dos_compilers/Borland Turbo C v1/MCDISPLY.C

347 lines
8.0 KiB
C++
Raw Normal View History

2024-07-01 22:08:21 +02:00
/* Turbo C - (C) Copyright 1987 by Borland International */
#include <dos.h>
#include <stdio.h>
#include <string.h>
#include <mem.h>
#include "mcalc.h"
struct screenelement
{
char character;
char color;
};
void scroll(int direction, int lines, int x1, int y1, int x2, int y2,
int attrib)
/* Scrolls an area of the screen */
{
union REGS reg;
#if VIDEOWRITE
int row, size;
char far *source;
char far *dest;
if (direction <= RIGHT)
{
size = (x2 - x1 + 1) << 1;
source = displayptr + (y1 * 160) + (x1 << 1);
if (direction == RIGHT)
dest = source + (lines << 1);
else
dest = source - (lines << 1);
for (row = y1; row <= y2; row++)
{
movescreenmem(source, dest, size, snow);
source += 160;
dest += 160;
}
return;
}
#endif
reg.x.ax = ((direction + 4) << 8) + lines;
reg.h.bh = colortable[attrib];
reg.x.cx = (y1 << 8) + x1;
reg.x.dx = (y2 << 8) + x2;
int86(0X10, &reg, &reg);
} /* scroll */
int egainstalled(void)
/* Tests for the presence of an EGA */
{
union REGS reg;
reg.x.ax = 0X1200;
reg.x.bx = 0X0010;
reg.x.cx = 0XFFFF;
int86(0X10, &reg, &reg);
return((reg.x.cx == 0XFFFF) ? 0 : 1);
} /* egainstalled */
void setcursor(int startline, int endline)
/* Sets the shape of the cursor */
{
union REGS reg;
reg.h.ah = 1;
reg.x.cx = (startline << 8) + endline;
int86(0X10, &reg, &reg);
} /* setcursor */
void clrscr(void)
/* Clears the screen */
{
scroll(UP, 0, 0, 0, 79, 24, WHITE);
} /* clrscr */
void gotoxy(int col, int row)
/* Moves the cursor to a specific column and row */
{
union REGS reg;
reg.h.ah = 2;
reg.h.bh = 0;
reg.x.dx = (row << 8) + col;
int86(0X10, &reg, &reg);
} /* gotoxy */
#if VIDEOWRITE
void writef(int col, int row, int color, int width, va_list arg_list, ...)
/* Prints a string in video memory at a selected location in a color */
{
va_list arg_ptr;
char *format;
char output[81];
struct screenelement buffer[80];
int counter, len;
unsigned size;
va_start(arg_ptr, arg_list);
format = arg_list;
vsprintf(output, format, arg_ptr);
color = (color > 127) ? colortable[color - 128] + 128 : colortable[color];
if ((len = strlen(output)) < width)
setmem(&output[len], width - len, ' ');
size = width << 1;
setmem(buffer, size, color);
for (counter = 0; counter < width; counter++)
buffer[counter].character = output[counter];
movescreenmem((char far *)(buffer),
displayptr + (row * 160) + (col << 1), size, snow);
} /* writef */
#else
void writef(int col, int row, int color, int width, va_list arg_list, ...)
/* Prints a string in video memory at a selected location in a color */
{
va_list arg_ptr;
char *format;
char output[81];
int counter, len, oldcol, oldrow;
register pcol = col;
union REGS inreg, outreg;
va_start(arg_ptr, arg_list);
format = arg_list;
vsprintf(output, format, arg_ptr);
color = (color > 127) ? colortable[color - 128] + 128 : colortable[color];
if ((len = strlen(output)) < width)
setmem(&output[len], width - len, ' ');
inreg.h.ah = 3;
inreg.h.bh = 0;
int86(0X10, &inreg, &outreg);
oldrow = outreg.h.dh;
oldcol = outreg.h.dl;
inreg.h.ah = 9;
inreg.x.bx = color;
inreg.x.cx = 1;
for (counter = 0; counter < width; counter++)
{
gotoxy(pcol++, row);
inreg.h.al = output[counter];
int86(0X10, &inreg, &outreg);
}
gotoxy(oldcol, oldrow);
} /* writef */
#endif
void initcolortable(int blackwhite)
/* Sets up the color table */
{
int color, fg, bg, tempfg, tempbg;
if (!blackwhite)
{
for (color = 0; color < 128; color++)
colortable[color] = color;
}
else
{
for (fg = BLACK; fg <= WHITE; fg++)
{
for (bg = BLACK; bg <= LIGHTGRAY; bg++)
{
tempfg = ((fg >= DARKGRAY) ? WHITE : ((fg >= BLUE) ? LIGHTGRAY : fg));
if (bg != BLACK)
{
tempbg = LIGHTGRAY;
tempfg = ((tempfg <= DARKGRAY) && (tempfg != BLACK) ? DARKGRAY :
BLACK);
}
else
tempbg = BLACK;
colortable[fg + (bg << 4)] = tempfg + (tempbg << 4);
};
};
};
} /* initcolortable */
void printcol(void)
/* Prints the column headings */
{
int col;
char colstr[MAXCOLWIDTH + 1];
scroll(UP, 0, 0, 1, 79, 1, HEADERCOLOR);
for (col = leftcol; col <= rightcol; col++)
{
centercolstring(col, colstr);
writef(colstart[col - leftcol], 1, HEADERCOLOR, colwidth[col], colstr);
}
} /* printcol */
void clearlastcol()
/* Clears any data left in the last column */
{
int col;
if ((col = colstart[rightcol - leftcol] + colwidth[rightcol]) < 80)
scroll(UP, 0, col, 2, 79, SCREENROWS + 1, WHITE);
} /* clearlastcol */
void printrow(void)
/* Prints the row headings */
{
int row;
for (row = 0; row < SCREENROWS; row++)
writef(0, row + 2, HEADERCOLOR, LEFTMARGIN, "%-d", row + toprow + 1);
} /* printrow */
void displaycell(int col, int row, int highlighting, int updating)
/* Displays the contents of a cell */
{
int color;
char *s;
if ((updating) &&
((cell[col][row] == NULL) || (cell[col][row]->attrib != FORMULA)))
return;
s = cellstring(col, row, &color, FORMAT);
if (highlighting)
{
if (color == ERRORCOLOR)
color = HIGHLIGHTERRORCOLOR;
else
color = HIGHLIGHTCOLOR;
}
writef(colstart[col - leftcol], row - toprow + 2, color, colwidth[col],
"%s", s);
} /* displaycell */
void displaycol(int col, int updating)
/* Displays a column on the screen */
{
int row;
for (row = toprow; row <= bottomrow; row++)
displaycell(col, row, NOHIGHLIGHT, updating);
} /* displaycol */
void displayrow(int row, int updating)
/* Displays a row on the screen */
{
int col;
for (col = leftcol; col <= rightcol; col++)
displaycell(col, row, NOHIGHLIGHT, updating);
} /* displayrow */
void displayscreen(int updating)
/* Displays the current screen of the spreadsheet */
{
int row;
for (row = toprow; row <= bottomrow; row++)
displayrow(row, updating);
clearlastcol();
} /* displayscreen */
void clearinput(void)
/* Clears the input line */
{
scroll(UP, 0, 0, 24, 79, 24, WHITE);
gotoxy(0, 24);
} /* clearinput */
void changecursor(insmode)
/* Changes the cursor shape based on the current insert mode */
{
if (insmode)
{
if (colorcard)
setcursor(5, 7);
else
setcursor(9, 12);
}
else
{
if (colorcard)
setcursor(6, 7);
else
setcursor(10, 12);
}
} /* changecursor */
void showcelltype(void)
/* Prints the type of cell and what is in it */
{
char colstr[3], *s;
int color;
formdisplay = !formdisplay;
s = cellstring(curcol, currow, &color, NOFORMAT);
colstring(curcol, colstr);
if (curcell == NULL)
writef(0, 22, CELLTYPECOLOR, 80, "%s%d %s", colstr, currow + 1, MSGEMPTY);
else switch(curcell->attrib)
{
case TEXT :
writef(0, 22, CELLTYPECOLOR, 80, "%s%d %s", colstr, currow + 1,
MSGTEXT);
break;
case VALUE :
writef(0, 22, CELLTYPECOLOR, 80, "%s%d %s", colstr, currow + 1,
MSGVALUE);
break;
case FORMULA :
writef(0, 22, CELLTYPECOLOR, 80, "%s%d %s", colstr, currow + 1,
MSGFORMULA);
break;
} /* switch */
writef(0, 23, CELLCONTENTSCOLOR, 80, "%s", s);
formdisplay = !formdisplay;
} /* showcelltype */
void redrawscreen(void)
/* Displays the entire screen */
{
setrightcol();
setbottomrow();
writef(0, 0, MSGMEMORYCOLOR, strlen(MSGMEMORY), MSGMEMORY);
writef(28, 0, PROMPTCOLOR, strlen(MSGCOMMAND), MSGCOMMAND);
changeautocalc(autocalc);
changeformdisplay(formdisplay);
printfreemem();
displayscreen(NOUPDATE);
} /* redrawscreen */
void initdisplay(void)
/* Initializes various global variables - must be called before using the
above procedures and functions.
*/
{
union REGS reg;
reg.h.ah = 15;
int86(0X10, &reg, &reg);
colorcard = (reg.h.al != 7);
snow = (!egainstalled() && colorcard);
initcolortable(!colorcard || (reg.h.al == 0) || (reg.h.al == 2));
displayptr = (char far *)(colorcard ? 0XB8000000L : 0XB0000000L);
} /* initdisplay */