/* ibmpc.c * * The routines in this file provide support for the IBM-PC and other * compatible terminals. It goes directly to the graphics RAM to do * screen output. It compiles into nothing if not an IBM-PC driver * Supported monitor cards include CGA, MONO and EGA. * * modified by Petri Kutvonen */ #define termdef 1 /* don't define "term" external */ #include #include "estruct.h" #include "edef.h" #if IBMPC #if PKCODE #define NROW 50 #else #define NROW 43 /* Max Screen size. */ #endif #define NCOL 80 /* Edit if you want to. */ #define MARGIN 8 /* size of minimim margin and */ #define SCRSIZ 64 /* scroll size for extended lines */ #define NPAUSE 200 /* # times thru update to pause */ #define BEL 0x07 /* BEL character. */ #define ESC 0x1B /* ESC character. */ #define SPACE 32 /* space character */ #define SCADC 0xb8000000L /* CGA address of screen RAM */ #define SCADM 0xb0000000L /* MONO address of screen RAM */ #define SCADE 0xb8000000L /* EGA address of screen RAM */ #define MONOCRSR 0x0B0D /* monochrome cursor */ #define CGACRSR 0x0607 /* CGA cursor */ #define EGACRSR 0x0709 /* EGA cursor */ #define CDCGA 0 /* color graphics card */ #define CDMONO 1 /* monochrome text card */ #define CDEGA 2 /* EGA color adapter */ #if PKCODE #define CDVGA 3 #endif #define CDSENSE 9 /* detect the card type */ #if PKCODE #define NDRIVE 4 #else #define NDRIVE 3 /* number of screen drivers */ #endif int dtype = -1; /* current display type */ char drvname[][8] = { /* screen resolution names */ "CGA", "MONO", "EGA" #if PKCODE , "VGA" #endif }; long scadd; /* address of screen ram */ int *scptr[NROW]; /* pointer to screen lines */ unsigned int sline[NCOL]; /* screen line image */ int egaexist = FALSE; /* is an EGA card available? */ extern union REGS rg; /* cpu register for use of DOS calls */ extern int ttopen(); /* Forward references. */ extern int ttgetc(); extern int ttputc(); extern int ttflush(); extern int ttclose(); extern int ibmmove(); extern int ibmeeol(); extern int ibmeeop(); extern int ibmbeep(); extern int ibmopen(); extern int ibmrev(); extern int ibmcres(); extern int ibmclose(); extern int ibmputc(); extern int ibmkopen(); extern int ibmkclose(); #if COLOR extern int ibmfcol(); extern int ibmbcol(); extern int ibmscroll_reg(); int cfcolor = -1; /* current forground color */ int cbcolor = -1; /* current background color */ int ctrans[] = /* ansi to ibm color translation table */ #if PKCODE { 0, 4, 2, 6, 1, 5, 3, 7, 15 }; #else { 0, 4, 2, 6, 1, 5, 3, 7 }; #endif #endif /* * Standard terminal interface dispatch table. Most of the fields point into * "termio" code. */ struct terminal term = { NROW - 1, NROW - 1, NCOL, NCOL, MARGIN, SCRSIZ, NPAUSE, ibmopen, ibmclose, ibmkopen, ibmkclose, ttgetc, ibmputc, ttflush, ibmmove, ibmeeol, ibmeeop, ibmbeep, ibmrev, ibmcres #if COLOR , ibmfcol, ibmbcol #endif #if SCROLLCODE , ibmscroll_reg #endif }; #if COLOR /* Set the current output color. * * @color: color to set. */ void ibmfcol(int color) { cfcolor = ctrans[color]; } /* Set the current background color. * * @color: color to set. */ void ibmbcol(int color) { cbcolor = ctrans[color]; } #endif void ibmmove(int row, int col) { rg.h.ah = 2; /* set cursor position function code */ rg.h.dl = col; rg.h.dh = row; rg.h.bh = 0; /* set screen page number */ int86(0x10, &rg, &rg); } void ibmeeol(void) { /* erase to the end of the line */ unsigned int attr; /* attribute byte mask to place in RAM */ unsigned int *lnptr; /* pointer to the destination line */ int i; int ccol; /* current column cursor lives */ int crow; /* row */ /* find the current cursor position */ rg.h.ah = 3; /* read cursor position function code */ rg.h.bh = 0; /* current video page */ int86(0x10, &rg, &rg); ccol = rg.h.dl; /* record current column */ crow = rg.h.dh; /* and row */ /* build the attribute byte and setup the screen pointer */ #if COLOR if (dtype != CDMONO) attr = (((cbcolor & 15) << 4) | (cfcolor & 15)) << 8; else attr = 0x0700; #else attr = 0x0700; #endif lnptr = &sline[0]; for (i = 0; i < term.t_ncol; i++) *lnptr++ = SPACE | attr; if (flickcode && (dtype == CDCGA)) { /* wait for vertical retrace to be off */ while ((inp(0x3da) & 8)); /* and to be back on */ while ((inp(0x3da) & 8) == 0); } /* and send the string out */ movmem(&sline[0], scptr[crow] + ccol, (term.t_ncol - ccol) * 2); } /* Put a character at the current position in the current colors */ void ibmputc(int ch) { rg.h.ah = 14; /* write char to screen with current attrs */ rg.h.al = ch; #if COLOR if (dtype != CDMONO) rg.h.bl = cfcolor; else rg.h.bl = 0x07; #else rg.h.bl = 0x07; #endif int86(0x10, &rg, &rg); } void ibmeeop(void) { int attr; /* attribute to fill screen with */ rg.h.ah = 6; /* scroll page up function code */ rg.h.al = 0; /* # lines to scroll (clear it) */ rg.x.cx = 0; /* upper left corner of scroll */ rg.x.dx = (term.t_nrow << 8) | (term.t_ncol - 1); /* lower right corner of scroll */ #if COLOR if (dtype != CDMONO) attr = ((ctrans[gbcolor] & 15) << 4) | (ctrans[gfcolor] & 15); else attr = 0; #else attr = 0; #endif rg.h.bh = attr; int86(0x10, &rg, &rg); } /* Change reverse video state. * * @state: TRUE = reverse, FALSE = normal. */ void ibmrev(int state) { /* This never gets used under the IBM-PC driver */ } /* Change screen resolution. * * @res: resolution to change to. */ void ibmcres(char *res) { int i; for (i = 0; i < NDRIVE; i++) { if (strcmp(res, drvname[i]) == 0) { scinit(i); return TRUE; } } return FALSE; } #if SCROLLCODE /* Move howmany lines starting at from to to. */ void ibmscroll_reg(from, to, howmany) { int i; if (to < from) { for (i = 0; i < howmany; i++) { movmem(scptr[from + i], scptr[to + i], term.t_ncol * 2); } } else if (to > from) { for (i = howmany - 1; i >= 0; i--) { movmem(scptr[from + i], scptr[to + i], term.t_ncol * 2); } } } #endif void ibmbeep(void) { bdos(6, BEL, 0); } void ibmopen(void) { scinit(CDSENSE); revexist = TRUE; ttopen(); } void ibmclose(void) { #if COLOR ibmfcol(7); ibmbcol(0); #endif /* if we had the EGA open... close it */ if (dtype == CDEGA) egaclose(); #if PKCODE if (dtype == CDVGA) egaclose(); #endif ttclose(); } /* Open the keyboard. */ void ibmkopen(void) { } /* Close the keyboard. */ void ibmkclose(void) { } /* Initialize the screen head pointers. * * @type: type of adapter to init for. */ static int scinit(int type) { union { long laddr; /* long form of address */ int *paddr; /* pointer form of address */ } addr; int i; /* if asked...find out what display is connected */ if (type == CDSENSE) type = getboard(); /* if we have nothing to do....don't do it */ if (dtype == type) return TRUE; /* if we try to switch to EGA and there is none, don't */ if (type == CDEGA && egaexist != TRUE) return FALSE; /* if we had the EGA open... close it */ if (dtype == CDEGA) egaclose(); #if PKCODE if (dtype == CDVGA) egaclose(); #endif /* and set up the various parameters as needed */ switch (type) { case CDMONO: /* Monochrome adapter */ scadd = SCADM; newsize(TRUE, 25); break; case CDCGA: /* Color graphics adapter */ scadd = SCADC; newsize(TRUE, 25); break; case CDEGA: /* Enhanced graphics adapter */ scadd = SCADE; egaopen(); newsize(TRUE, 43); break; case CDVGA: /* Enhanced graphics adapter */ scadd = SCADE; egaopen(); newsize(TRUE, 50); break; } /* reset the $sres environment variable */ strcpy(sres, drvname[type]); dtype = type; /* initialize the screen pointer array */ for (i = 0; i < NROW; i++) { addr.laddr = scadd + (long) (NCOL * i * 2); scptr[i] = addr.paddr; } return TRUE; } /* getboard: Determine which type of display board is attached. Current known types include: CDMONO Monochrome graphics adapter CDCGA Color Graphics Adapter CDEGA Extended graphics Adapter */ /* getboard: Detect the current display adapter if MONO set to MONO CGA set to CGA EGAexist = FALSE EGA set to CGA EGAexist = TRUE */ int getboard(void) { int type; /* board type to return */ type = CDCGA; int86(0x11, &rg, &rg); if ((((rg.x.ax >> 4) & 3) == 3)) type = CDMONO; /* test if EGA present */ rg.x.ax = 0x1200; rg.x.bx = 0xff10; int86(0x10, &rg, &rg); /* If EGA, bh=0-1 and bl=0-3 */ egaexist = !(rg.x.bx & 0xfefc); /* Yes, it's EGA */ return type; } /* init the computer to work with the EGA */ void egaopen(void) { /* put the beast into EGA 43 row mode */ rg.x.ax = 3; int86(16, &rg, &rg); rg.h.ah = 17; /* set char. generator function code */ rg.h.al = 18; /* to 8 by 8 double dot ROM */ rg.h.bl = 0; /* block 0 */ int86(16, &rg, &rg); rg.h.ah = 18; /* alternate select function code */ rg.h.al = 0; /* clear AL for no good reason */ rg.h.bl = 32; /* alt. print screen routine */ int86(16, &rg, &rg); rg.h.ah = 1; /* set cursor size function code */ rg.x.cx = 0x0607; /* turn cursor on code */ int86(0x10, &rg, &rg); outp(0x3d4, 10); /* video bios bug patch */ outp(0x3d5, 6); } void egaclose(void) { /* put the beast into 80 column mode */ rg.x.ax = 3; int86(16, &rg, &rg); } /* Write a line out. * * @row: row of screen to place outstr on. * @outstr: string to write out (must be term.t_ncol long). * @forg: forground color of string to write. * @bacg: background color. */ void scwrite(int row, char *outstr, int forg, int bacg) { unsigned int attr; /* attribute byte mask to place in RAM */ unsigned int *lnptr; /* pointer to the destination line */ int i; /* build the attribute byte and setup the screen pointer */ #if COLOR if (dtype != CDMONO) attr = (((ctrans[bacg] & 15) << 4) | (ctrans[forg] & 15)) << 8; else attr = (((bacg & 15) << 4) | (forg & 15)) << 8; #else attr = (((bacg & 15) << 4) | (forg & 15)) << 8; #endif lnptr = &sline[0]; for (i = 0; i < term.t_ncol; i++) *lnptr++ = (outstr[i] & 255) | attr; if (flickcode && (dtype == CDCGA)) { /* wait for vertical retrace to be off */ while ((inp(0x3da) & 8)); /* and to be back on */ while ((inp(0x3da) & 8) == 0); } /* and send the string out */ movmem(&sline[0], scptr[row], term.t_ncol * 2); } #endif