/* Copyright holders: Sarah Walker see COPYING for more details */ /*Hercules emulation*/ #include #include "ibm.h" #include "device.h" #include "mem.h" #include "timer.h" #include "video.h" #include "vid_hercules.h" typedef struct hercules_t { mem_mapping_t mapping; uint8_t crtc[32]; int crtcreg; uint8_t ctrl, ctrl2, stat; int dispontime, dispofftime; int vidtime; int firstline, lastline; int linepos, displine; int vc, sc; uint16_t ma, maback; int con, coff, cursoron; int dispon, blink; int vsynctime, vadj; uint8_t *vram; } hercules_t; static int mdacols[256][2][2]; void hercules_recalctimings(hercules_t *hercules); void hercules_write(uint32_t addr, uint8_t val, void *p); uint8_t hercules_read(uint32_t addr, void *p); void hercules_out(uint16_t addr, uint8_t val, void *p) { hercules_t *hercules = (hercules_t *)p; // pclog("Herc out %04X %02X\n",addr,val); switch (addr) { case 0x3b0: case 0x3b2: case 0x3b4: case 0x3b6: hercules->crtcreg = val & 31; return; case 0x3b1: case 0x3b3: case 0x3b5: case 0x3b7: hercules->crtc[hercules->crtcreg] = val; if (hercules->crtc[10] == 6 && hercules->crtc[11] == 7) /*Fix for Generic Turbo XT BIOS, which sets up cursor registers wrong*/ { hercules->crtc[10] = 0xb; hercules->crtc[11] = 0xc; } hercules_recalctimings(hercules); return; case 0x3b8: hercules->ctrl = val; return; case 0x3bf: hercules->ctrl2 = val; if (val & 2) mem_mapping_set_addr(&hercules->mapping, 0xb0000, 0x10000); else mem_mapping_set_addr(&hercules->mapping, 0xb0000, 0x08000); return; } } uint8_t hercules_in(uint16_t addr, void *p) { hercules_t *hercules = (hercules_t *)p; // pclog("Herc in %04X %02X %04X:%04X %04X\n",addr,(hercules_stat & 0xF) | ((hercules_stat & 8) << 4),CS,pc,CX); switch (addr) { case 0x3b0: case 0x3b2: case 0x3b4: case 0x3b6: return hercules->crtcreg; case 0x3b1: case 0x3b3: case 0x3b5: case 0x3b7: return hercules->crtc[hercules->crtcreg]; case 0x3ba: return (hercules->stat & 0xf) | ((hercules->stat & 8) << 4); } return 0xff; } void hercules_write(uint32_t addr, uint8_t val, void *p) { hercules_t *hercules = (hercules_t *)p; egawrites++; /* Horrible hack, I know, but it's the only way to fix the 440FX BIOS filling the VRAM with garbage until Tom fixes the memory emulation. */ if ((cs == 0xE0000) && (cpu_state.pc == 0xBF2F) && (romset == ROM_440FX)) return; if ((cs == 0xE0000) && (cpu_state.pc == 0xBF77) && (romset == ROM_440FX)) return; // pclog("Herc write %08X %02X\n",addr,val); hercules->vram[addr & 0xffff] = val; } uint8_t hercules_read(uint32_t addr, void *p) { hercules_t *hercules = (hercules_t *)p; egareads++; return hercules->vram[addr & 0xffff]; } void hercules_recalctimings(hercules_t *hercules) { double disptime; double _dispontime, _dispofftime; disptime = hercules->crtc[0] + 1; _dispontime = hercules->crtc[1]; _dispofftime = disptime - _dispontime; _dispontime *= MDACONST; _dispofftime *= MDACONST; hercules->dispontime = (int)(_dispontime * (1 << TIMER_SHIFT)); hercules->dispofftime = (int)(_dispofftime * (1 << TIMER_SHIFT)); } void hercules_poll(void *p) { hercules_t *hercules = (hercules_t *)p; uint16_t ca = (hercules->crtc[15] | (hercules->crtc[14] << 8)) & 0x3fff; int drawcursor; int x, c; int oldvc; uint8_t chr, attr; uint16_t dat; int cols[4]; int oldsc; int blink; if (!hercules->linepos) { //pclog("Poll %i %i\n",vc,sc); hercules->vidtime += hercules->dispofftime; hercules->stat |= 1; hercules->linepos = 1; oldsc = hercules->sc; if ((hercules->crtc[8] & 3) == 3) hercules->sc = (hercules->sc << 1) & 7; if (hercules->dispon) { if (hercules->displine < hercules->firstline) { hercules->firstline = hercules->displine; video_wait_for_buffer(); } hercules->lastline = hercules->displine; cols[0] = 0; cols[1] = 7; if ((hercules->ctrl & 2) && (hercules->ctrl2 & 1)) { ca = (hercules->sc & 3) * 0x2000; if ((hercules->ctrl & 0x80) && (hercules->ctrl2 & 2)) ca += 0x8000; // printf("Draw herc %04X\n",ca); for (x = 0; x < hercules->crtc[1]; x++) { dat = (hercules->vram[((hercules->ma << 1) & 0x1fff) + ca] << 8) | hercules->vram[((hercules->ma << 1) & 0x1fff) + ca + 1]; hercules->ma++; for (c = 0; c < 16; c++) buffer->line[hercules->displine][(x << 4) + c] = (dat & (32768 >> c)) ? 7 : 0; } } else { for (x = 0; x < hercules->crtc[1]; x++) { chr = hercules->vram[(hercules->ma << 1) & 0x3fff]; attr = hercules->vram[((hercules->ma << 1) + 1) & 0x3fff]; drawcursor = ((hercules->ma == ca) && hercules->con && hercules->cursoron); blink = ((hercules->blink & 16) && (hercules->ctrl & 0x20) && (attr & 0x80) && !drawcursor); if (hercules->sc == 12 && ((attr & 7) == 1)) { for (c = 0; c < 9; c++) buffer->line[hercules->displine][(x * 9) + c] = mdacols[attr][blink][1]; } else { for (c = 0; c < 8; c++) buffer->line[hercules->displine][(x * 9) + c] = mdacols[attr][blink][(fontdatm[chr][hercules->sc] & (1 << (c ^ 7))) ? 1 : 0]; if ((chr & ~0x1f) == 0xc0) buffer->line[hercules->displine][(x * 9) + 8] = mdacols[attr][blink][fontdatm[chr][hercules->sc] & 1]; else buffer->line[hercules->displine][(x * 9) + 8] = mdacols[attr][blink][0]; } hercules->ma++; if (drawcursor) { for (c = 0; c < 9; c++) buffer->line[hercules->displine][(x * 9) + c] ^= mdacols[attr][0][1]; } } } } hercules->sc = oldsc; if (hercules->vc == hercules->crtc[7] && !hercules->sc) { hercules->stat |= 8; // printf("VSYNC on %i %i\n",vc,sc); } hercules->displine++; if (hercules->displine >= 500) hercules->displine = 0; } else { hercules->vidtime += hercules->dispontime; if (hercules->dispon) hercules->stat &= ~1; hercules->linepos = 0; if (hercules->vsynctime) { hercules->vsynctime--; if (!hercules->vsynctime) { hercules->stat &= ~8; // printf("VSYNC off %i %i\n",vc,sc); } } if (hercules->sc == (hercules->crtc[11] & 31) || ((hercules->crtc[8] & 3) == 3 && hercules->sc == ((hercules->crtc[11] & 31) >> 1))) { hercules->con = 0; hercules->coff = 1; } if (hercules->vadj) { hercules->sc++; hercules->sc &= 31; hercules->ma = hercules->maback; hercules->vadj--; if (!hercules->vadj) { hercules->dispon = 1; hercules->ma = hercules->maback = (hercules->crtc[13] | (hercules->crtc[12] << 8)) & 0x3fff; hercules->sc = 0; } } else if (hercules->sc == hercules->crtc[9] || ((hercules->crtc[8] & 3) == 3 && hercules->sc == (hercules->crtc[9] >> 1))) { hercules->maback = hercules->ma; hercules->sc = 0; oldvc = hercules->vc; hercules->vc++; hercules->vc &= 127; if (hercules->vc == hercules->crtc[6]) hercules->dispon = 0; if (oldvc == hercules->crtc[4]) { // printf("Display over at %i\n",displine); hercules->vc = 0; hercules->vadj = hercules->crtc[5]; if (!hercules->vadj) hercules->dispon=1; if (!hercules->vadj) hercules->ma = hercules->maback = (hercules->crtc[13] | (hercules->crtc[12] << 8)) & 0x3fff; if ((hercules->crtc[10] & 0x60) == 0x20) hercules->cursoron = 0; else hercules->cursoron = hercules->blink & 16; } if (hercules->vc == hercules->crtc[7]) { hercules->dispon = 0; hercules->displine = 0; hercules->vsynctime = 16;//(crtcm[3]>>4)+1; if (hercules->crtc[7]) { // printf("Lastline %i Firstline %i %i\n",lastline,firstline,lastline-firstline); if ((hercules->ctrl & 2) && (hercules->ctrl2 & 1)) x = hercules->crtc[1] << 4; else x = hercules->crtc[1] * 9; hercules->lastline++; if (x != xsize || (hercules->lastline - hercules->firstline) != ysize) { xsize = x; ysize = hercules->lastline - hercules->firstline; // printf("Resize to %i,%i - R1 %i\n",xsize,ysize,crtcm[1]); if (xsize < 64) xsize = 656; if (ysize < 32) ysize = 200; updatewindowsize(xsize, ysize); } video_blit_memtoscreen_8(0, hercules->firstline, xsize, ysize); frames++; if ((hercules->ctrl & 2) && (hercules->ctrl2 & 1)) { video_res_x = hercules->crtc[1] * 16; video_res_y = hercules->crtc[6] * 4; video_bpp = 1; } else { video_res_x = hercules->crtc[1]; video_res_y = hercules->crtc[6]; video_bpp = 0; } } hercules->firstline = 1000; hercules->lastline = 0; hercules->blink++; } } else { hercules->sc++; hercules->sc &= 31; hercules->ma = hercules->maback; } if ((hercules->sc == (hercules->crtc[10] & 31) || ((hercules->crtc[8] & 3) == 3 && hercules->sc == ((hercules->crtc[10] & 31) >> 1)))) { hercules->con = 1; // printf("Cursor on - %02X %02X %02X\n",crtcm[8],crtcm[10],crtcm[11]); } } } void *hercules_init() { int c; hercules_t *hercules = malloc(sizeof(hercules_t)); memset(hercules, 0, sizeof(hercules_t)); hercules->vram = malloc(0x10000); timer_add(hercules_poll, &hercules->vidtime, TIMER_ALWAYS_ENABLED, hercules); mem_mapping_add(&hercules->mapping, 0xb0000, 0x08000, hercules_read, NULL, NULL, hercules_write, NULL, NULL, NULL, 0, hercules); io_sethandler(0x03b0, 0x0010, hercules_in, NULL, NULL, hercules_out, NULL, NULL, hercules); for (c = 0; c < 256; c++) { mdacols[c][0][0] = mdacols[c][1][0] = mdacols[c][1][1] = 16; if (c & 8) mdacols[c][0][1] = 15 + 16; else mdacols[c][0][1] = 7 + 16; } mdacols[0x70][0][1] = 16; mdacols[0x70][0][0] = mdacols[0x70][1][0] = mdacols[0x70][1][1] = 16 + 15; mdacols[0xF0][0][1] = 16; mdacols[0xF0][0][0] = mdacols[0xF0][1][0] = mdacols[0xF0][1][1] = 16 + 15; mdacols[0x78][0][1] = 16 + 7; mdacols[0x78][0][0] = mdacols[0x78][1][0] = mdacols[0x78][1][1] = 16 + 15; mdacols[0xF8][0][1] = 16 + 7; mdacols[0xF8][0][0] = mdacols[0xF8][1][0] = mdacols[0xF8][1][1] = 16 + 15; mdacols[0x00][0][1] = mdacols[0x00][1][1] = 16; mdacols[0x08][0][1] = mdacols[0x08][1][1] = 16; mdacols[0x80][0][1] = mdacols[0x80][1][1] = 16; mdacols[0x88][0][1] = mdacols[0x88][1][1] = 16; overscan_x = overscan_y = 0; return hercules; } void hercules_close(void *p) { hercules_t *hercules = (hercules_t *)p; free(hercules->vram); free(hercules); } void hercules_speed_changed(void *p) { hercules_t *hercules = (hercules_t *)p; hercules_recalctimings(hercules); } device_t hercules_device = { "Hercules", 0, hercules_init, hercules_close, NULL, hercules_speed_changed, NULL, NULL };