/** * Mupen64 - r4300/x86_64/gcop1_s.c * Copyright (C) 2007 Richard Goedeken, Hacktarux * Based on code written by Hacktarux, Copyright (C) 2002 * * Mupen64 homepage: http://mupen64.emulation64.com * Forum homepage: http://www.emutalk.net/forumdisplay.php?f=50 * * This program is free software; you can redistribute it and/ * or modify it under the terms of the GNU General Public Li- * cence as published by the Free Software Foundation; either * version 2 of the Licence, or any later version. * * This program is distributed in the hope that it will be use- * ful, but WITHOUT ANY WARRANTY; without even the implied war- * ranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public Licence for more details. * * You should have received a copy of the GNU General Public * Licence along with this program; if not, write to the Free * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, * USA. * **/ #include #include "../recomph.h" #include "assemble.h" #include "../r4300.h" #include "../ops.h" #include "../macros.h" #include "interpret.h" void genadd_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[119]); #endif #ifdef INTERPRET_ADD_S gencallinterp((unsigned long long)ADD_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fadd_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void gensub_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[120]); #endif #ifdef INTERPRET_SUB_S gencallinterp((unsigned long long)SUB_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fsub_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void genmul_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[121]); #endif #ifdef INTERPRET_MUL_S gencallinterp((unsigned long long)MUL_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fmul_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void gendiv_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[122]); #endif #ifdef INTERPRET_DIV_S gencallinterp((unsigned long long)DIV_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fdiv_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void gensqrt_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[123]); #endif #ifdef INTERPRET_SQRT_S gencallinterp((unsigned long long)SQRT_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fsqrt(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void genabs_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[124]); #endif #ifdef INTERPRET_ABS_S gencallinterp((unsigned long long)ABS_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fabs_(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void genmov_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[125]); #endif #ifdef INTERPRET_MOV_S gencallinterp((unsigned long long)MOV_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); mov_reg32_preg64(EBX, RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); mov_preg64_reg32(RAX, EBX); #endif } void genneg_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[126]); #endif #ifdef INTERPRET_NEG_S gencallinterp((unsigned long long)NEG_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fchs(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fstp_preg64_dword(RAX); #endif } void genround_l_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[127]); #endif #ifdef INTERPRET_ROUND_L_S gencallinterp((unsigned long long)ROUND_L_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&round_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_double[dst->f.cf.fd])); fistp_preg64_qword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void gentrunc_l_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[128]); #endif #ifdef INTERPRET_TRUNC_L_S gencallinterp((unsigned long long)TRUNC_L_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&trunc_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_double[dst->f.cf.fd])); fistp_preg64_qword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void genceil_l_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[129]); #endif #ifdef INTERPRET_CEIL_L_S gencallinterp((unsigned long long)CEIL_L_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&ceil_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_double[dst->f.cf.fd])); fistp_preg64_qword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void genfloor_l_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[130]); #endif #ifdef INTERPRET_FLOOR_L_S gencallinterp((unsigned long long)FLOOR_L_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&floor_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_double[dst->f.cf.fd])); fistp_preg64_qword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void genround_w_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[127]); #endif #ifdef INTERPRET_ROUND_W_S gencallinterp((unsigned long long)ROUND_W_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&round_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fistp_preg64_dword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void gentrunc_w_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[128]); #endif #ifdef INTERPRET_TRUNC_W_S gencallinterp((unsigned long long)TRUNC_W_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&trunc_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fistp_preg64_dword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void genceil_w_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[129]); #endif #ifdef INTERPRET_CEIL_W_S gencallinterp((unsigned long long)CEIL_W_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&ceil_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fistp_preg64_dword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void genfloor_w_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[130]); #endif #ifdef INTERPRET_FLOOR_W_S gencallinterp((unsigned long long)FLOOR_W_S, 0); #else gencheck_cop1_unusable(); fldcw_m16abs((unsigned short*)&floor_mode); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fistp_preg64_dword(RAX); fldcw_m16abs((unsigned short*)&rounding_mode); #endif } void gencvt_d_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[117]); #endif #ifdef INTERPRET_CVT_D_S gencallinterp((unsigned long long)CVT_D_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_double[dst->f.cf.fd])); fstp_preg64_qword(RAX); #endif } void gencvt_w_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[117]); #endif #ifdef INTERPRET_CVT_W_S gencallinterp((unsigned long long)CVT_W_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fd])); fistp_preg64_dword(RAX); #endif } void gencvt_l_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[117]); #endif #ifdef INTERPRET_CVT_L_S gencallinterp((unsigned long long)CVT_L_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_double[dst->f.cf.fd])); fistp_preg64_qword(RAX); #endif } void genc_f_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_F_S gencallinterp((unsigned long long)C_F_S, 0); #else gencheck_cop1_unusable(); and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); #endif } void genc_un_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_UN_S gencallinterp((unsigned long long)C_UN_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); jp_rj(13); and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 jmp_imm_short(11); // 2 or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 #endif } void genc_eq_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_EQ_S gencallinterp((unsigned long long)C_EQ_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); jne_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_ueq_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_UEQ_S gencallinterp((unsigned long long)C_UEQ_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); jp_rj(15); jne_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_olt_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_OLT_S gencallinterp((unsigned long long)C_OLT_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); jae_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_ult_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_ULT_S gencallinterp((unsigned long long)C_ULT_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); jp_rj(15); jae_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_ole_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_OLE_S gencallinterp((unsigned long long)C_OLE_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); ja_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_ule_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_ULE_S gencallinterp((unsigned long long)C_ULE_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fucomip_fpreg(1); ffree_fpreg(0); jp_rj(15); ja_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_sf_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_SF_S gencallinterp((unsigned long long)C_SF_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); #endif } void genc_ngle_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_NGLE_S gencallinterp((unsigned long long)C_NGLE_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); jp_rj(13); and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 jmp_imm_short(11); // 2 or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 #endif } void genc_seq_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_SEQ_S gencallinterp((unsigned long long)C_SEQ_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); jne_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_ngl_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_NGL_S gencallinterp((unsigned long long)C_NGL_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); jp_rj(15); jne_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_lt_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_LT_S gencallinterp((unsigned long long)C_LT_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); jae_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_nge_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_NGE_S gencallinterp((unsigned long long)C_NGE_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); jp_rj(15); jae_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_le_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_LE_S gencallinterp((unsigned long long)C_LE_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); ja_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif } void genc_ngt_s() { #if defined(COUNT_INSTR) inc_m32abs(&instr_count[118]); #endif #ifdef INTERPRET_C_NGT_S gencallinterp((unsigned long long)C_NGT_S, 0); #else gencheck_cop1_unusable(); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.ft])); fld_preg64_dword(RAX); mov_reg64_m64abs(RAX, (unsigned long long *)(®_cop1_simple[dst->f.cf.fs])); fld_preg64_dword(RAX); fcomip_fpreg(1); ffree_fpreg(0); jp_rj(15); ja_rj(13); or_m32abs_imm32((unsigned int*)&FCR31, 0x800000); // 11 jmp_imm_short(11); // 2 and_m32abs_imm32((unsigned int*)&FCR31, ~0x800000); // 11 #endif }