gsplus/src/op_routs.h
Dagen Brock d9dde67041 uhm
2016-02-07 23:01:25 -06:00

473 lines
10 KiB
C

/*
GSPLUS - Advanced Apple IIGS Emulator Environment
Copyright (C) 2016 - Dagen Brock
Copyright (C) 2010 by GSport contributors
Based on the KEGS emulator written by and Copyright (C) 2003 Kent Dickey
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.,
59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifdef ASM
.import get_mem_b0_16,code
.import get_mem_b0_8,code
.export op_routs_start,data
op_routs_start .word 0
#endif /* ASM */
#ifdef ASM
# define CMP_INDEX_REG_MEAT8(index_reg) \
extru ret0,31,8,ret0 ! \
ldi 0xff,scratch3 ! \
subi 0x100,ret0,ret0 ! \
add index_reg,ret0,ret0 ! \
extru ret0,23,1,scratch1 ! \
and ret0,scratch3,zero ! \
extru ret0,24,1,neg ! \
b dispatch ! \
dep scratch1,31,1,psr
# define CMP_INDEX_REG_MEAT16(index_reg) \
extru ret0,31,16,ret0 ! \
ldil l%0x10000,scratch2 ! \
zdepi -1,31,16,scratch3 ! \
sub scratch2,ret0,ret0 ! \
add index_reg,ret0,ret0 ! \
extru ret0,15,1,scratch1 ! \
and ret0,scratch3,zero ! \
extru ret0,16,1,neg ! \
b dispatch ! \
dep scratch1,31,1,psr
# define CMP_INDEX_REG_LOAD(new_label, index_reg) \
bb,>=,n psr,27,new_label ! \
bl get_mem_long_8,link ! \
nop ! \
CMP_INDEX_REG_MEAT8(index_reg) ! \
.label new_label ! \
bl get_mem_long_16,link ! \
nop ! \
CMP_INDEX_REG_MEAT16(index_reg)
#endif
#ifdef ASM
#define GET_DLOC_X_IND_WR() \
CYCLES_PLUS_1 ! \
add xreg,direct,scratch2 ! \
INC_KPC_2 ! \
add scratch2,arg0,arg0 ! \
bl get_mem_b0_direct_page_16,link ! \
extru arg0,31,16,arg0 ! \
copy ret0,arg0 ! \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
dep dbank,15,8,arg0
#else /* C */
# define GET_DLOC_X_IND_WR() \
CYCLES_PLUS_1; \
INC_KPC_2; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
arg = arg + xreg + direct; \
GET_MEMORY_DIRECT_PAGE16(arg & 0xffff, arg); \
arg = (dbank << 16) + arg;
#endif
#ifdef ASM
# define GET_DLOC_X_IND_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_X_IND_WR()
#else /* C */
# define GET_DLOC_X_IND_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_X_IND_WR()
#endif
#ifdef ASM
# define GET_DISP8_S_WR() \
CYCLES_PLUS_1 ! \
add stack,arg0,arg0 ! \
INC_KPC_2 ! \
extru arg0,31,16,arg0
#else /* C */
#define GET_DISP8_S_WR() \
CYCLES_PLUS_1; \
arg = (arg + stack) & 0xffff; \
INC_KPC_2;
#endif
#ifdef ASM
# define GET_DISP8_S_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DISP8_S_WR()
#else /* C */
# define GET_DISP8_S_ADDR() \
GET_1BYTE_ARG; \
GET_DISP8_S_WR()
#endif
#ifdef ASM
# define GET_DLOC_WR() \
INC_KPC_2 ! \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
add direct,arg0,arg0 ! \
extru arg0,31,16,arg0
#else /* C */
# define GET_DLOC_WR() \
arg = (arg + direct) & 0xffff; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
INC_KPC_2;
#endif
#ifdef ASM
# define GET_DLOC_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_WR()
#else /* C */
# define GET_DLOC_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_WR()
#endif
#ifdef ASM
# define GET_DLOC_L_IND_WR() \
INC_KPC_2 ! \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
add direct,arg0,arg0 ! \
bl get_mem_b0_24,link ! \
extru arg0,31,16,arg0 ! \
copy ret0,arg0
#else /* C */
# define GET_DLOC_L_IND_WR() \
arg = (arg + direct) & 0xffff; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
INC_KPC_2; \
GET_MEMORY24(arg, arg, 1);
#endif
#ifdef ASM
# define GET_DLOC_L_IND_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_L_IND_WR()
#else /* C */
# define GET_DLOC_L_IND_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_L_IND_WR()
#endif
#ifdef ASM
# define GET_DLOC_IND_Y_ADDR_FOR_WR() \
ldb 1(scratch1),arg0 ! \
CYCLES_PLUS_1 ! \
GET_DLOC_IND_Y_WR_SPECIAL()
#else /* C */
# define GET_DLOC_IND_Y_ADDR_FOR_WR() \
GET_1BYTE_ARG; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
GET_MEMORY_DIRECT_PAGE16((direct + arg) & 0xffff, tmp1); \
tmp1 += (dbank << 16); \
arg = tmp1 + yreg; \
CYCLES_PLUS_1; \
INC_KPC_2;
#endif
#ifdef ASM
# define GET_DLOC_IND_WR() \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
INC_KPC_2 ! \
add direct,arg0,arg0 ! \
bl get_mem_b0_direct_page_16,link ! \
extru arg0,31,16,arg0 ! \
copy ret0,arg0 ! \
dep dbank,15,16,arg0
#else /* C */
# define GET_DLOC_IND_WR() \
INC_KPC_2; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
GET_MEMORY_DIRECT_PAGE16((direct + arg) & 0xffff, arg); \
arg = (dbank << 16) + arg;
#endif
#ifdef ASM
# define GET_DLOC_IND_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_IND_WR()
#else
# define GET_DLOC_IND_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_IND_WR();
#endif
#ifdef ASM
#define GET_DLOC_INDEX_WR(index_reg) \
GET_DLOC_INDEX_WR_A(index_reg) ! GET_DLOC_INDEX_WR_B(index_reg)
#define GET_DLOC_INDEX_WR_A(index_reg) \
CYCLES_PLUS_1 ! \
add index_reg,direct,scratch2 ! \
extru direct,23,8,scratch1 ! \
INC_KPC_2 ! \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
bb,>= psr,23,.+16 ! \
/* 4*/ add scratch2,arg0,arg0 ! \
/* 8*/ extru,<> direct,31,8,0 ! \
/*12*/ dep scratch1,23,8,arg0
/* GET_DLOC_INDeX_WR_B must be exactly one instruction! */
#define GET_DLOC_INDEX_WR_B(index_reg) \
/*16*/ extru arg0,31,16,arg0
#define GET_DLOC_Y_WR() \
GET_DLOC_INDEX_WR(yreg)
#define GET_DLOC_X_WR() \
GET_DLOC_INDEX_WR(xreg)
#define GET_DLOC_Y_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_Y_WR()
# define GET_DLOC_X_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_X_WR()
#else
# define GET_DLOC_INDEX_WR(index_reg) \
CYCLES_PLUS_1; \
arg = (arg & 0xff) + index_reg; \
INC_KPC_2; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
if((psr & 0x100) && ((direct & 0xff) == 0)) { \
arg = (arg & 0xff); \
} \
arg = (arg + direct) & 0xffff;
# define GET_DLOC_X_WR() \
GET_DLOC_INDEX_WR(xreg)
# define GET_DLOC_Y_WR() \
GET_DLOC_INDEX_WR(yreg)
# define GET_DLOC_X_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_INDEX_WR(xreg)
# define GET_DLOC_Y_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_INDEX_WR(yreg)
#endif
#ifdef ASM
# define GET_DISP8_S_IND_Y_WR() \
add stack,arg0,arg0 ! \
bl get_mem_b0_16,link ! \
extru arg0,31,16,arg0 ! \
dep dbank,15,16,ret0 ! \
CYCLES_PLUS_2 ! \
add ret0,yreg,arg0 ! \
INC_KPC_2 ! \
extru arg0,31,24,arg0
# define GET_DISP8_S_IND_Y_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DISP8_S_IND_Y_WR()
#else /* C */
# define GET_DISP8_S_IND_Y_WR() \
arg = (stack + arg) & 0xffff; \
GET_MEMORY16(arg,arg,1); \
CYCLES_PLUS_2; \
arg += (dbank << 16); \
INC_KPC_2; \
arg = (arg + yreg) & 0xffffff;
# define GET_DISP8_S_IND_Y_ADDR() \
GET_1BYTE_ARG; \
GET_DISP8_S_IND_Y_WR()
#endif
#ifdef ASM
# define GET_DLOC_L_IND_Y_WR() \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
INC_KPC_2 ! \
add direct,arg0,arg0 ! \
bl get_mem_b0_24,link ! \
extru arg0,31,16,arg0 ! \
add ret0,yreg,arg0 ! \
extru arg0,31,24,arg0
# define GET_DLOC_L_IND_Y_ADDR() \
ldb 1(scratch1),arg0 ! \
GET_DLOC_L_IND_Y_WR()
#else /* C */
# define GET_DLOC_L_IND_Y_WR() \
arg = (direct + arg) & 0xffff; \
if(direct & 0xff) { \
CYCLES_PLUS_1; \
} \
GET_MEMORY24(arg,arg,1); \
INC_KPC_2; \
arg = (arg + yreg) & 0xffffff;
# define GET_DLOC_L_IND_Y_ADDR() \
GET_1BYTE_ARG; \
GET_DLOC_L_IND_Y_WR()
#endif
#ifdef ASM
# define GET_ABS_ADDR() \
ldb 1(scratch1),arg0 ! \
ldb 2(scratch1),scratch1 ! \
CYCLES_PLUS_1 ! \
dep dbank,15,8,arg0 ! \
INC_KPC_3 ! \
dep scratch1,23,8,arg0
# define GET_LONG_ADDR() \
ldb 1(scratch1),arg0 ! \
ldb 2(scratch1),scratch2 ! \
CYCLES_PLUS_2 ! \
ldb 3(scratch1),scratch1 ! \
INC_KPC_4 ! \
dep scratch2,23,8,arg0 ! \
dep scratch1,15,8,arg0
#else /* C */
# define GET_ABS_ADDR() \
GET_2BYTE_ARG; \
CYCLES_PLUS_1; \
arg = arg + (dbank << 16); \
INC_KPC_3;
# define GET_LONG_ADDR() \
GET_3BYTE_ARG; \
CYCLES_PLUS_2; \
INC_KPC_4;
#endif
#ifdef ASM
#define GET_ABS_INDEX_ADDR_FOR_WR(index_reg) \
ldb 1(scratch1),arg0 ! \
copy index_reg,scratch3 ! \
ldb 2(scratch1),scratch2 ! \
dep dbank,15,8,scratch3 ! \
INC_KPC_3 ! \
dep scratch2,23,8,arg0 ! \
CYCLES_PLUS_2 ! \
add arg0,scratch3,arg0 ! \
extru arg0,31,24,arg0
#define GET_LONG_X_ADDR_FOR_WR() \
ldb 3(scratch1),scratch2 ! \
copy xreg,scratch3 ! \
ldb 1(scratch1),arg0 ! \
ldb 2(scratch1),scratch1 ! \
CYCLES_PLUS_2 ! \
dep scratch2,15,8,scratch3 ! \
INC_KPC_4 ! \
dep scratch1,23,8,arg0 ! \
add arg0,scratch3,arg0 ! \
extru arg0,31,24,arg0
#else /* C */
#define GET_ABS_INDEX_ADDR_FOR_WR(index_reg) \
GET_2BYTE_ARG; \
arg = arg + (dbank << 16); \
INC_KPC_3; \
CYCLES_PLUS_2; \
arg = (arg + index_reg) & 0xffffff;
#define GET_LONG_X_ADDR_FOR_WR() \
GET_3BYTE_ARG; \
INC_KPC_4; \
arg = (arg + xreg) & 0xffffff; \
CYCLES_PLUS_2;
#endif /* ASM */
#ifdef ASM
.export op_routs_end,data
op_routs_end .word 0
#define GET_DLOC_IND_Y_WR_SPECIAL() \
add direct,arg0,arg0 ! \
extru,= direct,31,8,0 ! \
CYCLES_PLUS_1 ! \
bl get_mem_b0_direct_page_16,link ! \
extru arg0,31,16,arg0 ! \
dep dbank,15,8,ret0 ! \
INC_KPC_2 ! \
add yreg,ret0,arg0 /* don't change this instr */
/* or add any after */
/* to preserve ret0 & arg0 */
/* cycle calc: if yreg is 16bit or carry into 2nd byte, inc cycle */
/* So, if y==16bit, add 1. If x==8bit, add 1 if carry */
get_dloc_ind_y_rd_8
stw link,STACK_SAVE_OP_LINK(sp)
GET_DLOC_IND_Y_WR_SPECIAL()
xor arg0,ret0,scratch1
extru,= psr,27,1,0
extru,= scratch1,23,8,0
CYCLES_PLUS_1
b get_mem_long_8
ldw STACK_SAVE_OP_LINK(sp),link
get_dloc_ind_y_rd_16
stw link,STACK_SAVE_OP_LINK(sp)
GET_DLOC_IND_Y_WR_SPECIAL()
xor arg0,ret0,scratch1
extru,= psr,27,1,0
extru,= scratch1,23,8,0
CYCLES_PLUS_1
b get_mem_long_16
ldw STACK_SAVE_OP_LINK(sp),link
#endif /* ASM */