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version 1.9, 2004/02/05 16:41:32
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version 1.25, 2004/04/05 12:02:30
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| #ifndef NP2_MEMORY_ASM |
#ifndef NP2_MEMORY_ASM |
| |
|
| #include "cpucore.h" |
#include "cpucore.h" |
| #include "memory.h" |
|
| #include "egcmem.h" |
#include "egcmem.h" |
| |
#include "mem9821.h" |
| #include "pccore.h" |
#include "pccore.h" |
| #include "iocore.h" |
#include "iocore.h" |
| #include "vram.h" |
#include "vram.h" |
|
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| BYTE mem[0x200000]; |
BYTE mem[0x200000]; |
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|
| |
|
| #define USE_HIMEM 0x110000 |
|
| |
|
| // ---- write byte |
// ---- write byte |
| |
|
| static void MEMCALL i286_wt(UINT32 address, REG8 value) { |
static void MEMCALL i286_wt(UINT32 address, REG8 value) { // MAIN |
| |
|
| mem[address & CPU_ADRSMASK] = (BYTE)value; |
mem[address & CPU_ADRSMASK] = (BYTE)value; |
| } |
} |
| |
|
| static void MEMCALL tram_wt(UINT32 address, REG8 value) { |
static void MEMCALL tram_wt(UINT32 address, REG8 value) { // TRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_TRAM; |
CPU_REMCLOCK -= MEMWAIT_TRAM; |
| if (address < 0xa2000) { |
if (address < 0xa2000) { |
|
Line 55 static void MEMCALL tram_wt(UINT32 addre
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Line 53 static void MEMCALL tram_wt(UINT32 addre
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| } |
} |
| } |
} |
| |
|
| static void MEMCALL vram_w0(UINT32 address, REG8 value) { |
static void MEMCALL vram_w0(UINT32 address, REG8 value) { // VRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_VRAM; |
CPU_REMCLOCK -= MEMWAIT_VRAM; |
| mem[address] = (BYTE)value; |
mem[address] = (BYTE)value; |
|
Line 63 static void MEMCALL vram_w0(UINT32 addre
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Line 61 static void MEMCALL vram_w0(UINT32 addre
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| gdcs.grphdisp |= 1; |
gdcs.grphdisp |= 1; |
| } |
} |
| |
|
| static void MEMCALL vram_w1(UINT32 address, REG8 value) { |
static void MEMCALL vram_w1(UINT32 address, REG8 value) { // VRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_VRAM; |
CPU_REMCLOCK -= MEMWAIT_VRAM; |
| mem[address + VRAM_STEP] = (BYTE)value; |
mem[address + VRAM_STEP] = (BYTE)value; |
|
Line 71 static void MEMCALL vram_w1(UINT32 addre
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Line 69 static void MEMCALL vram_w1(UINT32 addre
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| gdcs.grphdisp |= 2; |
gdcs.grphdisp |= 2; |
| } |
} |
| |
|
| static void MEMCALL grcg_rmw0(UINT32 address, REG8 value) { |
static void MEMCALL grcg_rmw0(UINT32 address, REG8 value) { // VRAM |
| |
|
| REG8 mask; |
REG8 mask; |
| BYTE *vram; |
BYTE *vram; |
|
Line 100 static void MEMCALL grcg_rmw0(UINT32 add
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Line 98 static void MEMCALL grcg_rmw0(UINT32 add
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| } |
} |
| } |
} |
| |
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| static void MEMCALL grcg_rmw1(UINT32 address, REG8 value) { |
static void MEMCALL grcg_rmw1(UINT32 address, REG8 value) { // VRAM |
| |
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| REG8 mask; |
REG8 mask; |
| BYTE *vram; |
BYTE *vram; |
|
Line 129 static void MEMCALL grcg_rmw1(UINT32 add
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Line 127 static void MEMCALL grcg_rmw1(UINT32 add
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| } |
} |
| } |
} |
| |
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| static void MEMCALL grcg_tdw0(UINT32 address, REG8 value) { |
static void MEMCALL grcg_tdw0(UINT32 address, REG8 value) { // VRAM |
| |
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| BYTE *vram; |
BYTE *vram; |
| |
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Line 153 static void MEMCALL grcg_tdw0(UINT32 add
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Line 151 static void MEMCALL grcg_tdw0(UINT32 add
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| (void)value; |
(void)value; |
| } |
} |
| |
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| static void MEMCALL grcg_tdw1(UINT32 address, REG8 value) { |
static void MEMCALL grcg_tdw1(UINT32 address, REG8 value) { // VRAM |
| |
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| BYTE *vram; |
BYTE *vram; |
| |
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Line 177 static void MEMCALL grcg_tdw1(UINT32 add
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Line 175 static void MEMCALL grcg_tdw1(UINT32 add
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| (void)value; |
(void)value; |
| } |
} |
| |
|
| static void MEMCALL egc_wt(UINT32 address, REG8 value) { |
static void MEMCALL egc_wt(UINT32 address, REG8 value) { // VRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_GRCG; |
CPU_REMCLOCK -= MEMWAIT_GRCG; |
| egc_write(address, value); |
egc_write(address, value); |
| } |
} |
| |
|
| static void MEMCALL i286_wb(UINT32 address, REG8 value) { |
static void MEMCALL emmc_wt(UINT32 address, REG8 value) { // EMS |
| |
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CPU_EMSPTR[(address >> 14) & 3][LOW14(address)] = (BYTE)value; |
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} |
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static void MEMCALL i286_wd(UINT32 address, REG8 value) { // D000〜DFFF |
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if (CPU_RAM_D000 & (1 << ((address >> 12) & 15))) { |
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mem[address] = (BYTE)value; |
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} |
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} |
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static void MEMCALL i286_wb(UINT32 address, REG8 value) { // F800〜FFFF |
| |
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| mem[address + 0x1c8000 - 0xe8000] = (BYTE)value; |
mem[address + 0x1c8000 - 0xe8000] = (BYTE)value; |
| } |
} |
| |
|
| static void MEMCALL i286_wn(UINT32 address, REG8 value) { |
static void MEMCALL i286_wn(UINT32 address, REG8 value) { // NONE |
| |
|
| (void)address; |
(void)address; |
| (void)value; |
(void)value; |
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Line 197 static void MEMCALL i286_wn(UINT32 addre
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Line 207 static void MEMCALL i286_wn(UINT32 addre
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| |
|
| // ---- read byte |
// ---- read byte |
| |
|
| static REG8 MEMCALL i286_rd(UINT32 address) { |
static REG8 MEMCALL i286_rd(UINT32 address) { // MAIN |
| |
|
| return(mem[address & CPU_ADRSMASK]); |
return(mem[address & CPU_ADRSMASK]); |
| } |
} |
| |
|
| static REG8 MEMCALL tram_rd(UINT32 address) { |
static REG8 MEMCALL tram_rd(UINT32 address) { // TRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_TRAM; |
CPU_REMCLOCK -= MEMWAIT_TRAM; |
| if (address < 0xa4000) { |
if (address < 0xa4000) { |
|
Line 219 static REG8 MEMCALL tram_rd(UINT32 addre
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Line 229 static REG8 MEMCALL tram_rd(UINT32 addre
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| return(mem[address]); |
return(mem[address]); |
| } |
} |
| |
|
| static REG8 MEMCALL vram_r0(UINT32 address) { |
static REG8 MEMCALL vram_r0(UINT32 address) { // VRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_VRAM; |
CPU_REMCLOCK -= MEMWAIT_VRAM; |
| return(mem[address]); |
return(mem[address]); |
| } |
} |
| |
|
| static REG8 MEMCALL vram_r1(UINT32 address) { |
static REG8 MEMCALL vram_r1(UINT32 address) { // VRAM |
| |
|
| CPU_REMCLOCK -= MEMWAIT_VRAM; |
CPU_REMCLOCK -= MEMWAIT_VRAM; |
| return(mem[address + VRAM_STEP]); |
return(mem[address + VRAM_STEP]); |
| } |
} |
| |
|
| static REG8 MEMCALL grcg_tcr0(UINT32 address) { |
static REG8 MEMCALL grcg_tcr0(UINT32 address) { // VRAM |
| |
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| const BYTE *vram; |
const BYTE *vram; |
| REG8 ret; |
REG8 ret; |
|
Line 254 const BYTE *vram;
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Line 264 const BYTE *vram;
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| return(ret ^ 0xff); |
return(ret ^ 0xff); |
| } |
} |
| |
|
| static REG8 MEMCALL grcg_tcr1(UINT32 address) { |
static REG8 MEMCALL grcg_tcr1(UINT32 address) { // VRAM |
| |
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| const BYTE *vram; |
const BYTE *vram; |
| REG8 ret; |
REG8 ret; |
|
Line 277 const BYTE *vram;
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Line 287 const BYTE *vram;
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| return(ret ^ 0xff); |
return(ret ^ 0xff); |
| } |
} |
| |
|
| static REG8 MEMCALL egc_rd(UINT32 address) { |
static REG8 MEMCALL egc_rd(UINT32 address) { // VRAM |
| |
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| CPU_REMCLOCK -= MEMWAIT_GRCG; |
CPU_REMCLOCK -= MEMWAIT_GRCG; |
| return(egc_read(address)); |
return(egc_read(address)); |
| } |
} |
| |
|
| static REG8 MEMCALL i286_rb(UINT32 address) { |
static REG8 MEMCALL emmc_rd(UINT32 address) { // EMS |
| |
|
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return(CPU_EMSPTR[(address >> 14) & 3][LOW14(address)]); |
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} |
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|
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static REG8 MEMCALL i286_rb(UINT32 address) { // F800-FFFF |
| |
|
| if (CPU_ITFBANK) { |
if (CPU_ITFBANK) { |
| address += VRAM_STEP; |
address += VRAM_STEP; |
|
Line 440 static void MEMCALL grcgw_tdw1(UINT32 ad
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Line 455 static void MEMCALL grcgw_tdw1(UINT32 ad
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| static void MEMCALL egcw_wt(UINT32 address, REG16 value) { |
static void MEMCALL egcw_wt(UINT32 address, REG16 value) { |
| |
|
| CPU_REMCLOCK -= MEMWAIT_GRCG; |
CPU_REMCLOCK -= MEMWAIT_GRCG; |
| if (!(address & 1)) { |
egc_write_w(address, value); |
| egc_write_w(address, value); |
} |
| |
|
| |
static void MEMCALL emmcw_wt(UINT32 address, REG16 value) { |
| |
|
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BYTE *ptr; |
| |
|
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if ((address & 0x3fff) != 0x3fff) { |
| |
ptr = CPU_EMSPTR[(address >> 14) & 3] + LOW14(address); |
| |
STOREINTELWORD(ptr, value); |
| } |
} |
| else { |
else { |
| if (!(egc.sft & 0x1000)) { |
CPU_EMSPTR[(address >> 14) & 3][0x3fff] = (BYTE)value; |
| egc_write(address, (REG8)value); |
CPU_EMSPTR[((address + 1) >> 14) & 3][0] = (BYTE)(value >> 8); |
| egc_write(address + 1, (REG8)(value >> 8)); |
} |
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} |
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static void MEMCALL i286w_wd(UINT32 address, REG16 value) { |
| |
|
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BYTE *ptr; |
| |
UINT16 bit; |
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ptr = mem + address; |
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bit = 1 << ((address >> 12) & 15); |
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if ((address + 1) & 0xfff) { |
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if (CPU_RAM_D000 & bit) { |
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STOREINTELWORD(ptr, value); |
| } |
} |
| else { |
} |
| egc_write(address + 1, (REG8)(value >> 8)); |
else { |
| egc_write(address, (REG8)value); |
if (CPU_RAM_D000 & bit) { |
| |
ptr[0] = (UINT8)value; |
| |
} |
| |
if (CPU_RAM_D000 & (bit << 1)) { |
| |
ptr[1] = (UINT8)(value >> 8); |
| } |
} |
| } |
} |
| } |
} |
| |
|
| static void MEMCALL i286w_wb(UINT32 address, REG16 value) { |
static void MEMCALL i286w_wb(UINT32 address, REG16 value) { |
| |
|
| mem[address + 0x1c8000 - 0xe8000] = (BYTE)value; |
BYTE *ptr; |
| mem[address + 0x1c8001 - 0xe8000] = (BYTE)(value >> 8); |
|
| |
ptr = mem + (address + 0x1c8000 - 0xe8000); |
| |
STOREINTELWORD(ptr, value); |
| } |
} |
| |
|
| static void MEMCALL i286w_wn(UINT32 address, REG16 value) { |
static void MEMCALL i286w_wn(UINT32 address, REG16 value) { |
|
Line 567 static REG16 MEMCALL grcgw_tcr1(UINT32 a
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Line 608 static REG16 MEMCALL grcgw_tcr1(UINT32 a
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| |
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| static REG16 MEMCALL egcw_rd(UINT32 address) { |
static REG16 MEMCALL egcw_rd(UINT32 address) { |
| |
|
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CPU_REMCLOCK -= MEMWAIT_GRCG; |
| |
return(egc_read_w(address)); |
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} |
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static REG16 MEMCALL emmcw_rd(UINT32 address) { |
| |
|
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const BYTE *ptr; |
| REG16 ret; |
REG16 ret; |
| |
|
| CPU_REMCLOCK -= MEMWAIT_GRCG; |
if ((address & 0x3fff) != 0x3fff) { |
| if (!(address & 1)) { |
ptr = CPU_EMSPTR[(address >> 14) & 3] + LOW14(address); |
| return(egc_read_w(address)); |
return(LOADINTELWORD(ptr)); |
| } |
} |
| else { |
else { |
| if (!(egc.sft & 0x1000)) { |
ret = CPU_EMSPTR[(address >> 14) & 3][0x3fff]; |
| ret = egc_read(address); |
ret += CPU_EMSPTR[((address + 1) >> 14) & 3][0] << 8; |
| ret += egc_read(address + 1) << 8; |
return(ret); |
| return(ret); |
|
| } |
|
| else { |
|
| ret = egc_read(address + 1) << 8; |
|
| ret += egc_read(address); |
|
| return(ret); |
|
| } |
|
| } |
} |
| } |
} |
| |
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Line 611 typedef struct {
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Line 652 typedef struct {
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| } MEMFN; |
} MEMFN; |
| |
|
| typedef struct { |
typedef struct { |
| MEM8READ brd8; |
MEM8READ brd8; // E8000-F7FFF byte read |
| MEM8READ ird8; |
MEM8READ ird8; // F8000-FFFFF byte read |
| MEM8WRITE ewr8; |
MEM8WRITE bwr8; // E8000-FFFFF byte write |
| MEM8WRITE bwr8; |
MEM16READ brd16; // E8000-F7FFF word read |
| MEM16READ brd16; |
MEM16READ ird16; // F8000-FFFFF word read |
| MEM16READ ird16; |
MEM16WRITE bwr16; // F8000-FFFFF word write |
| MEM16WRITE ewr16; |
|
| MEM16WRITE bwr16; |
|
| } MMAPTBL; |
} MMAPTBL; |
| |
|
| typedef struct { |
typedef struct { |
|
Line 635 static MEMFN memfn = {
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Line 674 static MEMFN memfn = {
|
| i286_rd, i286_rd, i286_rd, i286_rd, // 60 |
i286_rd, i286_rd, i286_rd, i286_rd, // 60 |
| i286_rd, i286_rd, i286_rd, i286_rd, // 80 |
i286_rd, i286_rd, i286_rd, i286_rd, // 80 |
| tram_rd, vram_r0, vram_r0, vram_r0, // a0 |
tram_rd, vram_r0, vram_r0, vram_r0, // a0 |
| i286_rd, i286_rd, i286_rd, i286_rd, // c0 |
emmc_rd, emmc_rd, i286_rd, i286_rd, // c0 |
| vram_r0, i286_rd, i286_rd, i286_rb}, // e0 |
vram_r0, i286_rd, i286_rd, i286_rb}, // e0 |
| |
|
| {i286_wt, i286_wt, i286_wt, i286_wt, // 00 |
{i286_wt, i286_wt, i286_wt, i286_wt, // 00 |
|
Line 644 static MEMFN memfn = {
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Line 683 static MEMFN memfn = {
|
| i286_wt, i286_wt, i286_wt, i286_wt, // 60 |
i286_wt, i286_wt, i286_wt, i286_wt, // 60 |
| i286_wt, i286_wt, i286_wt, i286_wt, // 80 |
i286_wt, i286_wt, i286_wt, i286_wt, // 80 |
| tram_wt, vram_w0, vram_w0, vram_w0, // a0 |
tram_wt, vram_w0, vram_w0, vram_w0, // a0 |
| i286_wn, i286_wn, i286_wn, i286_wn, // c0 |
emmc_wt, emmc_wt, i286_wd, i286_wd, // c0 |
| vram_w0, i286_wn, i286_wn, i286_wn}, // e0 |
vram_w0, i286_wn, i286_wn, i286_wn}, // e0 |
| |
|
| {i286w_rd, i286w_rd, i286w_rd, i286w_rd, // 00 |
{i286w_rd, i286w_rd, i286w_rd, i286w_rd, // 00 |
|
Line 653 static MEMFN memfn = {
|
Line 692 static MEMFN memfn = {
|
| i286w_rd, i286w_rd, i286w_rd, i286w_rd, // 60 |
i286w_rd, i286w_rd, i286w_rd, i286w_rd, // 60 |
| i286w_rd, i286w_rd, i286w_rd, i286w_rd, // 80 |
i286w_rd, i286w_rd, i286w_rd, i286w_rd, // 80 |
| tramw_rd, vramw_r0, vramw_r0, vramw_r0, // a0 |
tramw_rd, vramw_r0, vramw_r0, vramw_r0, // a0 |
| i286w_rd, i286w_rd, i286w_rd, i286w_rd, // c0 |
emmcw_rd, emmcw_rd, i286w_rd, i286w_rd, // c0 |
| vramw_r0, i286w_rd, i286w_rd, i286w_rb}, // e0 |
vramw_r0, i286w_rd, i286w_rd, i286w_rb}, // e0 |
| |
|
| {i286w_wt, i286w_wt, i286w_wt, i286w_wt, // 00 |
{i286w_wt, i286w_wt, i286w_wt, i286w_wt, // 00 |
|
Line 662 static MEMFN memfn = {
|
Line 701 static MEMFN memfn = {
|
| i286w_wt, i286w_wt, i286w_wt, i286w_wt, // 60 |
i286w_wt, i286w_wt, i286w_wt, i286w_wt, // 60 |
| i286w_wt, i286w_wt, i286w_wt, i286w_wt, // 80 |
i286w_wt, i286w_wt, i286w_wt, i286w_wt, // 80 |
| tramw_wt, vramw_w0, vramw_w0, vramw_w0, // a0 |
tramw_wt, vramw_w0, vramw_w0, vramw_w0, // a0 |
| i286w_wn, i286w_wn, i286w_wn, i286w_wn, // c0 |
emmcw_wt, emmcw_wt, i286w_wd, i286w_wd, // c0 |
| vramw_w0, i286w_wn, i286w_wn, i286w_wn}}; // e0 |
vramw_w0, i286w_wn, i286w_wn, i286w_wn}}; // e0 |
| |
|
| static const MMAPTBL mmaptbl[2] = { |
static const MMAPTBL mmaptbl[2] = { |
| {i286_rd, i286_rb, i286_wn, i286_wn, |
{i286_rd, i286_rb, i286_wn, |
| i286w_rd, i286w_rb, i286w_wn, i286w_wn}, |
i286w_rd, i286w_rb, i286w_wn}, |
| {i286_rb, i286_rb, i286_wt, i286_wb, |
{i286_rb, i286_rb, i286_wb, |
| i286w_rb, i286w_rb, i286w_wt, i286w_wb}}; |
i286w_rb, i286w_rb, i286w_wb}}; |
| |
|
| static const VACCTBL vacctbl[0x10] = { |
static const VACCTBL vacctbl[0x10] = { |
| {vram_r0, vram_w0, vramw_r0, vramw_w0}, // 00 |
{vram_r0, vram_w0, vramw_r0, vramw_w0}, // 00 |
|
Line 712 const MMAPTBL *mm;
|
Line 751 const MMAPTBL *mm;
|
| memfn.rd8[0xe8000 >> 15] = mm->brd8; |
memfn.rd8[0xe8000 >> 15] = mm->brd8; |
| memfn.rd8[0xf0000 >> 15] = mm->brd8; |
memfn.rd8[0xf0000 >> 15] = mm->brd8; |
| memfn.rd8[0xf8000 >> 15] = mm->ird8; |
memfn.rd8[0xf8000 >> 15] = mm->ird8; |
| |
|
| memfn.wr8[0xd0000 >> 15] = mm->ewr8; |
|
| memfn.wr8[0xd8000 >> 15] = mm->ewr8; |
|
| memfn.wr8[0xe8000 >> 15] = mm->bwr8; |
memfn.wr8[0xe8000 >> 15] = mm->bwr8; |
| memfn.wr8[0xf0000 >> 15] = mm->bwr8; |
memfn.wr8[0xf0000 >> 15] = mm->bwr8; |
| memfn.wr8[0xf8000 >> 15] = mm->bwr8; |
memfn.wr8[0xf8000 >> 15] = mm->bwr8; |
|
Line 722 const MMAPTBL *mm;
|
Line 758 const MMAPTBL *mm;
|
| memfn.rd16[0xe8000 >> 15] = mm->brd16; |
memfn.rd16[0xe8000 >> 15] = mm->brd16; |
| memfn.rd16[0xf0000 >> 15] = mm->brd16; |
memfn.rd16[0xf0000 >> 15] = mm->brd16; |
| memfn.rd16[0xf8000 >> 15] = mm->ird16; |
memfn.rd16[0xf8000 >> 15] = mm->ird16; |
| |
|
| memfn.wr16[0xd0000 >> 15] = mm->ewr16; |
|
| memfn.wr16[0xd8000 >> 15] = mm->ewr16; |
|
| memfn.wr16[0xe8000 >> 15] = mm->bwr16; |
memfn.wr16[0xe8000 >> 15] = mm->bwr16; |
| memfn.wr16[0xf0000 >> 15] = mm->bwr16; |
memfn.wr16[0xf0000 >> 15] = mm->bwr16; |
| memfn.wr16[0xf8000 >> 15] = mm->bwr16; |
memfn.wr16[0xf8000 >> 15] = mm->bwr16; |
|
Line 734 void MEMCALL i286_vram_dispatch(UINT fun
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Line 767 void MEMCALL i286_vram_dispatch(UINT fun
|
| |
|
| const VACCTBL *vacc; |
const VACCTBL *vacc; |
| |
|
| vacc = vacctbl + (func & 0x0f); |
#if defined(SUPPORT_PC9821) |
| |
if (!(func & 0x20)) { |
| memfn.rd8[0xa8000 >> 15] = vacc->rd8; |
#endif |
| memfn.rd8[0xb0000 >> 15] = vacc->rd8; |
vacc = vacctbl + (func & 0x0f); |
| memfn.rd8[0xb8000 >> 15] = vacc->rd8; |
memfn.rd8[0xa8000 >> 15] = vacc->rd8; |
| memfn.rd8[0xe0000 >> 15] = vacc->rd8; |
memfn.rd8[0xb0000 >> 15] = vacc->rd8; |
| |
memfn.rd8[0xb8000 >> 15] = vacc->rd8; |
| memfn.wr8[0xa8000 >> 15] = vacc->wr8; |
memfn.rd8[0xe0000 >> 15] = vacc->rd8; |
| memfn.wr8[0xb0000 >> 15] = vacc->wr8; |
|
| memfn.wr8[0xb8000 >> 15] = vacc->wr8; |
memfn.wr8[0xa8000 >> 15] = vacc->wr8; |
| memfn.wr8[0xe0000 >> 15] = vacc->wr8; |
memfn.wr8[0xb0000 >> 15] = vacc->wr8; |
| |
memfn.wr8[0xb8000 >> 15] = vacc->wr8; |
| memfn.rd16[0xa8000 >> 15] = vacc->rd16; |
memfn.wr8[0xe0000 >> 15] = vacc->wr8; |
| memfn.rd16[0xb0000 >> 15] = vacc->rd16; |
|
| memfn.rd16[0xb8000 >> 15] = vacc->rd16; |
memfn.rd16[0xa8000 >> 15] = vacc->rd16; |
| memfn.rd16[0xe0000 >> 15] = vacc->rd16; |
memfn.rd16[0xb0000 >> 15] = vacc->rd16; |
| |
memfn.rd16[0xb8000 >> 15] = vacc->rd16; |
| memfn.wr16[0xa8000 >> 15] = vacc->wr16; |
memfn.rd16[0xe0000 >> 15] = vacc->rd16; |
| memfn.wr16[0xb0000 >> 15] = vacc->wr16; |
|
| memfn.wr16[0xb8000 >> 15] = vacc->wr16; |
memfn.wr16[0xa8000 >> 15] = vacc->wr16; |
| memfn.wr16[0xe0000 >> 15] = vacc->wr16; |
memfn.wr16[0xb0000 >> 15] = vacc->wr16; |
| |
memfn.wr16[0xb8000 >> 15] = vacc->wr16; |
| if (!(func & 0x10)) { // digital |
memfn.wr16[0xe0000 >> 15] = vacc->wr16; |
| memfn.wr8[0xe0000 >> 15] = i286_wn; |
|
| memfn.wr16[0xe0000 >> 15] = i286w_wn; |
if (!(func & 0x10)) { // digital |
| memfn.rd8[0xe0000 >> 15] = i286_nonram_r; |
memfn.wr8[0xe0000 >> 15] = i286_wn; |
| memfn.rd16[0xe0000 >> 15] = i286_nonram_rw; |
memfn.wr16[0xe0000 >> 15] = i286w_wn; |
| |
memfn.rd8[0xe0000 >> 15] = i286_nonram_r; |
| |
memfn.rd16[0xe0000 >> 15] = i286_nonram_rw; |
| |
} |
| |
#if defined(SUPPORT_PC9821) |
| } |
} |
| |
else { |
| |
memfn.rd8[0xa8000 >> 15] = mem9821_b0r; |
| |
memfn.rd8[0xb0000 >> 15] = mem9821_b0r; |
| |
memfn.rd8[0xb8000 >> 15] = i286_nonram_r; |
| |
memfn.rd8[0xe0000 >> 15] = mem9821_b2r; |
| |
|
| |
memfn.wr8[0xa8000 >> 15] = mem9821_b0w; |
| |
memfn.wr8[0xb0000 >> 15] = mem9821_b0w; |
| |
memfn.wr8[0xb8000 >> 15] = i286_wn; |
| |
memfn.wr8[0xe0000 >> 15] = mem9821_b2w; |
| |
|
| |
memfn.rd16[0xa8000 >> 15] = mem9821_b0rw; |
| |
memfn.rd16[0xb0000 >> 15] = mem9821_b0rw; |
| |
memfn.rd16[0xb8000 >> 15] = i286_nonram_rw; |
| |
memfn.rd16[0xe0000 >> 15] = mem9821_b2rw; |
| |
|
| |
memfn.wr16[0xa8000 >> 15] = mem9821_b0ww; |
| |
memfn.wr16[0xb0000 >> 15] = mem9821_b0ww; |
| |
memfn.wr16[0xb8000 >> 15] = i286w_wn; |
| |
memfn.wr16[0xe0000 >> 15] = mem9821_b2ww; |
| |
} |
| |
#endif |
| } |
} |
| |
|
| |
|
| REG8 MEMCALL i286_memoryread(UINT32 paddr) { |
REG8 MEMCALL i286_memoryread(UINT32 addr) { |
| |
|
| UINT32 address = paddr & CPU_ADRSMASK; |
UINT32 pos; |
| |
|
| if (address < I286_MEMREADMAX) { |
if (addr < I286_MEMREADMAX) { |
| return(mem[address]); |
return(mem[addr]); |
| } |
} |
| else if (address >= USE_HIMEM) { |
else if (addr >= USE_HIMEM) { |
| address -= 0x100000; |
pos = (addr & CPU_ADRSMASK) - 0x100000; |
| if (address < CPU_EXTMEMSIZE) { |
if (pos < CPU_EXTMEMSIZE) { |
| return(CPU_EXTMEM[address]); |
return(CPU_EXTMEM[pos]); |
| |
} |
| |
else if ((addr >= 0x00fa0000) && (addr < 0x01000000)) { |
| |
return(memfn.rd8[(addr >> 15) & 0x1f](addr - 0x00f00000)); |
| } |
} |
| |
#if defined(SUPPORT_PC9821) |
| |
else if ((addr >= 0x00f00000) && (addr < 0x00f80000)) { |
| |
return(mem9821_r(addr)); |
| |
} |
| |
else if ((addr >= 0xfff00000) && (addr < 0xfff80000)) { |
| |
return(mem9821_r(addr)); |
| |
} |
| |
#endif |
| else { |
else { |
| |
// TRACEOUT(("out of mem (read8): %x", addr)); |
| return(0xff); |
return(0xff); |
| } |
} |
| } |
} |
| else { |
else { |
| return(memfn.rd8[(address >> 15) & 0x1f](address)); |
return(memfn.rd8[(addr >> 15) & 0x1f](addr)); |
| } |
} |
| } |
} |
| |
|
| REG16 MEMCALL i286_memoryread_w(UINT32 paddr) { |
REG16 MEMCALL i286_memoryread_w(UINT32 addr) { |
| |
|
| UINT32 address = paddr & CPU_ADRSMASK; |
UINT32 pos; |
| REG16 ret; |
REG16 ret; |
| |
|
| if (address < (I286_MEMREADMAX - 1)) { |
if (addr < (I286_MEMREADMAX - 1)) { |
| return(LOADINTELWORD(mem + address)); |
return(LOADINTELWORD(mem + addr)); |
| } |
} |
| else if (address >= (USE_HIMEM - 1)) { |
else if ((addr + 1) & 0x7fff) { // non 32kb boundary |
| address -= 0x100000; |
if (addr >= USE_HIMEM) { |
| if (address == (USE_HIMEM - 0x100000 - 1)) { |
pos = (addr & CPU_ADRSMASK) - 0x100000; |
| ret = mem[0x100000 + address]; |
if (pos < CPU_EXTMEMSIZE) { |
| } |
return(LOADINTELWORD(CPU_EXTMEM + pos)); |
| else if (address < CPU_EXTMEMSIZE) { |
} |
| ret = CPU_EXTMEM[address]; |
else if ((addr >= 0x00fa0000) && (addr < 0x01000000)) { |
| } |
return(memfn.rd16[(addr >> 15) & 0x1f](addr - 0x00f00000)); |
| else { |
} |
| ret = 0xff; |
#if defined(SUPPORT_PC9821) |
| } |
else if ((addr >= 0x00f00000) && (addr < 0x00f80000)) { |
| address++; |
return(mem9821_rw(addr)); |
| if (address < CPU_EXTMEMSIZE) { |
} |
| ret += CPU_EXTMEM[address] << 8; |
else if ((addr >= 0xfff00000) && (addr < 0xfff80000)) { |
| } |
return(mem9821_rw(addr)); |
| else { |
} |
| ret += 0xff00; |
#endif |
| |
else { |
| |
// TRACEOUT(("out of mem (read16): %x", addr)); |
| |
return(0xffff); |
| |
} |
| } |
} |
| return(ret); |
return(memfn.rd16[(addr >> 15) & 0x1f](addr)); |
| } |
|
| else if ((address & 0x7fff) != 0x7fff) { |
|
| return(memfn.rd16[(address >> 15) & 0x1f](address)); |
|
| } |
} |
| else { |
else { |
| ret = memfn.rd8[(address >> 15) & 0x1f](address); |
ret = i286_memoryread(addr); |
| address++; |
ret += (REG16)(i286_memoryread(addr + 1) << 8); |
| ret += (REG16)(memfn.rd8[(address >> 15) & 0x1f](address)) << 8; |
|
| return(ret); |
return(ret); |
| } |
} |
| } |
} |
| |
|
| UINT32 MEMCALL i286_memoryread_d(UINT32 paddr) { |
UINT32 MEMCALL i286_memoryread_d(UINT32 addr) { |
| |
|
| UINT32 address = paddr & CPU_ADRSMASK; |
UINT32 pos; |
| UINT32 adrs; |
|
| UINT32 ret; |
UINT32 ret; |
| |
|
| if (address < (I286_MEMREADMAX - 3)) { |
if (addr < (I286_MEMREADMAX - 3)) { |
| return(LOADINTELDWORD(mem + address)); |
return(LOADINTELDWORD(mem + addr)); |
| } |
} |
| else if (address >= USE_HIMEM) { |
else if (addr >= USE_HIMEM) { |
| adrs = address - 0x100000; |
pos = (addr & CPU_ADRSMASK) - 0x100000; |
| if (adrs + 3 < CPU_EXTMEMSIZE) { |
if ((pos + 3) < CPU_EXTMEMSIZE) { |
| return(LOADINTELDWORD(CPU_EXTMEM + adrs)); |
return(LOADINTELDWORD(CPU_EXTMEM + pos)); |
| } |
} |
| } |
} |
| ret = i286_memoryread_w(address); |
if (!(addr & 1)) { |
| ret += (UINT32)i286_memoryread_w(address + 2) << 16; |
ret = i286_memoryread_w(addr); |
| return ret; |
ret += (UINT32)i286_memoryread_w(addr + 2) << 16; |
| |
} |
| |
else { |
| |
ret = i286_memoryread(addr); |
| |
ret += (UINT32)i286_memoryread_w(addr + 1) << 8; |
| |
ret += (UINT32)i286_memoryread(addr + 3) << 24; |
| |
} |
| |
return(ret); |
| } |
} |
| |
|
| void MEMCALL i286_memorywrite(UINT32 paddr, REG8 value) { |
void MEMCALL i286_memorywrite(UINT32 addr, REG8 value) { |
| |
|
| UINT32 address = paddr & CPU_ADRSMASK; |
UINT32 pos; |
| |
|
| if (address < I286_MEMWRITEMAX) { |
if (addr < I286_MEMWRITEMAX) { |
| mem[address] = (BYTE)value; |
mem[addr] = (BYTE)value; |
| } |
} |
| else if (address >= USE_HIMEM) { |
else if (addr >= USE_HIMEM) { |
| address -= 0x100000; |
pos = (addr & CPU_ADRSMASK) - 0x100000; |
| if (address < CPU_EXTMEMSIZE) { |
if (pos < CPU_EXTMEMSIZE) { |
| CPU_EXTMEM[address] = (BYTE)value; |
CPU_EXTMEM[pos] = (BYTE)value; |
| |
} |
| |
else if ((addr >= 0x00fa0000) && (addr < 0x01000000)) { |
| |
memfn.wr8[(addr >> 15) & 0x1f](addr - 0x00f00000, value); |
| |
} |
| |
#if defined(SUPPORT_PC9821) |
| |
else if ((addr >= 0x00f00000) && (addr < 0x00f80000)) { |
| |
mem9821_w(addr, value); |
| |
} |
| |
else if ((addr >= 0xfff00000) && (addr < 0xfff80000)) { |
| |
mem9821_w(addr, value); |
| |
} |
| |
#endif |
| |
else { |
| |
// TRACEOUT(("out of mem (write8): %x", addr)); |
| } |
} |
| } |
} |
| else { |
else { |
| memfn.wr8[(address >> 15) & 0x1f](address, value); |
memfn.wr8[(addr >> 15) & 0x1f](addr, value); |
| } |
} |
| } |
} |
| |
|
| void MEMCALL i286_memorywrite_w(UINT32 paddr, REG16 value) { |
void MEMCALL i286_memorywrite_w(UINT32 addr, REG16 value) { |
| |
|
| UINT32 address = paddr & CPU_ADRSMASK; |
UINT32 pos; |
| |
|
| if (address < (I286_MEMWRITEMAX - 1)) { |
if (addr < (I286_MEMWRITEMAX - 1)) { |
| STOREINTELWORD(mem + address, value); |
STOREINTELWORD(mem + addr, value); |
| } |
} |
| else if (address >= (USE_HIMEM - 1)) { |
else if ((addr + 1) & 0x7fff) { // non 32kb boundary |
| address -= 0x100000; |
if (addr >= USE_HIMEM) { |
| if (address == (USE_HIMEM - 0x100000 - 1)) { |
pos = (addr & CPU_ADRSMASK) - 0x100000; |
| mem[address] = (BYTE)value; |
if (pos < CPU_EXTMEMSIZE) { |
| } |
STOREINTELWORD(CPU_EXTMEM + pos, value); |
| else if (address < CPU_EXTMEMSIZE) { |
} |
| CPU_EXTMEM[address] = (BYTE)value; |
else if ((addr >= 0x00fa0000) && (addr < 0x01000000)) { |
| |
memfn.wr16[(addr >> 15) & 0x1f](addr - 0x00f00000, value); |
| |
} |
| |
#if defined(SUPPORT_PC9821) |
| |
else if ((addr >= 0x00f00000) && (addr < 0x00f80000)) { |
| |
mem9821_ww(addr, value); |
| |
} |
| |
else if ((addr >= 0xfff00000) && (addr < 0xfff80000)) { |
| |
mem9821_ww(addr, value); |
| |
} |
| |
#endif |
| |
else { |
| |
// TRACEOUT(("out of mem (write16): %x", addr)); |
| |
} |
| } |
} |
| address++; |
else { |
| if (address < CPU_EXTMEMSIZE) { |
memfn.wr16[(addr >> 15) & 0x1f](addr, value); |
| CPU_EXTMEM[address] = (BYTE)(value >> 8); |
|
| } |
} |
| } |
} |
| else if ((address & 0x7fff) != 0x7fff) { |
|
| memfn.wr16[(address >> 15) & 0x1f](address, value); |
|
| } |
|
| else { |
else { |
| memfn.wr8[(address >> 15) & 0x1f](address, (BYTE)value); |
i286_memorywrite(addr, (UINT8)value); |
| address++; |
i286_memorywrite(addr + 1, (UINT8)(value >> 8)); |
| memfn.wr8[(address >> 15) & 0x1f](address, (BYTE)(value >> 8)); |
|
| } |
} |
| } |
} |
| |
|
| void MEMCALL i286_memorywrite_d(UINT32 paddr, UINT32 value) { |
void MEMCALL i286_memorywrite_d(UINT32 addr, UINT32 value) { |
| |
|
| UINT32 address = paddr & CPU_ADRSMASK; |
UINT32 pos; |
| UINT32 adrs; |
|
| |
|
| if (address < (I286_MEMWRITEMAX - 3)) { |
if (addr < (I286_MEMWRITEMAX - 3)) { |
| STOREINTELDWORD(mem + address, value); |
STOREINTELDWORD(mem + addr, value); |
| return; |
return; |
| } |
} |
| else if (address >= USE_HIMEM) { |
else if (addr >= USE_HIMEM) { |
| adrs = address - 0x100000; |
pos = (addr & CPU_ADRSMASK) - 0x100000; |
| if (adrs + 3 < CPU_EXTMEMSIZE) { |
if ((pos + 3) < CPU_EXTMEMSIZE) { |
| STOREINTELDWORD(CPU_EXTMEM + adrs, value); |
STOREINTELDWORD(CPU_EXTMEM + pos, value); |
| return; |
return; |
| } |
} |
| } |
} |
| i286_memorywrite_w(address, value & 0xffff); |
if (!(addr & 1)) { |
| i286_memorywrite_w(address + 2, (WORD)(value >> 16)); |
i286_memorywrite_w(addr, (UINT16)value); |
| |
i286_memorywrite_w(addr + 2, (UINT16)(value >> 16)); |
| |
} |
| |
else { |
| |
i286_memorywrite(addr, (UINT8)value); |
| |
i286_memorywrite_w(addr + 1, (UINT16)(value >> 8)); |
| |
i286_memorywrite(addr + 3, (UINT8)(value >> 24)); |
| |
} |
| } |
} |
| |
|
| #if 0 |
#if 0 |
|
Line 967 void MEMCALL i286_memword_write(UINT seg
|
Line 1072 void MEMCALL i286_memword_write(UINT seg
|
| } |
} |
| #endif |
#endif |
| |
|
| void MEMCALL i286_memstr_read(UINT seg, UINT off, void *dat, UINT leng) { |
void MEMCALL memp_read(UINT32 address, void *dat, UINT leng) { |
| |
|
| BYTE *out; |
BYTE *out = (BYTE *)dat; |
| UINT32 adrs; |
UINT pos; |
| UINT size; |
UINT diff; |
| |
|
| out = (BYTE *)dat; |
/* fast memory access */ |
| adrs = seg << 4; |
if (address + leng < I286_MEMREADMAX) { |
| off = LOW16(off); |
CopyMemory(dat, mem + address, leng); |
| if ((I286_MEMREADMAX >= 0x10000) && |
return; |
| (adrs < (I286_MEMREADMAX - 0x10000))) { |
} else if (address >= USE_HIMEM) { |
| if (leng) { |
pos = (address & CPU_ADRSMASK) - 0x100000; |
| size = 0x10000 - off; |
if (pos + leng < CPU_EXTMEMSIZE) { |
| if (size >= leng) { |
CopyMemory(dat, CPU_EXTMEM + pos, leng); |
| CopyMemory(out, mem + adrs + off, leng); |
return; |
| return; |
|
| } |
|
| CopyMemory(out, mem + adrs + off, size); |
|
| out += size; |
|
| leng -= size; |
|
| } |
|
| while(leng >= 0x10000) { |
|
| CopyMemory(out, mem + adrs, 0x10000); |
|
| out += 0x10000; |
|
| leng -= 0x10000; |
|
| } |
} |
| if (leng) { |
if (pos < CPU_EXTMEMSIZE) { |
| CopyMemory(out, mem + adrs, leng); |
diff = CPU_EXTMEMSIZE - pos; |
| |
CopyMemory(out, CPU_EXTMEM + pos, diff); |
| |
out += diff; |
| |
leng -= diff; |
| |
address += diff; |
| } |
} |
| } |
} |
| else { |
|
| while(leng--) { |
/* slow memory access */ |
| *out++ = i286_memoryread(adrs + off); |
while (leng-- > 0) { |
| off = LOW16(off + 1); |
*out++ = i286_memoryread(address++); |
| } |
|
| } |
} |
| } |
} |
| |
|
| void MEMCALL i286_memstr_write(UINT seg, UINT off, |
void MEMCALL memp_write(UINT32 address, const void *dat, UINT leng) { |
| const void *dat, UINT leng) { |
|
| |
|
| BYTE *out; |
const BYTE *out = (BYTE *)dat; |
| UINT32 adrs; |
UINT pos; |
| UINT size; |
UINT diff; |
| |
|
| out = (BYTE *)dat; |
/* fast memory access */ |
| adrs = seg << 4; |
if (address + leng < I286_MEMREADMAX) { |
| off = LOW16(off); |
CopyMemory(mem + address, dat, leng); |
| if ((I286_MEMWRITEMAX >= 0x10000) && |
return; |
| (adrs < (I286_MEMWRITEMAX - 0x10000))) { |
} else if (address >= USE_HIMEM) { |
| if (leng) { |
pos = (address & CPU_ADRSMASK) - 0x100000; |
| size = 0x10000 - off; |
if (pos + leng < CPU_EXTMEMSIZE) { |
| if (size >= leng) { |
CopyMemory(CPU_EXTMEM + pos, dat, leng); |
| CopyMemory(mem + adrs + off, out, leng); |
return; |
| return; |
|
| } |
|
| CopyMemory(mem + adrs + off, out, size); |
|
| out += size; |
|
| leng -= size; |
|
| } |
|
| while(leng >= 0x10000) { |
|
| CopyMemory(mem + adrs, out, 0x10000); |
|
| out += 0x10000; |
|
| leng -= 0x10000; |
|
| } |
} |
| if (leng) { |
if (pos < CPU_EXTMEMSIZE) { |
| CopyMemory(mem + adrs, out, leng); |
diff = CPU_EXTMEMSIZE - pos; |
| |
CopyMemory(CPU_EXTMEM + pos, dat, diff); |
| |
out += diff; |
| |
leng -= diff; |
| |
address += diff; |
| } |
} |
| } |
} |
| |
|
| |
/* slow memory access */ |
| |
while (leng-- > 0) { |
| |
i286_memorywrite(address++, *out++); |
| |
} |
| |
} |
| |
|
| |
|
| |
// ---- Logical Space (BIOS) |
| |
|
| |
static UINT32 physicaladdr(UINT32 addr, BOOL wr) { |
| |
|
| |
UINT32 a; |
| |
UINT32 pde; |
| |
UINT32 pte; |
| |
|
| |
a = CPU_STAT_PDE_BASE + ((addr >> 20) & 0xffc); |
| |
pde = i286_memoryread_d(a); |
| |
if (!(pde & CPU_PDE_PRESENT)) { |
| |
goto retdummy; |
| |
} |
| |
if (!(pde & CPU_PDE_ACCESS)) { |
| |
i286_memorywrite(a, (UINT8)(pde | CPU_PDE_ACCESS)); |
| |
} |
| |
a = (pde & CPU_PDE_BASEADDR_MASK) + ((addr >> 10) & 0xffc); |
| |
pte = cpu_memoryread_d(a); |
| |
if (!(pte & CPU_PTE_PRESENT)) { |
| |
goto retdummy; |
| |
} |
| |
if (!(pte & CPU_PTE_ACCESS)) { |
| |
i286_memorywrite(a, (UINT8)(pte | CPU_PTE_ACCESS)); |
| |
} |
| |
if ((wr) && (!(pte & CPU_PTE_DIRTY))) { |
| |
i286_memorywrite(a, (UINT8)(pte | CPU_PTE_DIRTY)); |
| |
} |
| |
addr = (pte & CPU_PTE_BASEADDR_MASK) + (addr & 0x00000fff); |
| |
return(addr); |
| |
|
| |
retdummy: |
| |
return(0x01000000); // てきとーにメモリが存在しない場所 |
| |
} |
| |
|
| |
|
| |
REG8 MEMCALL meml_read8(UINT seg, UINT off) { |
| |
|
| |
UINT32 addr; |
| |
|
| |
addr = (seg << 4) + LOW16(off); |
| |
if (CPU_STAT_PAGING) { |
| |
addr = physicaladdr(addr, FALSE); |
| |
} |
| |
return(i286_memoryread(addr)); |
| |
} |
| |
|
| |
REG16 MEMCALL meml_read16(UINT seg, UINT off) { |
| |
|
| |
UINT32 addr; |
| |
|
| |
addr = (seg << 4) + LOW16(off); |
| |
if (!CPU_STAT_PAGING) { |
| |
return(i286_memoryread_w(addr)); |
| |
} |
| |
else if ((addr + 1) & 0xfff) { |
| |
return(i286_memoryread_w(physicaladdr(addr, FALSE))); |
| |
} |
| |
return(meml_read8(seg, off) + (meml_read8(seg, off + 1) << 8)); |
| |
} |
| |
|
| |
void MEMCALL meml_write8(UINT seg, UINT off, REG8 dat) { |
| |
|
| |
UINT32 addr; |
| |
|
| |
addr = (seg << 4) + LOW16(off); |
| |
if (CPU_STAT_PAGING) { |
| |
addr = physicaladdr(addr, TRUE); |
| |
} |
| |
i286_memorywrite(addr, dat); |
| |
} |
| |
|
| |
void MEMCALL meml_write16(UINT seg, UINT off, REG16 dat) { |
| |
|
| |
UINT32 addr; |
| |
|
| |
addr = (seg << 4) + LOW16(off); |
| |
if (!CPU_STAT_PAGING) { |
| |
i286_memorywrite_w(addr, dat); |
| |
} |
| |
else if ((addr + 1) & 0xfff) { |
| |
i286_memorywrite_w(physicaladdr(addr, TRUE), dat); |
| |
} |
| else { |
else { |
| while(leng--) { |
meml_write8(seg, off, (REG8)dat); |
| i286_memorywrite(adrs + off, *out++); |
meml_write8(seg, off + 1, (REG8)(dat >> 8)); |
| off = LOW16(off + 1); |
|
| } |
|
| } |
} |
| } |
} |
| |
|
| void MEMCALL i286_memx_read(UINT32 address, void *dat, UINT leng) { |
void MEMCALL meml_readstr(UINT seg, UINT off, void *dat, UINT leng) { |
| |
|
| if ((address + leng) < I286_MEMREADMAX) { |
UINT32 addr; |
| CopyMemory(dat, mem + address, leng); |
UINT rem; |
| |
UINT size; |
| |
|
| |
while(leng) { |
| |
off = LOW16(off); |
| |
addr = (seg << 4) + off; |
| |
rem = 0x10000 - off; |
| |
size = min(leng, rem); |
| |
if (CPU_STAT_PAGING) { |
| |
rem = 0x1000 - (addr & 0xfff); |
| |
size = min(size, rem); |
| |
addr = physicaladdr(addr, FALSE); |
| |
} |
| |
memp_read(addr, dat, size); |
| |
off += size; |
| |
dat = ((BYTE *)dat) + size; |
| |
leng -= size; |
| |
} |
| |
} |
| |
|
| |
void MEMCALL meml_writestr(UINT seg, UINT off, const void *dat, UINT leng) { |
| |
|
| |
UINT32 addr; |
| |
UINT rem; |
| |
UINT size; |
| |
|
| |
while(leng) { |
| |
off = LOW16(off); |
| |
addr = (seg << 4) + off; |
| |
rem = 0x10000 - off; |
| |
size = min(leng, rem); |
| |
if (CPU_STAT_PAGING) { |
| |
rem = 0x1000 - (addr & 0xfff); |
| |
size = min(size, rem); |
| |
addr = physicaladdr(addr, TRUE); |
| |
} |
| |
memp_write(addr, dat, size); |
| |
off += size; |
| |
dat = ((BYTE *)dat) + size; |
| |
leng -= size; |
| |
} |
| |
} |
| |
|
| |
void MEMCALL meml_read(UINT32 address, void *dat, UINT leng) { |
| |
|
| |
UINT size; |
| |
|
| |
if (!CPU_STAT_PAGING) { |
| |
memp_read(address, dat, leng); |
| } |
} |
| else { |
else { |
| BYTE *out = (BYTE *)dat; |
while(leng) { |
| if (address < I286_MEMREADMAX) { |
size = 0x1000 - (address & 0xfff); |
| CopyMemory(out, mem + address, I286_MEMREADMAX - address); |
size = min(size, leng); |
| out += I286_MEMREADMAX - address; |
memp_read(physicaladdr(address, FALSE), dat, size); |
| leng -= I286_MEMREADMAX - address; |
address += size; |
| address = I286_MEMREADMAX; |
dat = ((BYTE *)dat) + size; |
| } |
leng -= size; |
| while(leng--) { |
|
| *out++ = i286_memoryread(address++); |
|
| } |
} |
| } |
} |
| } |
} |
| |
|
| void MEMCALL i286_memx_write(UINT32 address, const void *dat, UINT leng) { |
void MEMCALL meml_write(UINT32 address, const void *dat, UINT leng) { |
| |
|
| const BYTE *out; |
UINT size; |
| |
|
| if ((address + leng) < I286_MEMWRITEMAX) { |
if (!CPU_STAT_PAGING) { |
| CopyMemory(mem + address, dat, leng); |
memp_write(address, dat, leng); |
| } |
} |
| else { |
else { |
| out = (BYTE *)dat; |
while(leng) { |
| if (address < I286_MEMWRITEMAX) { |
size = 0x1000 - (address & 0xfff); |
| CopyMemory(mem + address, out, I286_MEMWRITEMAX - address); |
size = min(size, leng); |
| out += I286_MEMWRITEMAX - address; |
memp_write(physicaladdr(address, TRUE), dat, size); |
| leng -= I286_MEMWRITEMAX - address; |
address += size; |
| address = I286_MEMWRITEMAX; |
dat = ((BYTE *)dat) + size; |
| } |
leng -= size; |
| while(leng--) { |
|
| i286_memorywrite(address++, *out++); |
|
| } |
} |
| } |
} |
| } |
} |
| #endif |
#endif |
| |
|
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