/* * Copyright (C) 2002-2011 The DOSBox Team * * 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. */ #include #include #include "dosbox.h" #include "inout.h" #include "vga.h" #include "mem.h" #include "pic.h" #include "render.h" #include "mapper.h" static void write_crtc_index_other(Bitu /*port*/,Bitu val,Bitu /*iolen*/) { vga.other.index=(Bit8u)val; } static Bitu read_crtc_index_other(Bitu /*port*/,Bitu /*iolen*/) { return vga.other.index; } static void write_crtc_data_other(Bitu /*port*/,Bitu val,Bitu /*iolen*/) { switch (vga.other.index) { case 0x00: //Horizontal total if (vga.other.htotal ^ val) VGA_StartResize(); vga.other.htotal=(Bit8u)val; break; case 0x01: //Horizontal displayed chars if (vga.other.hdend ^ val) VGA_StartResize(); vga.other.hdend=(Bit8u)val; break; case 0x02: //Horizontal sync position vga.other.hsyncp=(Bit8u)val; break; case 0x03: //Horizontal sync width if (machine==MCH_TANDY) vga.other.vsyncw=(Bit8u)(val >> 4); else vga.other.vsyncw = 16; // The MC6845 has a fixed v-sync width of 16 lines vga.other.hsyncw=(Bit8u)(val & 0xf); break; case 0x04: //Vertical total if (vga.other.vtotal ^ val) VGA_StartResize(); vga.other.vtotal=(Bit8u)val; break; case 0x05: //Vertical display adjust if (vga.other.vadjust ^ val) VGA_StartResize(); vga.other.vadjust=(Bit8u)val; break; case 0x06: //Vertical rows if (vga.other.vdend ^ val) VGA_StartResize(); vga.other.vdend=(Bit8u)val; break; case 0x07: //Vertical sync position vga.other.vsyncp=(Bit8u)val; break; case 0x09: //Max scanline val &= 0x1f; // VGADOC says bit 0-3 but the MC6845 datasheet says bit 0-4 if (vga.other.max_scanline ^ val) VGA_StartResize(); vga.other.max_scanline=(Bit8u)val; break; case 0x0A: /* Cursor Start Register */ vga.other.cursor_start = (Bit8u)(val & 0x3f); vga.draw.cursor.sline = (Bit8u)(val&0x1f); vga.draw.cursor.enabled = ((val & 0x60) != 0x20); break; case 0x0B: /* Cursor End Register */ vga.other.cursor_end = (Bit8u)(val&0x1f); vga.draw.cursor.eline = (Bit8u)(val&0x1f); break; case 0x0C: /* Start Address High Register */ vga.config.display_start=(vga.config.display_start & 0x00FF) | (val << 8); break; case 0x0D: /* Start Address Low Register */ vga.config.display_start=(vga.config.display_start & 0xFF00) | val; break; case 0x0E: /*Cursor Location High Register */ vga.config.cursor_start&=0x00ff; vga.config.cursor_start|=((Bit8u)val) << 8; break; case 0x0F: /* Cursor Location Low Register */ vga.config.cursor_start&=0xff00; vga.config.cursor_start|=(Bit8u)val; break; case 0x10: /* Light Pen High */ vga.other.lightpen &= 0xff; vga.other.lightpen |= (val & 0x3f)<<8; // only 6 bits break; case 0x11: /* Light Pen Low */ vga.other.lightpen &= 0xff00; vga.other.lightpen |= (Bit8u)val; break; default: LOG(LOG_VGAMISC,LOG_NORMAL)("MC6845:Write %X to illegal index %x",val,vga.other.index); } } static Bitu read_crtc_data_other(Bitu /*port*/,Bitu /*iolen*/) { switch (vga.other.index) { case 0x00: //Horizontal total return vga.other.htotal; case 0x01: //Horizontal displayed chars return vga.other.hdend; case 0x02: //Horizontal sync position return vga.other.hsyncp; case 0x03: //Horizontal and vertical sync width if (machine==MCH_TANDY) return vga.other.hsyncw | (vga.other.vsyncw << 4); else return vga.other.hsyncw; case 0x04: //Vertical total return vga.other.vtotal; case 0x05: //Vertical display adjust return vga.other.vadjust; case 0x06: //Vertical rows return vga.other.vdend; case 0x07: //Vertical sync position return vga.other.vsyncp; case 0x09: //Max scanline return vga.other.max_scanline; case 0x0A: /* Cursor Start Register */ return vga.other.cursor_start; case 0x0B: /* Cursor End Register */ return vga.other.cursor_end; case 0x0C: /* Start Address High Register */ return (Bit8u)(vga.config.display_start >> 8); case 0x0D: /* Start Address Low Register */ return (Bit8u)(vga.config.display_start & 0xff); case 0x0E: /*Cursor Location High Register */ return (Bit8u)(vga.config.cursor_start >> 8); case 0x0F: /* Cursor Location Low Register */ return (Bit8u)(vga.config.cursor_start & 0xff); case 0x10: /* Light Pen High */ return (Bit8u)(vga.other.lightpen >> 8); case 0x11: /* Light Pen Low */ return (Bit8u)(vga.other.lightpen & 0xff); default: LOG(LOG_VGAMISC,LOG_NORMAL)("MC6845:Read from illegal index %x",vga.other.index); } return (Bitu)(~0); } static void write_lightpen(Bitu port,Bitu val,Bitu) { switch (port) { case 0x3db: // Clear lightpen latch vga.other.lightpen_triggered = false; break; case 0x3dc: // Preset lightpen latch if (!vga.other.lightpen_triggered) { vga.other.lightpen_triggered = true; // TODO: this shows at port 3ba/3da bit 1 double timeInFrame = PIC_FullIndex()-vga.draw.delay.framestart; double timeInLine = fmod(timeInFrame,vga.draw.delay.htotal); Bitu current_scanline = (Bitu)(timeInFrame / vga.draw.delay.htotal); vga.other.lightpen = (Bit16u)((vga.draw.address_add/2) * (current_scanline/2)); vga.other.lightpen += (Bit16u)((timeInLine / vga.draw.delay.hdend) * ((float)(vga.draw.address_add/2))); } break; } } static double hue_offset = 0.0; static Bit8u cga16_val = 0; static void update_cga16_color(void); static Bit8u herc_pal = 0; static void cga16_color_select(Bit8u val) { cga16_val = val; update_cga16_color(); } static void update_cga16_color(void) { // Algorithm provided by NewRisingSun // His/Her algorithm is more complex and gives better results than the one below // However that algorithm doesn't fit in our vga pallette. // Therefore a simple variant is used, but the colours are bit lighter. // It uses an avarage over the bits to give smooth transitions from colour to colour // This is represented by the j variable. The i variable gives the 16 colours // The draw handler calculates the needed avarage and combines this with the colour // to match an entry that is generated here. int baseR=0, baseG=0, baseB=0; double sinhue,coshue,hue,basehue = 50.0; double I,Q,Y,pixelI,pixelQ,R,G,B; Bitu colorBit1,colorBit2,colorBit3,colorBit4,index; if (cga16_val & 0x01) baseB += 0xa8; if (cga16_val & 0x02) baseG += 0xa8; if (cga16_val & 0x04) baseR += 0xa8; if (cga16_val & 0x08) { baseR += 0x57; baseG += 0x57; baseB += 0x57; } if (cga16_val & 0x20) basehue = 35.0; hue = (basehue + hue_offset)*0.017453239; sinhue = sin(hue); coshue = cos(hue); for(Bitu i = 0; i < 16;i++) { for(Bitu j = 0;j < 5;j++) { index = 0x80|(j << 4)|i; //use upperpart of vga pallette colorBit4 = (i&1)>>0; colorBit3 = (i&2)>>1; colorBit2 = (i&4)>>2; colorBit1 = (i&8)>>3; //calculate lookup table I = 0; Q = 0; I += (double) colorBit1; Q += (double) colorBit2; I -= (double) colorBit3; Q -= (double) colorBit4; Y = (double) j / 4.0; //calculated avarage is over 4 bits pixelI = I * 1.0 / 3.0; //I* tvSaturnation / 3.0 pixelQ = Q * 1.0 / 3.0; //Q* tvSaturnation / 3.0 I = pixelI*coshue + pixelQ*sinhue; Q = pixelQ*coshue - pixelI*sinhue; R = Y + 0.956*I + 0.621*Q; if (R < 0.0) R = 0.0; if (R > 1.0) R = 1.0; G = Y - 0.272*I - 0.647*Q; if (G < 0.0) G = 0.0; if (G > 1.0) G = 1.0; B = Y - 1.105*I + 1.702*Q; if (B < 0.0) B = 0.0; if (B > 1.0) B = 1.0; RENDER_SetPal((Bit8u)index,static_cast(R*baseR),static_cast(G*baseG),static_cast(B*baseB)); } } } static void IncreaseHue(bool pressed) { if (!pressed) return; hue_offset += 5.0; update_cga16_color(); LOG_MSG("Hue at %f",hue_offset); } static void DecreaseHue(bool pressed) { if (!pressed) return; hue_offset -= 5.0; update_cga16_color(); LOG_MSG("Hue at %f",hue_offset); } static void write_cga_color_select(Bitu val) { vga.tandy.color_select=val; switch(vga.mode) { case M_TANDY4: { Bit8u base = (val & 0x10) ? 0x08 : 0; Bit8u bg = val & 0xf; if (vga.tandy.mode_control & 0x4) // cyan red white VGA_SetCGA4Table(bg, 3+base, 4+base, 7+base); else if (val & 0x20) // cyan magenta white VGA_SetCGA4Table(bg, 3+base, 5+base, 7+base); else // green red brown VGA_SetCGA4Table(bg, 2+base, 4+base, 6+base); vga.tandy.border_color = bg; vga.attr.overscan_color = bg; break; } case M_TANDY2: VGA_SetCGA2Table(0,val & 0xf); vga.attr.overscan_color = 0; break; case M_CGA16: cga16_color_select(val); break; case M_TEXT: vga.tandy.border_color = val & 0xf; vga.attr.overscan_color = 0; break; } } static void write_cga(Bitu port,Bitu val,Bitu /*iolen*/) { switch (port) { case 0x3d8: vga.tandy.mode_control=(Bit8u)val; vga.attr.disabled = (val&0x8)? 0: 1; if (vga.tandy.mode_control & 0x2) { // graphics mode if (vga.tandy.mode_control & 0x10) {// highres mode if (!(val & 0x4)) { // burst on VGA_SetMode(M_CGA16); // composite ntsc 160x200 16 color mode } else { VGA_SetMode(M_TANDY2); } } else VGA_SetMode(M_TANDY4); // lowres mode write_cga_color_select(vga.tandy.color_select); } else { VGA_SetMode(M_TANDY_TEXT); } VGA_SetBlinking(val & 0x20); break; case 0x3d9: // color select write_cga_color_select(val); break; } } static void tandy_update_palette() { // TODO mask off bits if needed if (machine == MCH_TANDY) { switch (vga.mode) { case M_TANDY2: VGA_SetCGA2Table(vga.attr.palette[0], //vga.attr.palette[vga.tandy.color_select&0xf]); vga.attr.palette[0xf]); //VGA_SetCGA2Table(vga.attr.palette[0xf],vga.attr.palette[0]); break; case M_TANDY4: if (vga.tandy.gfx_control & 0x8) { // 4-color high resolution - might be an idea to introduce M_TANDY4H VGA_SetCGA4Table( // function sets both medium and highres 4color tables vga.attr.palette[0], vga.attr.palette[1], vga.attr.palette[2], vga.attr.palette[3]); } else { Bit8u color_set = 0; Bit8u r_mask = 0xf; if (vga.tandy.color_select & 0x10) color_set |= 8; // intensity if (vga.tandy.color_select & 0x20) color_set |= 1; // Cyan Mag. White if (vga.tandy.mode_control & 0x04) { // Cyan Red White color_set |= 1; r_mask &= ~1; } VGA_SetCGA4Table( vga.attr.palette[0], vga.attr.palette[(2|color_set)& vga.tandy.palette_mask], vga.attr.palette[(4|(color_set& r_mask))& vga.tandy.palette_mask], vga.attr.palette[(6|color_set)& vga.tandy.palette_mask]); } break; default: break; } } else { // PCJr switch (vga.mode) { case M_TANDY2: VGA_SetCGA2Table(vga.attr.palette[0],vga.attr.palette[1]); break; case M_TANDY4: VGA_SetCGA4Table( vga.attr.palette[0], vga.attr.palette[1], vga.attr.palette[2], vga.attr.palette[3]); break; default: break; } } } void VGA_SetModeNow(VGAModes mode); static void TANDY_FindMode(void) { if (vga.tandy.mode_control & 0x2) { if (vga.tandy.gfx_control & 0x10) { if (vga.mode==M_TANDY4) { VGA_SetModeNow(M_TANDY16); } else VGA_SetMode(M_TANDY16); } else if (vga.tandy.gfx_control & 0x08) { VGA_SetMode(M_TANDY4); } else if (vga.tandy.mode_control & 0x10) VGA_SetMode(M_TANDY2); else { if (vga.mode==M_TANDY16) { VGA_SetModeNow(M_TANDY4); } else VGA_SetMode(M_TANDY4); } tandy_update_palette(); } else { VGA_SetMode(M_TANDY_TEXT); } } static void PCJr_FindMode(void) { if (vga.tandy.mode_control & 0x2) { if (vga.tandy.mode_control & 0x10) { /* bit4 of mode control 1 signals 16 colour graphics mode */ if (vga.mode==M_TANDY4) VGA_SetModeNow(M_TANDY16); // TODO lowres mode only else VGA_SetMode(M_TANDY16); } else if (vga.tandy.gfx_control & 0x08) { /* bit3 of mode control 2 signals 2 colour graphics mode */ VGA_SetMode(M_TANDY2); } else { /* otherwise some 4-colour graphics mode */ if (vga.mode==M_TANDY16) VGA_SetModeNow(M_TANDY4); else VGA_SetMode(M_TANDY4); } } else { VGA_SetMode(M_TANDY_TEXT); } } static void TandyCheckLineMask(void ) { if ( vga.tandy.extended_ram & 1 ) { vga.tandy.line_mask = 0; } else if ( vga.tandy.mode_control & 0x2) { vga.tandy.line_mask |= 1; } if ( vga.tandy.line_mask ) { vga.tandy.line_shift = 13; vga.tandy.addr_mask = (1 << 13) - 1; } else { vga.tandy.addr_mask = (Bitu)(~0); vga.tandy.line_shift = 0; } } static void write_tandy_reg(Bit8u val) { switch (vga.tandy.reg_index) { case 0x0: if (machine==MCH_PCJR) { vga.tandy.mode_control=val; VGA_SetBlinking(val & 0x20); PCJr_FindMode(); if (val&0x8) vga.attr.disabled &= ~1; else vga.attr.disabled |= 1; } else { LOG(LOG_VGAMISC,LOG_NORMAL)("Unhandled Write %2X to tandy reg %X",val,vga.tandy.reg_index); } break; case 0x1: /* Palette mask */ vga.tandy.palette_mask = val; tandy_update_palette(); break; case 0x2: /* Border color */ vga.tandy.border_color=val; break; case 0x3: /* More control */ vga.tandy.gfx_control=val; if (machine==MCH_TANDY) TANDY_FindMode(); else PCJr_FindMode(); break; case 0x5: /* Extended ram page register */ // Bit 0 enables extended ram // Bit 7 Switches clock, 0 -> cga 28.6 , 1 -> mono 32.5 vga.tandy.extended_ram = val; //This is a bit of a hack to enable mapping video memory differently for highres mode TandyCheckLineMask(); VGA_SetupHandlers(); break; default: if ((vga.tandy.reg_index & 0xf0) == 0x10) { // color palette vga.attr.palette[vga.tandy.reg_index-0x10] = val&0xf; tandy_update_palette(); } else LOG(LOG_VGAMISC,LOG_NORMAL)("Unhandled Write %2X to tandy reg %X",val,vga.tandy.reg_index); } } static void write_tandy(Bitu port,Bitu val,Bitu /*iolen*/) { switch (port) { case 0x3d8: vga.tandy.mode_control=(Bit8u)val; if (val&0x8) vga.attr.disabled &= ~1; else vga.attr.disabled |= 1; TandyCheckLineMask(); VGA_SetBlinking(val & 0x20); TANDY_FindMode(); break; case 0x3d9: vga.tandy.color_select=val; if (vga.mode==M_TANDY2) vga.attr.palette[0xf] = vga.tandy.color_select&0xf; else vga.attr.palette[0] = vga.tandy.color_select&0xf; // Pirates! tandy_update_palette(); break; case 0x3da: vga.tandy.reg_index=(Bit8u)val; //if (val&0x10) vga.attr.disabled |= 2; //else vga.attr.disabled &= ~2; break; // case 0x3dd: //Extended ram page address register: // break; case 0x3de: write_tandy_reg((Bit8u)val); break; case 0x3df: vga.tandy.line_mask = (Bit8u)(val >> 6); vga.tandy.draw_bank = val & ((vga.tandy.line_mask&2) ? 0x6 : 0x7); if(vga.tandy.line_mask==3) vga.tandy.draw_bank &= ~1; // LSB unused in 32k modes vga.tandy.mem_bank = (val >> 3) & ((vga.tandy.line_mask&2) ? 0x6 : 0x7); TandyCheckLineMask(); VGA_SetupHandlers(); break; } } static void write_pcjr(Bitu port,Bitu val,Bitu /*iolen*/) { switch (port) { case 0x3da: if (vga.tandy.pcjr_flipflop) write_tandy_reg((Bit8u)val); else { vga.tandy.reg_index=(Bit8u)val; if (vga.tandy.reg_index & 0x10) vga.attr.disabled |= 2; else vga.attr.disabled &= ~2; } vga.tandy.pcjr_flipflop=!vga.tandy.pcjr_flipflop; break; case 0x3df: vga.tandy.line_mask = (Bit8u)(val >> 6); vga.tandy.draw_bank = val & ((vga.tandy.line_mask&2) ? 0x6 : 0x7); vga.tandy.mem_bank = (val >> 3) & ((vga.tandy.line_mask&2) ? 0x6 : 0x7); vga.tandy.draw_base = &MemBase[vga.tandy.draw_bank * 16 * 1024]; vga.tandy.mem_base = &MemBase[vga.tandy.mem_bank * 16 * 1024]; TandyCheckLineMask(); VGA_SetupHandlers(); break; } } static void CycleHercPal(bool pressed) { if (!pressed) return; if (++herc_pal>2) herc_pal=0; Herc_Palette(); VGA_DAC_CombineColor(1,7); } void Herc_Palette(void) { switch (herc_pal) { case 0: // White VGA_DAC_SetEntry(0x7,0x2a,0x2a,0x2a); VGA_DAC_SetEntry(0xf,0x3f,0x3f,0x3f); break; case 1: // Amber VGA_DAC_SetEntry(0x7,0x34,0x20,0x00); VGA_DAC_SetEntry(0xf,0x3f,0x34,0x00); break; case 2: // Green VGA_DAC_SetEntry(0x7,0x00,0x26,0x00); VGA_DAC_SetEntry(0xf,0x00,0x3f,0x00); break; } } static void write_hercules(Bitu port,Bitu val,Bitu /*iolen*/) { switch (port) { case 0x3b8: { // the protected bits can always be cleared but only be set if the // protection bits are set if (vga.herc.mode_control&0x2) { // already set if (!(val&0x2)) { vga.herc.mode_control &= ~0x2; VGA_SetMode(M_HERC_TEXT); } } else { // not set, can only set if protection bit is set if ((val & 0x2) && (vga.herc.enable_bits & 0x1)) { vga.herc.mode_control |= 0x2; VGA_SetMode(M_HERC_GFX); } } if (vga.herc.mode_control&0x80) { if (!(val&0x80)) { vga.herc.mode_control &= ~0x80; vga.tandy.draw_base = &vga.mem.linear[0]; } } else { if ((val & 0x80) && (vga.herc.enable_bits & 0x2)) { vga.herc.mode_control |= 0x80; vga.tandy.draw_base = &vga.mem.linear[32*1024]; } } vga.draw.blinking = (val&0x20)!=0; vga.herc.mode_control &= 0x82; vga.herc.mode_control |= val & ~0x82; break; } case 0x3bf: if ( vga.herc.enable_bits ^ val) { vga.herc.enable_bits=val; // Bit 1 enables the upper 32k of video memory, // so update the handlers VGA_SetupHandlers(); } break; } } /* static Bitu read_hercules(Bitu port,Bitu iolen) { LOG_MSG("read from Herc port %x",port); return 0; } */ Bitu read_herc_status(Bitu /*port*/,Bitu /*iolen*/) { // 3BAh (R): Status Register // bit 0 Horizontal sync // 1 Light pen status (only some cards) // 3 Video signal // 4-6 000: Hercules // 001: Hercules Plus // 101: Hercules InColor // 111: Unknown clone // 7 Vertical sync inverted double timeInFrame = PIC_FullIndex()-vga.draw.delay.framestart; Bit8u retval=0x72; // Hercules ident; from a working card (Winbond W86855AF) // Another known working card has 0x76 ("KeysoGood", full-length) if (timeInFrame < vga.draw.delay.vrstart || timeInFrame > vga.draw.delay.vrend) retval |= 0x80; double timeInLine=fmod(timeInFrame,vga.draw.delay.htotal); if (timeInLine >= vga.draw.delay.hrstart && timeInLine <= vga.draw.delay.hrend) retval |= 0x1; // 688 Attack sub checks bit 3 - as a workaround have the bit enabled // if no sync active (corresponds to a completely white screen) if ((retval&0x81)==0x80) retval |= 0x8; return retval; } void VGA_SetupOther(void) { Bitu i; memset( &vga.tandy, 0, sizeof( vga.tandy )); vga.attr.disabled = 0; vga.config.bytes_skip=0; //Initialize values common for most machines, can be overwritten vga.tandy.draw_base = vga.mem.linear; vga.tandy.mem_base = vga.mem.linear; vga.tandy.addr_mask = 8*1024 - 1; vga.tandy.line_mask = 3; vga.tandy.line_shift = 13; if (machine==MCH_CGA || IS_TANDY_ARCH) { extern Bit8u int10_font_08[256 * 8]; for (i=0;i<256;i++) memcpy(&vga.draw.font[i*32],&int10_font_08[i*8],8); vga.draw.font_tables[0]=vga.draw.font_tables[1]=vga.draw.font; } if (machine==MCH_CGA || IS_TANDY_ARCH || machine==MCH_HERC) { IO_RegisterWriteHandler(0x3db,write_lightpen,IO_MB); IO_RegisterWriteHandler(0x3dc,write_lightpen,IO_MB); } if (machine==MCH_HERC) { extern Bit8u int10_font_14[256 * 14]; for (i=0;i<256;i++) memcpy(&vga.draw.font[i*32],&int10_font_14[i*14],14); vga.draw.font_tables[0]=vga.draw.font_tables[1]=vga.draw.font; MAPPER_AddHandler(CycleHercPal,MK_f11,0,"hercpal","Herc Pal"); } if (machine==MCH_CGA) { IO_RegisterWriteHandler(0x3d8,write_cga,IO_MB); IO_RegisterWriteHandler(0x3d9,write_cga,IO_MB); MAPPER_AddHandler(IncreaseHue,MK_f11,MMOD2,"inchue","Inc Hue"); MAPPER_AddHandler(DecreaseHue,MK_f11,0,"dechue","Dec Hue"); } if (machine==MCH_TANDY) { write_tandy( 0x3df, 0x0, 0 ); IO_RegisterWriteHandler(0x3d8,write_tandy,IO_MB); IO_RegisterWriteHandler(0x3d9,write_tandy,IO_MB); IO_RegisterWriteHandler(0x3da,write_tandy,IO_MB); IO_RegisterWriteHandler(0x3de,write_tandy,IO_MB); IO_RegisterWriteHandler(0x3df,write_tandy,IO_MB); } if (machine==MCH_PCJR) { //write_pcjr will setup base address write_pcjr( 0x3df, 0x7 | (0x7 << 3), 0 ); IO_RegisterWriteHandler(0x3da,write_pcjr,IO_MB); IO_RegisterWriteHandler(0x3df,write_pcjr,IO_MB); } if (machine==MCH_HERC) { Bitu base=0x3b0; for (Bitu i = 0; i < 4; i++) { // The registers are repeated as the address is not decoded properly; // The official ports are 3b4, 3b5 IO_RegisterWriteHandler(base+i*2,write_crtc_index_other,IO_MB); IO_RegisterWriteHandler(base+i*2+1,write_crtc_data_other,IO_MB); IO_RegisterReadHandler(base+i*2,read_crtc_index_other,IO_MB); IO_RegisterReadHandler(base+i*2+1,read_crtc_data_other,IO_MB); } vga.herc.enable_bits=0; vga.herc.mode_control=0xa; // first mode written will be text mode vga.crtc.underline_location = 13; IO_RegisterWriteHandler(0x3b8,write_hercules,IO_MB); IO_RegisterWriteHandler(0x3bf,write_hercules,IO_MB); IO_RegisterReadHandler(0x3ba,read_herc_status,IO_MB); } if (machine==MCH_CGA) { Bitu base=0x3d0; for (Bitu port_ct=0; port_ct<4; port_ct++) { IO_RegisterWriteHandler(base+port_ct*2,write_crtc_index_other,IO_MB); IO_RegisterWriteHandler(base+port_ct*2+1,write_crtc_data_other,IO_MB); IO_RegisterReadHandler(base+port_ct*2,read_crtc_index_other,IO_MB); IO_RegisterReadHandler(base+port_ct*2+1,read_crtc_data_other,IO_MB); } } if (IS_TANDY_ARCH) { Bitu base=0x3d4; IO_RegisterWriteHandler(base,write_crtc_index_other,IO_MB); IO_RegisterWriteHandler(base+1,write_crtc_data_other,IO_MB); IO_RegisterReadHandler(base,read_crtc_index_other,IO_MB); IO_RegisterReadHandler(base+1,read_crtc_data_other,IO_MB); } }