np2/i386c/ia32/instructions/bin_arith.h - view

File: [RetroPC.NET] / np2 / i386c / ia32 / instructions / bin_arith.h
Revision 1.6: download - view: text, annotated - select for diffs
Thu Dec 29 22:32:13 2011 JST (13 years, 10 months ago) by monaka
Branches: MAIN
CVS tags: HEAD

CPUCALL'fy.

/* * Copyright (c) 2002-2003 NONAKA Kimihiro * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef IA32_CPU_INSTRUCTION_BIN_ARITH_H__ #define IA32_CPU_INSTRUCTION_BIN_ARITH_H__ #ifdef __cplusplus extern "C" { #endif /* ADD */ void ADD_EbGb(void); void ADD_EwGw(void); void ADD_EdGd(void); void ADD_GbEb(void); void ADD_GwEw(void); void ADD_GdEd(void); void ADD_ALIb(void); void ADD_AXIw(void); void ADD_EAXId(void); void CPUCALL ADD_EbIb(UINT8 *, UINT32); void CPUCALL ADD_EwIx(UINT16 *, UINT32); void CPUCALL ADD_EdIx(UINT32 *, UINT32); void CPUCALL ADD_EbIb_ext(UINT32, UINT32); void CPUCALL ADD_EwIx_ext(UINT32, UINT32); void CPUCALL ADD_EdIx_ext(UINT32, UINT32); /* ADC */ void ADC_EbGb(void); void ADC_EwGw(void); void ADC_EdGd(void); void ADC_GbEb(void); void ADC_GwEw(void); void ADC_GdEd(void); void ADC_ALIb(void); void ADC_AXIw(void); void ADC_EAXId(void); void CPUCALL ADC_EbIb(UINT8 *, UINT32); void CPUCALL ADC_EwIx(UINT16 *, UINT32); void CPUCALL ADC_EdIx(UINT32 *, UINT32); void CPUCALL ADC_EbIb_ext(UINT32, UINT32); void CPUCALL ADC_EwIx_ext(UINT32, UINT32); void CPUCALL ADC_EdIx_ext(UINT32, UINT32); /* SUB */ void SUB_EbGb(void); void SUB_EwGw(void); void SUB_EdGd(void); void SUB_GbEb(void); void SUB_GwEw(void); void SUB_GdEd(void); void SUB_ALIb(void); void SUB_AXIw(void); void SUB_EAXId(void); void CPUCALL SUB_EbIb(UINT8 *, UINT32); void CPUCALL SUB_EwIx(UINT16 *, UINT32); void CPUCALL SUB_EdIx(UINT32 *, UINT32); void CPUCALL SUB_EbIb_ext(UINT32, UINT32); void CPUCALL SUB_EwIx_ext(UINT32, UINT32); void CPUCALL SUB_EdIx_ext(UINT32, UINT32); /* SBB */ void SBB_EbGb(void); void SBB_EwGw(void); void SBB_EdGd(void); void SBB_GbEb(void); void SBB_GwEw(void); void SBB_GdEd(void); void SBB_ALIb(void); void SBB_AXIw(void); void SBB_EAXId(void); void CPUCALL SBB_EbIb(UINT8 *, UINT32); void CPUCALL SBB_EwIx(UINT16 *, UINT32); void CPUCALL SBB_EdIx(UINT32 *, UINT32); void CPUCALL SBB_EbIb_ext(UINT32, UINT32); void CPUCALL SBB_EwIx_ext(UINT32, UINT32); void CPUCALL SBB_EdIx_ext(UINT32, UINT32); /* IMUL */ void CPUCALL IMUL_ALEb(UINT32 op); void CPUCALL IMUL_AXEw(UINT32 op); void CPUCALL IMUL_EAXEd(UINT32 op); void IMUL_GwEw(void); void IMUL_GdEd(void); void IMUL_GwEwIb(void); void IMUL_GdEdIb(void); void IMUL_GwEwIw(void); void IMUL_GdEdId(void); /* MUL */ void CPUCALL MUL_ALEb(UINT32 op); void CPUCALL MUL_AXEw(UINT32 op); void CPUCALL MUL_EAXEd(UINT32 op); /* IDIV */ void CPUCALL IDIV_ALEb(UINT32 op); void CPUCALL IDIV_AXEw(UINT32 op); void CPUCALL IDIV_EAXEd(UINT32 op); /* DIV */ void CPUCALL DIV_ALEb(UINT32 op); void CPUCALL DIV_AXEw(UINT32 op); void CPUCALL DIV_EAXEd(UINT32 op); /* INC */ void CPUCALL INC_Eb(UINT32 op); void CPUCALL INC_Ew(UINT32 op); void CPUCALL INC_Ed(UINT32 op); void INC_AX(void); void INC_CX(void); void INC_DX(void); void INC_BX(void); void INC_SP(void); void INC_BP(void); void INC_SI(void); void INC_DI(void); void INC_EAX(void); void INC_ECX(void); void INC_EDX(void); void INC_EBX(void); void INC_ESP(void); void INC_EBP(void); void INC_ESI(void); void INC_EDI(void); /* DEC */ void CPUCALL DEC_Eb(UINT32 op); void CPUCALL DEC_Ew(UINT32 op); void CPUCALL DEC_Ed(UINT32 op); void DEC_AX(void); void DEC_CX(void); void DEC_DX(void); void DEC_BX(void); void DEC_SP(void); void DEC_BP(void); void DEC_SI(void); void DEC_DI(void); void DEC_EAX(void); void DEC_ECX(void); void DEC_EDX(void); void DEC_EBX(void); void DEC_ESP(void); void DEC_EBP(void); void DEC_ESI(void); void DEC_EDI(void); /* NEG */ void CPUCALL NEG_Eb(UINT32 op); void CPUCALL NEG_Ew(UINT32 op); void CPUCALL NEG_Ed(UINT32 op); /* CMP */ void CMP_EbGb(void); void CMP_EwGw(void); void CMP_EdGd(void); void CMP_GbEb(void); void CMP_GwEw(void); void CMP_GdEd(void); void CMP_ALIb(void); void CMP_AXIw(void); void CMP_EAXId(void); void CPUCALL CMP_EbIb(UINT8 *, UINT32); void CPUCALL CMP_EwIx(UINT16 *, UINT32); void CPUCALL CMP_EdIx(UINT32 *, UINT32); void CPUCALL CMP_EbIb_ext(UINT32, UINT32); void CPUCALL CMP_EwIx_ext(UINT32, UINT32); void CPUCALL CMP_EdIx_ext(UINT32, UINT32); #ifdef __cplusplus } #endif #endif /* IA32_CPU_INSTRUCTION_BIN_ARITH_H__ */