set_result < 0.0) { ppc_state.fpscr |= FPCC_NEG; } else { ppc_state.fpscr |= FPCC_ZERO; } if (std::isinf(set_result)) ppc_state.fpscr |= FPCC_FUNAN; } } // Floating Point Arithmetic void dppc_interpreter::ppc_fadd() { ppc_grab_regsfpdab(); if (std::isnan(val_reg_a) || std::isnan(val_reg_b)) { ppc_state.fpscr |= FPCC_FUNAN; ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = val_reg_a + val_reg_b; ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fsub() { ppc_grab_regsfpdab(); if (std::isnan(val_reg_a) || std::isnan(val_reg_b)) { ppc_state.fpscr |= FPCC_FUNAN; ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = val_reg_a - val_reg_b; ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fdiv() { ppc_grab_regsfpdab(); if (std::isnan(val_reg_a) || std::isnan(val_reg_b)) { ppc_confirm_inf_nan
(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = val_reg_a / val_reg_b; ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fmul() { ppc_grab_regsfpdac(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } double ppc_dblresult64_d = val_reg_a * val_reg_c; ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fmadd() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = std::fma(val_reg_a, val_reg_c, val_reg_b); ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fmsub() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = std::fma(val_reg_a, val_reg_c, -val_reg_b); ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fnmadd() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = -std::fma(val_reg_a, val_reg_c, val_reg_b); ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fnmsub() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = std::fma(-val_reg_a, val_reg_c, val_reg_b); ppc_store_dfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fadds() { ppc_grab_regsfpdab(); if (std::isnan(val_reg_a) || std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } float ppc_fltresult32_d = val_reg_a + val_reg_b; double ppc_dblresult64_d = (double)ppc_fltresult32_d; ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fsubs() { ppc_grab_regsfpdab(); if (std::isnan(val_reg_a) || std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = (float)(val_reg_a - val_reg_b); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fdivs() { ppc_grab_regsfpdab(); if (std::isnan(val_reg_a) || std::isnan(val_reg_b)) { ppc_confirm_inf_nan
(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = (float)(val_reg_a / val_reg_b); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fmuls() { ppc_grab_regsfpdac(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } double ppc_dblresult64_d = (float)(val_reg_a * val_reg_c); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fmadds() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = (float)std::fma(val_reg_a, val_reg_c, val_reg_b); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fmsubs() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = (float)std::fma(val_reg_a, val_reg_c, -val_reg_b); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fnmadds() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = -(float)std::fma(val_reg_a, val_reg_c, val_reg_b); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fnmsubs() { ppc_grab_regsfpdabc(); if (std::isnan(val_reg_a) || std::isnan(val_reg_c)) { ppc_confirm_inf_nan(reg_a, reg_c, rc_flag); } if (std::isnan(val_reg_b)) { ppc_confirm_inf_nan(reg_a, reg_b, rc_flag); } double ppc_dblresult64_d = (float)std::fma(-val_reg_a, val_reg_c, val_reg_b); ppc_store_sfpresult_flt(reg_d); fpresult_update(ppc_dblresult64_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fabs() { ppc_grab_regsfpdb(); double ppc_dblresult64_d = abs(GET_FPR(reg_b)); ppc_store_dfpresult_flt(reg_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fnabs() { ppc_grab_regsfpdb(); double ppc_dblresult64_d = abs(GET_FPR(reg_b)); ppc_dblresult64_d = -ppc_dblresult64_d; ppc_store_dfpresult_flt(reg_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fneg() { ppc_grab_regsfpdb(); double ppc_dblresult64_d = -(GET_FPR(reg_b)); ppc_store_dfpresult_flt(reg_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fsel() { ppc_grab_regsfpdabc(); double ppc_dblresult64_d = (val_reg_a >= -0.0) ? val_reg_c : val_reg_b; ppc_store_dfpresult_flt(reg_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fsqrt() { ppc_grab_regsfpdb(); double testd2 = (double)(GET_FPR(reg_b)); double ppc_dblresult64_d = std::sqrt(testd2); ppc_store_dfpresult_flt(reg_d); ppc_confirm_inf_nan(0, reg_b, rc_flag); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fsqrts() { ppc_grab_regsfpdb(); double testd2 = (double)(GET_FPR(reg_b)); double ppc_dblresult64_d = (float)std::sqrt(testd2); ppc_store_sfpresult_flt(reg_d); ppc_confirm_inf_nan(0, reg_b, rc_flag); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_frsqrte() { ppc_grab_regsfpdb(); double testd2 = (double)(GET_FPR(reg_b)); double ppc_dblresult64_d = 1.0 / sqrt(testd2); ppc_confirm_inf_nan(0, reg_b, rc_flag); ppc_store_dfpresult_flt(reg_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_frsp() { ppc_grab_regsfpdb(); double ppc_dblresult64_d = (float)(GET_FPR(reg_b)); ppc_store_dfpresult_flt(reg_d); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fres() { ppc_grab_regsfpdb(); double start_num = GET_FPR(reg_b); double ppc_dblresult64_d = (float)(1.0 / start_num); ppc_store_dfpresult_flt(reg_d); if (start_num == 0.0) { ppc_state.fpscr |= FPSCR::ZX; } else if (std::isnan(start_num)) { ppc_state.fpscr |= FPSCR::VXSNAN; } else if (std::isinf(start_num)){ ppc_state.fpscr &= 0xFFF9FFFF; ppc_state.fpscr |= FPSCR::VXSNAN; } if (rc_flag) ppc_update_cr1(); } static void round_to_int(const uint8_t mode) { ppc_grab_regsfpdb(); double val_reg_b = GET_FPR(reg_b); if (std::isnan(val_reg_b)) { ppc_state.fpscr &= ~(FPSCR::FR | FPSCR::FI); ppc_state.fpscr |= (FPSCR::VXCVI | FPSCR::VX); if (!(ppc_state.fpr[reg_b].int64_r & 0x0008000000000000)) // issnan ppc_state.fpscr |= FPSCR::VXSNAN; if (ppc_state.fpscr & FPSCR::VE) { ppc_state.fpscr |= FPSCR::FEX; // VX=1 and VE=1 cause FEX to be set ppc_floating_point_exception(); } else { ppc_state.fpr[reg_d].int64_r = 0xFFF8000080000000ULL; } } else if (val_reg_b > static_cast(0x7fffffff) || val_reg_b < -static_cast(0x80000000)) { ppc_state.fpscr &= ~(FPSCR::FR | FPSCR::FI); ppc_state.fpscr |= (FPSCR::VXCVI | FPSCR::VX); if (ppc_state.fpscr & FPSCR::VE) { ppc_state.fpscr |= FPSCR::FEX; // VX=1 and VE=1 cause FEX to be set ppc_floating_point_exception(); } else { if (val_reg_b >= 0.0f) ppc_state.fpr[reg_d].int64_r = 0xFFF800007FFFFFFFULL; else ppc_state.fpr[reg_d].int64_r = 0xFFF8000080000000ULL; } } else { uint64_t ppc_result64_d; switch (mode & 0x3) { case 0: ppc_result64_d = uint32_t(round_to_nearest(val_reg_b)); break; case 1: ppc_result64_d = uint32_t(round_to_zero(val_reg_b)); break; case 2: ppc_result64_d = uint32_t(round_to_pos_inf(val_reg_b)); break; case 3: ppc_result64_d = uint32_t(round_to_neg_inf(val_reg_b)); break; } ppc_result64_d |= 0xFFF8000000000000ULL; ppc_store_dfpresult_int(reg_d); } if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_fctiw() { round_to_int(ppc_state.fpscr & 0x3); } void dppc_interpreter::ppc_fctiwz() { round_to_int(1); } // Floating Point Store and Load void dppc_interpreter::ppc_lfs() { ppc_grab_regsfpdia(); ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += (reg_a) ? val_reg_a : 0; uint32_t result = mmu_read_vmem(ppc_effective_address); ppc_state.fpr[reg_d].dbl64_r = *(float*)(&result); } void dppc_interpreter::ppc_lfsu() { ppc_grab_regsfpdia(); if (reg_a) { ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += (reg_a) ? val_reg_a : 0; uint32_t result = mmu_read_vmem(ppc_effective_address); ppc_state.fpr[reg_d].dbl64_r = *(float*)(&result); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_lfsx() { ppc_grab_regsfpdiab(); ppc_effective_address = val_reg_b + (reg_a ? val_reg_a : 0); uint32_t result = mmu_read_vmem(ppc_effective_address); ppc_state.fpr[reg_d].dbl64_r = *(float*)(&result); } void dppc_interpreter::ppc_lfsux() { ppc_grab_regsfpdiab(); if (reg_a) { ppc_effective_address = val_reg_a + val_reg_b; uint32_t result = mmu_read_vmem(ppc_effective_address); ppc_state.fpr[reg_d].dbl64_r = *(float*)(&result); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_lfd() { ppc_grab_regsfpdia(); ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += (reg_a) ? val_reg_a : 0; uint64_t ppc_result64_d = mmu_read_vmem(ppc_effective_address); ppc_store_dfpresult_int(reg_d); } void dppc_interpreter::ppc_lfdu() { ppc_grab_regsfpdia(); if (reg_a != 0) { ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += val_reg_a; uint64_t ppc_result64_d = mmu_read_vmem(ppc_effective_address); ppc_store_dfpresult_int(reg_d); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_lfdx() { ppc_grab_regsfpdiab(); ppc_effective_address = val_reg_b + (reg_a ? val_reg_a : 0); uint64_t ppc_result64_d = mmu_read_vmem(ppc_effective_address); ppc_store_dfpresult_int(reg_d); } void dppc_interpreter::ppc_lfdux() { ppc_grab_regsfpdiab(); if (reg_a) { ppc_effective_address = val_reg_a + val_reg_b; uint64_t ppc_result64_d = mmu_read_vmem(ppc_effective_address); ppc_store_dfpresult_int(reg_d); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_stfs() { ppc_grab_regsfpsia(); ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += (reg_a) ? val_reg_a : 0; float result = ppc_state.fpr[reg_s].dbl64_r; mmu_write_vmem(ppc_effective_address, *(uint32_t*)(&result)); } void dppc_interpreter::ppc_stfsu() { ppc_grab_regsfpsia(); if (reg_a != 0) { ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += val_reg_a; float result = ppc_state.fpr[reg_s].dbl64_r; mmu_write_vmem(ppc_effective_address, *(uint32_t*)(&result)); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_stfsx() { ppc_grab_regsfpsiab(); ppc_effective_address = val_reg_b + (reg_a ? val_reg_a : 0); float result = ppc_state.fpr[reg_s].dbl64_r; mmu_write_vmem(ppc_effective_address, *(uint32_t*)(&result)); } void dppc_interpreter::ppc_stfsux() { ppc_grab_regsfpsiab(); if (reg_a) { ppc_effective_address = val_reg_a + val_reg_b; float result = ppc_state.fpr[reg_s].dbl64_r; mmu_write_vmem(ppc_effective_address, *(uint32_t*)(&result)); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_stfd() { ppc_grab_regsfpsia(); ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += reg_a ? val_reg_a : 0; mmu_write_vmem(ppc_effective_address, ppc_state.fpr[reg_s].int64_r); } void dppc_interpreter::ppc_stfdu() { ppc_grab_regsfpsia(); if (reg_a != 0) { ppc_effective_address = int32_t(int16_t(ppc_cur_instruction)); ppc_effective_address += val_reg_a; mmu_write_vmem(ppc_effective_address, ppc_state.fpr[reg_s].int64_r); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_stfdx() { ppc_grab_regsfpsiab(); ppc_effective_address = val_reg_b + (reg_a ? val_reg_a : 0); mmu_write_vmem(ppc_effective_address, ppc_state.fpr[reg_s].int64_r); } void dppc_interpreter::ppc_stfdux() { ppc_grab_regsfpsiab(); if (reg_a != 0) { ppc_effective_address = val_reg_a + val_reg_b; mmu_write_vmem(ppc_effective_address, ppc_state.fpr[reg_s].int64_r); ppc_state.gpr[reg_a] = ppc_effective_address; } else { ppc_exception_handler(Except_Type::EXC_PROGRAM, Exc_Cause::ILLEGAL_OP); } } void dppc_interpreter::ppc_stfiwx() { ppc_grab_regsfpsiab(); ppc_effective_address = val_reg_b + (reg_a ? val_reg_a : 0); mmu_write_vmem(ppc_effective_address, uint32_t(ppc_state.fpr[reg_s].int64_r)); } // Floating Point Register Transfer void dppc_interpreter::ppc_fmr() { ppc_grab_regsfpdb(); ppc_state.fpr[reg_d].dbl64_r = ppc_state.fpr[reg_b].dbl64_r; if (rc_flag) ppc_update_cr1(); } template void dppc_interpreter::ppc_mffs() { ppc_grab_regsda(); ppc_state.fpr[reg_d].int64_r = uint64_t(ppc_state.fpscr) | (for601 ? 0xFFFFFFFF00000000ULL : 0xFFF8000000000000ULL); if (rc_flag) ppc_update_cr1(); } template void dppc_interpreter::ppc_mffs(); template void dppc_interpreter::ppc_mffs(); void dppc_interpreter::ppc_mtfsf() { int reg_b = (ppc_cur_instruction >> 11) & 0x1F; uint8_t fm = (ppc_cur_instruction >> 17) & 0xFF; uint32_t cr_mask = 0; if (fm == 0xFFU) // the fast case cr_mask = 0xFFFFFFFFUL; else { // the slow case if (fm & 0x80) cr_mask |= 0xF0000000UL; if (fm & 0x40) cr_mask |= 0x0F000000UL; if (fm & 0x20) cr_mask |= 0x00F00000UL; if (fm & 0x10) cr_mask |= 0x000F0000UL; if (fm & 0x08) cr_mask |= 0x0000F000UL; if (fm & 0x04) cr_mask |= 0x00000F00UL; if (fm & 0x02) cr_mask |= 0x000000F0UL; if (fm & 0x01) cr_mask |= 0x0000000FUL; } // ensure neither FEX nor VX will be changed cr_mask &= ~(FPSCR::FEX | FPSCR::VX); // copy FPR[reg_b] to FPSCR under control of cr_mask ppc_state.fpscr = (ppc_state.fpscr & ~cr_mask) | (ppc_state.fpr[reg_b].int64_r & cr_mask); if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_mtfsfi() { int crf_d = (ppc_cur_instruction >> 21) & 0x1C; uint32_t imm = (ppc_cur_instruction << 16) & 0xF0000000UL; // prepare field mask and ensure that neither FEX nor VX will be changed uint32_t mask = (0xF0000000UL >> crf_d) & ~(FPSCR::FEX | FPSCR::VX); // copy imm to FPSCR[crf_d] under control of the field mask ppc_state.fpscr = (ppc_state.fpscr & ~mask) | ((imm >> crf_d) & mask); // TODO: update FEX and VX according to the "usual rule" if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_mtfsb0() { int crf_d = (ppc_cur_instruction >> 21) & 0x1F; if (!crf_d || (crf_d > 2)) { // FEX and VX can't be explicitely cleared ppc_state.fpscr &= ~(0x80000000UL >> crf_d); } if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_mtfsb1() { int crf_d = (ppc_cur_instruction >> 21) & 0x1F; if (!crf_d || (crf_d > 2)) { // FEX and VX can't be explicitely set ppc_state.fpscr |= (0x80000000UL >> crf_d); } if (rc_flag) ppc_update_cr1(); } void dppc_interpreter::ppc_mcrfs() { int crf_d = (ppc_cur_instruction >> 21) & 0x1C; int crf_s = (ppc_cur_instruction >> 16) & 0x1C; ppc_state.cr = ( (ppc_state.cr & ~(0xF0000000UL >> crf_d)) | (((ppc_state.fpscr << crf_s) & 0xF0000000UL) >> crf_d) ); ppc_state.fpscr &= ~((0xF0000000UL >> crf_s) & ( // keep only the FPSCR bits that can be explicitly cleared FPSCR::FX | FPSCR::OX | FPSCR::UX | FPSCR::ZX | FPSCR::XX | FPSCR::VXSNAN | FPSCR::VXISI | FPSCR::VXIDI | FPSCR::VXZDZ | FPSCR::VXIMZ | FPSCR::VXVC | FPSCR::VXSOFT | FPSCR::VXSQRT | FPSCR::VXCVI )); } // Floating Point Comparisons void dppc_interpreter::ppc_fcmpo() { ppc_grab_regsfpsab(); uint32_t cmp_c = 0; if (std::isnan(db_test_a) || std::isnan(db_test_b)) { // TODO: test for SNAN operands // for now, assume that at least one of the operands is QNAN cmp_c |= CRx_bit::CR_SO; } else if (db_test_a < db_test_b) { cmp_c |= CRx_bit::CR_LT; } else if (db_test_a > db_test_b) { cmp_c |= CRx_bit::CR_GT; } else { cmp_c |= CRx_bit::CR_EQ; } ppc_state.fpscr = (ppc_state.fpscr & ~FPSCR::FPCC_MASK) | (cmp_c >> 16); // update FPCC ppc_state.cr = ((ppc_state.cr & ~(0xF0000000 >> crf_d)) | (cmp_c >> crf_d)); } void dppc_interpreter::ppc_fcmpu() { ppc_grab_regsfpsab(); uint32_t cmp_c = 0; if (std::isnan(db_test_a) || std::isnan(db_test_b)) { // TODO: test for SNAN operands cmp_c |= CRx_bit::CR_SO; } else if (db_test_a < db_test_b) { cmp_c |= CRx_bit::CR_LT; } else if (db_test_a > db_test_b) { cmp_c |= CRx_bit::CR_GT; } else { cmp_c |= CRx_bit::CR_EQ; } ppc_state.fpscr = (ppc_state.fpscr & ~FPSCR::FPCC_MASK) | (cmp_c >> 16); // update FPCC ppc_state.cr = ((ppc_state.cr & ~(0xF0000000UL >> crf_d)) | (cmp_c >> crf_d)); }