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version 1.13, 2004/02/07 21:23:22
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version 1.17, 2004/02/14 07:56:51
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Line 6
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Line 6
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| #include "vram.h" |
#include "vram.h" |
| #include "palettes.h" |
#include "palettes.h" |
| #include "gdc_cmd.tbl" |
#include "gdc_cmd.tbl" |
| |
#include "timing.h" |
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|
| |
|
| #define SEARHC_SYNC |
#define SEARCH_SYNC |
| #define TURE_SYNC |
#define TURE_SYNC |
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|
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typedef struct { |
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UINT32 clock; |
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UINT minx; |
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UINT maxx; |
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UINT miny; |
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UINT maxy; |
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} GDCCLK; |
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|
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static const GDCCLK gdcclk[] = { |
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{14318180 / 8, 112 - 8, 112 + 8, 200, 300}, |
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{21052600 / 8, 106 - 6, 106 + 6, 400, 575}, |
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{25056815 / 8, 106 - 6, 106 + 6, 400, 575}, |
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{25175000 / 8, 100 - 4, 100 + 4, 400, 575}}; |
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|
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|
| static const UINT8 defdegpal[4] = {0x04,0x15,0x26,0x37}; |
static const UINT8 defdegpal[4] = {0x04,0x15,0x26,0x37}; |
| static const UINT8 defsync15[8] = {0x10,0x4e,0x07,0x25,0x0d,0x0f,0xc8,0x94}; |
|
| static const UINT8 defsync24[8] = {0x10,0x4e,0x07,0x25,0x07,0x07,0x90,0x65}; |
static const UINT8 defsyncm15[8] = {0x10,0x4e,0x07,0x25,0x0d,0x0f,0xc8,0x94}; |
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static const UINT8 defsyncs15[8] = {0x06,0x26,0x03,0x11,0x86,0x0f,0xc8,0x94}; |
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static const UINT8 defsyncm24[8] = {0x10,0x4e,0x07,0x25,0x07,0x07,0x90,0x65}; |
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static const UINT8 defsyncs24[8] = {0x06,0x26,0x03,0x11,0x83,0x07,0x90,0x65}; |
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|
| |
|
| void gdc_setdegitalpal(int color, REG8 value) { |
void gdc_setdegitalpal(int color, REG8 value) { |
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Line 96 void gdc_paletteinit(void) {
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Line 115 void gdc_paletteinit(void) {
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| |
|
| static void vectdraw(void) { |
static void vectdraw(void) { |
| |
|
| UINT32 csrw; |
UINT32 csrw; |
| UINT16 textw; |
const GDCVECT *vect; |
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REG16 textw; |
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REG8 ope; |
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|
| csrw = LOADINTELDWORD(gdc.s.para + GDC_CSRW); |
csrw = LOADINTELDWORD(gdc.s.para + GDC_CSRW); |
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vect = (GDCVECT *)(gdc.s.para + GDC_VECTW); |
| textw = LOADINTELWORD(gdc.s.para + GDC_TEXTW); |
textw = LOADINTELWORD(gdc.s.para + GDC_TEXTW); |
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ope = gdc.s.para[GDC_WRITE]; |
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|
| if (gdc.s.para[GDC_VECTW] & 0x8) { |
if (vect->ope & 0x08) { |
| gdcsub_line(csrw, (GDCVECT *)(gdc.s.para + GDC_VECTW), |
gdcsub_vectl(csrw, vect, textw, ope); |
| textw, gdc.s.para[GDC_WRITE]); |
} |
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if (vect->ope & 0x10) { // undocumented |
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gdcsub_vectt(csrw, vect, textw, ope); |
| } |
} |
| if (gdc.s.para[GDC_VECTW] & 0x20) { |
if (vect->ope & 0x20) { |
| gdcsub_circle(csrw, (GDCVECT *)(gdc.s.para + GDC_VECTW), |
gdcsub_vectc(csrw, vect, textw, ope); |
| textw, gdc.s.para[GDC_WRITE]); |
|
| } |
} |
| if (gdc.s.para[GDC_VECTW] & 0x40) { |
if (vect->ope & 0x40) { |
| gdcsub_box(csrw, (GDCVECT *)(gdc.s.para + GDC_VECTW), |
gdcsub_vectr(csrw, vect, textw, ope); |
| textw, gdc.s.para[GDC_WRITE]); |
|
| } |
} |
| } |
} |
| |
|
| static void textdraw(void) { // ver0.30 |
static void textdraw(void) { |
| |
|
| UINT32 csrw; |
UINT32 csrw; |
| UINT16 textw; |
const GDCVECT *vect; |
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REG16 textw; |
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REG8 ope; |
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|
| if (gdc.s.para[GDC_VECTW] & 0x10) { |
csrw = LOADINTELDWORD(gdc.s.para + GDC_CSRW); |
| csrw = LOADINTELDWORD(gdc.s.para + GDC_CSRW); |
vect = (GDCVECT *)(gdc.s.para + GDC_VECTW); |
| textw = LOADINTELWORD(gdc.s.para + GDC_TEXTW); |
textw = gdc.s.para[GDC_TEXTW + 7]; |
| gdcsub_text(csrw, (GDCVECT *)(gdc.s.para + GDC_VECTW), |
textw = (textw << 8) + textw; |
| textw, gdc.s.para[GDC_WRITE]); |
ope = gdc.s.para[GDC_WRITE]; |
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|
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if (vect->ope & 0x08) { // undocumented |
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gdcsub_vectl(csrw, vect, textw, ope); |
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} |
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if (vect->ope & 0x10) { |
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gdcsub_text(csrw, vect, gdc.s.para + GDC_TEXTW, ope); |
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} |
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if (vect->ope & 0x20) { // undocumented |
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gdcsub_vectc(csrw, vect, textw, ope); |
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} |
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if (vect->ope & 0x40) { // undocumented |
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gdcsub_vectr(csrw, vect, textw, ope); |
| } |
} |
| } |
} |
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|
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Line 193 void gdc_work(int id) {
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Line 230 void gdc_work(int id) {
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| textdraw(); |
textdraw(); |
| } |
} |
| break; |
break; |
| |
|
| } |
} |
| item->ptr = gdc_cmd[data].pos; |
item->ptr = gdc_cmd[data].pos; |
| item->rcv = gdc_cmd[data].outdatas; |
item->rcv = gdc_cmd[data].outdatas; |
|
Line 234 void gdc_forceready(GDCDATA item) {
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Line 270 void gdc_forceready(GDCDATA item) {
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| item->snd = 0; |
item->snd = 0; |
| } |
} |
| |
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| void gdc_updateclock(void) { |
|
| |
|
| UINT vfp; |
void gdc_updateclock(void) { |
| UINT vbp; |
|
| UINT lf; |
|
| UINT vs; |
|
| UINT maxy; |
|
| UINT cnt; |
|
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|
| vfp = gdc.m.para[GDC_SYNC + 5] & 0x3f; |
UINT tmp; |
| if (!vfp) { |
UINT cr; |
| vfp = 1; |
UINT hfbs; |
| } |
UINT vfbs; |
| vbp = gdc.m.para[GDC_SYNC + 7] >> 2; |
UINT lf; |
| if (!vbp) { |
UINT x; |
| vbp = 1; |
UINT y; |
| } |
UINT cnt; |
| lf = LOADINTELWORD(gdc.m.para + GDC_SYNC + 6); |
const GDCCLK *clk; |
| lf &= 0x3ff; |
UINT32 hclock; |
| if (!lf) { |
|
| lf = 1024; |
cr = gdc.m.para[GDC_SYNC + 1] + 2; |
| } |
tmp = LOADINTELWORD(gdc.m.para + GDC_SYNC + 2); |
| vs = LOADINTELWORD(gdc.m.para + GDC_SYNC + 4); |
hfbs = tmp & 0x1f; // HS |
| vs = (vs >> 5) & 0x1f; |
hfbs += tmp >> 10; // HFP |
| if (!vs) { |
vfbs = (tmp >> 5) & 0x1f; // VS |
| vs = 1; |
hfbs += gdc.m.para[GDC_SYNC + 4] & 0x3f; // HFP |
| } |
vfbs += gdc.m.para[GDC_SYNC + 5] & 0x3f; // VFP |
| maxy = lf + vfp + vbp + vs; |
tmp = LOADINTELWORD(gdc.m.para + GDC_SYNC + 6); |
| cnt = (pccore.realclock * 5) / 282; |
lf = ((tmp - 1) & 0x3ff) + 1; |
| gdc.rasterclock = cnt / maxy; |
vfbs += tmp >> 10; // VBP |
| gdc.hsyncclock = (gdc.rasterclock * 4) / 5; |
|
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hfbs += 3; |
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x = cr + hfbs; |
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if (!vfbs) { |
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vfbs = 1; |
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} |
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y = lf + vfbs; |
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// TRACEOUT(("h %d:%d / v %d:%d", cr, x, lf, y)); |
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|
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if (!(gdc.crt15khz & 2)) { // 24.83±300Hz |
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clk = gdcclk + 1; |
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} |
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else { // 15.98±300Hz |
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clk = gdcclk; |
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} |
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|
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if (x < clk->minx) { |
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cr = (clk->minx * cr) / x; |
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x = clk->minx; |
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} |
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else if (x > clk->maxx) { |
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cr = (clk->maxx * cr) / x; |
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x = clk->maxx; |
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} |
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if (y < clk->miny) { |
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lf = (clk->miny * lf) / y; |
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y = clk->miny; |
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} |
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else if (y > clk->maxy) { |
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lf = (clk->maxy * lf) / y; |
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y = clk->maxy; |
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} |
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hclock = clk->clock / x; |
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cnt = (pccore.baseclock * y) / hclock; |
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cnt *= pccore.multiple; |
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gdc.rasterclock = cnt / y; |
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gdc.hsyncclock = (gdc.rasterclock * cr) / x; |
| gdc.dispclock = gdc.rasterclock * lf; |
gdc.dispclock = gdc.rasterclock * lf; |
| gdc.vsyncclock = cnt - gdc.dispclock; |
gdc.vsyncclock = cnt - gdc.dispclock; |
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timing_setrate(y, hclock); |
| } |
} |
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|
| void gdc_restorekacmode(void) { |
void gdc_restorekacmode(void) { |
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Line 414 static void IOOUTCALL gdc_o6e(UINT port,
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Line 481 static void IOOUTCALL gdc_o6e(UINT port,
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| |
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| switch(dat) { |
switch(dat) { |
| case 0: |
case 0: |
| gdc.crt15khz = 0; |
gdc.crt15khz &= ~1; |
| gdcs.textdisp |= GDCSCRN_ALLDRAW2; |
gdcs.textdisp |= GDCSCRN_ALLDRAW2; |
| break; |
break; |
| |
|
| case 1: |
case 1: |
| gdc.crt15khz = 1; |
gdc.crt15khz |= 1; |
| gdcs.textdisp |= GDCSCRN_ALLDRAW2; |
gdcs.textdisp |= GDCSCRN_ALLDRAW2; |
| break; |
break; |
| } |
} |
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Line 450 static REG8 IOINPCALL gdc_i60(UINT port)
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Line 517 static REG8 IOINPCALL gdc_i60(UINT port)
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| else { |
else { |
| gdc_work(GDCWORK_MASTER); |
gdc_work(GDCWORK_MASTER); |
| } |
} |
| #ifdef SEARHC_SYNC |
#ifdef SEARCH_SYNC |
| if ((CPU_INPADRS) && (CPU_REMCLOCK >= 5)) { |
if ((CPU_INPADRS) && (CPU_REMCLOCK >= 5)) { |
| UINT16 jadr = 0xfa74; |
UINT16 jadr = 0xfa74; |
| UINT16 memv; |
UINT16 memv; |
|
Line 616 static REG8 IOINPCALL gdc_ia0(UINT port)
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Line 683 static REG8 IOINPCALL gdc_ia0(UINT port)
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| } |
} |
| else { |
else { |
| gdc_work(GDCWORK_SLAVE); |
gdc_work(GDCWORK_SLAVE); |
| |
TRACEOUT(("gdc.s.cnt=%d", gdc.s.cnt)); |
| } |
} |
| #ifdef SEARHC_SYNC |
#ifdef SEARCH_SYNC |
| if ((CPU_INPADRS) && (CPU_REMCLOCK >= 5)) { |
if ((CPU_INPADRS) && (CPU_REMCLOCK >= 5)) { |
| UINT16 jadr = 0xfa74; |
UINT16 jadr = 0xfa74; |
| UINT16 memv; |
UINT16 memv; |
|
Line 702 void gdc_reset(void) {
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Line 770 void gdc_reset(void) {
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| gdc.m.para[GDC_CSRFORM + 0] = 0x0f; |
gdc.m.para[GDC_CSRFORM + 0] = 0x0f; |
| gdc.m.para[GDC_CSRFORM + 1] = 0xc0; |
gdc.m.para[GDC_CSRFORM + 1] = 0xc0; |
| gdc.m.para[GDC_CSRFORM + 2] = 0x7b; |
gdc.m.para[GDC_CSRFORM + 2] = 0x7b; |
| CopyMemory(gdc.m.para + GDC_SYNC, defsync24, 8); |
CopyMemory(gdc.m.para + GDC_SYNC, defsyncm24, 8); |
| gdc.s.para[GDC_CSRFORM + 0] = 1; |
gdc.s.para[GDC_CSRFORM + 0] = 1; |
| CopyMemory(gdc.s.para + GDC_SYNC, defsync24, 8); |
CopyMemory(gdc.s.para + GDC_SYNC, defsyncs24, 8); |
| } |
} |
| else { |
else { |
| gdc.crt15khz = 1; |
gdc.crt15khz = 3; |
| gdc.mode1 = 0x80; |
gdc.mode1 = 0x80; |
| gdc.m.para[GDC_CSRFORM + 0] = 0x07; |
gdc.m.para[GDC_CSRFORM + 0] = 0x07; |
| gdc.m.para[GDC_CSRFORM + 1] = 0xc0; |
gdc.m.para[GDC_CSRFORM + 1] = 0xc0; |
| gdc.m.para[GDC_CSRFORM + 2] = 0x3b; |
gdc.m.para[GDC_CSRFORM + 2] = 0x3b; |
| CopyMemory(gdc.m.para + GDC_SYNC, defsync15, 8); |
CopyMemory(gdc.m.para + GDC_SYNC, defsyncm15, 8); |
| CopyMemory(gdc.s.para + GDC_SYNC, defsync15, 8); |
CopyMemory(gdc.s.para + GDC_SYNC, defsyncs15, 8); |
| } |
} |
| |
|
| gdc.clock = 0; |
gdc.clock = 0; |
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Line 724 void gdc_reset(void) {
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Line 792 void gdc_reset(void) {
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| |
|
| gdcs.textdisp = GDCSCRN_ENABLE | GDCSCRN_ALLDRAW2 | GDCSCRN_EXT; |
gdcs.textdisp = GDCSCRN_ENABLE | GDCSCRN_ALLDRAW2 | GDCSCRN_EXT; |
| gdcs.grphdisp = GDCSCRN_ALLDRAW2 | GDCSCRN_EXT; |
gdcs.grphdisp = GDCSCRN_ALLDRAW2 | GDCSCRN_EXT; |
| gdc.display = (np2cfg.color16 & 1) << 1; |
if (np2cfg.color16 & 1) { |
| |
gdc.s.para[GDC_SYNC] = 0x16; |
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gdc.display = 2; |
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} |
| gdc.bitac = 0xff; |
gdc.bitac = 0xff; |
| |
|
| #if 0 // bind で計算される筈 |
#if 0 // bind で計算される筈 |
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