/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Mupen64plus - gcop1.c * * Mupen64Plus homepage: http://code.google.com/p/mupen64plus/ * * Copyright (C) 2002 Hacktarux * * * * 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 2 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, write to the * * Free Software Foundation, Inc., * * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ #include #include "assemble.h" #include "interpret.h" #include "../recomph.h" #include "../recomp.h" #include "../r4300.h" #include "../ops.h" #include "../macros.h" #include "../../memory/memory.h" void genmfc1(void) { #ifdef INTERPRET_MFC1 gencallinterp((unsigned int)MFC1, 0); #else gencheck_cop1_unusable(); mov_eax_memoffs32((unsigned int*)(®_cop1_simple[dst->f.r.nrd])); mov_reg32_preg32(EBX, EAX); mov_m32_reg32((unsigned int*)dst->f.r.rt, EBX); sar_reg32_imm8(EBX, 31); mov_m32_reg32(((unsigned int*)dst->f.r.rt)+1, EBX); #endif } void gendmfc1(void) { #ifdef INTERPRET_DMFC1 gencallinterp((unsigned int)DMFC1, 0); #else gencheck_cop1_unusable(); mov_eax_memoffs32((unsigned int*)(®_cop1_double[dst->f.r.nrd])); mov_reg32_preg32(EBX, EAX); mov_reg32_preg32pimm32(ECX, EAX, 4); mov_m32_reg32((unsigned int*)dst->f.r.rt, EBX); mov_m32_reg32(((unsigned int*)dst->f.r.rt)+1, ECX); #endif } void gencfc1(void) { #ifdef INTERPRET_CFC1 gencallinterp((unsigned int)CFC1, 0); #else gencheck_cop1_unusable(); if(dst->f.r.nrd == 31) mov_eax_memoffs32((unsigned int*)&FCR31); else mov_eax_memoffs32((unsigned int*)&FCR0); mov_memoffs32_eax((unsigned int*)dst->f.r.rt); sar_reg32_imm8(EAX, 31); mov_memoffs32_eax(((unsigned int*)dst->f.r.rt)+1); #endif } void genmtc1(void) { #ifdef INTERPRET_MTC1 gencallinterp((unsigned int)MTC1, 0); #else gencheck_cop1_unusable(); mov_eax_memoffs32((unsigned int*)dst->f.r.rt); mov_reg32_m32(EBX, (unsigned int*)(®_cop1_simple[dst->f.r.nrd])); mov_preg32_reg32(EBX, EAX); #endif } void gendmtc1(void) { #ifdef INTERPRET_DMTC1 gencallinterp((unsigned int)DMTC1, 0); #else gencheck_cop1_unusable(); mov_eax_memoffs32((unsigned int*)dst->f.r.rt); mov_reg32_m32(EBX, ((unsigned int*)dst->f.r.rt)+1); mov_reg32_m32(EDX, (unsigned int*)(®_cop1_double[dst->f.r.nrd])); mov_preg32_reg32(EDX, EAX); mov_preg32pimm32_reg32(EDX, 4, EBX); #endif } void genctc1(void) { #ifdef INTERPRET_CTC1 gencallinterp((unsigned int)CTC1, 0); #else gencheck_cop1_unusable(); if (dst->f.r.nrd != 31) return; mov_eax_memoffs32((unsigned int*)dst->f.r.rt); mov_memoffs32_eax((unsigned int*)&FCR31); and_eax_imm32(3); cmp_eax_imm32(0); jne_rj(12); mov_m32_imm32((unsigned int*)&rounding_mode, 0x33F); // 10 jmp_imm_short(48); // 2 cmp_eax_imm32(1); // 5 jne_rj(12); // 2 mov_m32_imm32((unsigned int*)&rounding_mode, 0xF3F); // 10 jmp_imm_short(29); // 2 cmp_eax_imm32(2); // 5 jne_rj(12); // 2 mov_m32_imm32((unsigned int*)&rounding_mode, 0xB3F); // 10 jmp_imm_short(10); // 2 mov_m32_imm32((unsigned int*)&rounding_mode, 0x73F); // 10 fldcw_m16((unsigned short*)&rounding_mode); #endif }