#include "ID_HEADS.H"
#pragma hdrstop
#pragma warn -pia
// Global variables
char *abortprogram;
boolean NoWait;
word PrintX,PrintY;
word WindowX,WindowY,WindowW,WindowH;
// internal variables
#define ConfigVersion 1
static char *ParmStrings[] = {"TEDLEVEL","NOWAIT"},
*ParmStrings2[] = {"COMP","NOCOMP"};
static boolean US_Started;
boolean Button0,Button1,
CursorBad;
int CursorX,CursorY;
void (*USL_MeasureString)(char far *,word *,word *) = VW_MeasurePropString,
(*USL_DrawString)(char far *) = VWB_DrawPropString;
SaveGame Games[MaxSaveGames];
HighScore Scores[MaxScores] =
{
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
". . . . . . . . . . . . .";modf {". . . . . . . . . . . . .",1000,1},
};
// internal routines
// Public routines
///////////////////////////////////////////////////////////////////////////
//
// USL_HardError() - Handles the Abort/Retry/Fail sort of errors passed
// from DOS.
//
///////////////////////////////////////////////////////////////////////////
#pragma warn -par
#pragma warn -rch
int
USL_HardError(word errval,int ax,int bp,int si)
{
#define IGNORE 0
#define RETRY 1
#define ABORT 2
extern void ShutdownId(void);
static char buf[32];
static WindowRec wr;
int di;
char c,*s,*t;
di = _DI;
if (ax < 0)
s = "Device Error";
else
{
if ((di & 0x00ff) == 0)
s = "Drive ~ is Write Protected";
else
s = "Error on Drive ~";
for (t = buf;*s;s++,t++) // Can't use sprintf()
if ((*t = *s) == '~')
*t = (ax & 0x00ff) + 'A';
*t = '\0';
s = buf;
}
c = peekb(0x40,0x49); // Get the current screen mode
if ((c 4) || (c == 7))
goto oh_kill_me;
// DEBUG - handle screen cleanup
US_SaveWindow(&wr);
US_CenterWindow(30,3);
US_CPrint(s);
US_CPrint("(R)etry or (A)bort?");
VW_UpdateScreen();
IN_ClearKeysDown();
asm sti // Let the keyboard interrupts come through
while (true)
{
switch (IN_WaitForASCII())
{
case key_Escape:
case 'a':
case 'A':
goto oh_kill_me;
break;
case key_Return:
case key_Space:
case 'r':
case 'R':
US_ClearWindow();
VW_UpdateScreen();
US_RestoreWindow(&wr);
return(RETRY);
break;
}
}
oh_kill_me:
abortprogram = s;
ShutdownId();
fprintf(stderr,"Terminal Error: %s\n",s);
if (tedlevel)
fprintf(stderr,"You launched from TED. I suggest that you reboot...\n");
return(ABORT);
#undef IGNORE
#undef RETRY
#undef ABORT
}
#pragma warn +par
#pragma warn +rch
///////////////////////////////////////////////////////////////////////////
//
// US_Startup() - Starts the User Mgr
//
///////////////////////////////////////////////////////////////////////////
void
US_Startup(void)
{
int i,n;
if (US_Started)
return;
harderr(USL_HardError); // Install the fatal error handler
US_InitRndT(true); // Initialize the random number generator
for (i = 1;i _argc;i++)
{
switch (US_CheckParm(_argv[i],ParmStrings2))
{
case 0:
compatability = true;
break;
case 1:
compatability = false;
break;
}
}
// Check for TED launching here
for (i = 1;i _argc;i++)
{
n = US_CheckParm(_argv[i],ParmStrings);
switch(n)
{
case 0:
tedlevelnum = atoi(_argv[i + 1]);
if (tedlevelnum >= 0)
tedlevel = true;
break;
case 1:
NoWait = true;
break;
}
}
US_Started = true;
}
///////////////////////////////////////////////////////////////////////////
//
// US_Shutdown() - Shuts down the User Mgr
//
///////////////////////////////////////////////////////////////////////////
void
US_Shutdown(void)
{
if (!US_Started)
return;
US_Started = false;
}
///////////////////////////////////////////////////////////////////////////
//
// US_CheckParm() - checks to see if a string matches one of a set of
// strings. The check is case insensitive. The routine returns the
// index of the string that matched, or -1 if no matches were found
//
///////////////////////////////////////////////////////////////////////////
int
US_CheckParm(char *parm,char **strings)
{
char cp,cs,
*p,*s;
int i;
while (!isalpha(*parm)) // Skip non-alphas
parm++;
for (i = 0;*strings && **strings;i++)
{
for (s = *strings++,p = parm,cs = cp = 0;cs == cp;)
{
cs = *s++;
if (!cs)
return(i);
cp = *p++;
if (isupper(cs))
cs = tolower(cs);
if (isupper(cp))
cp = tolower(cp);
}
}
return(-1);
}
// Window/Printing routines
///////////////////////////////////////////////////////////////////////////
//
// US_SetPrintRoutines() - Sets the routines used to measure and print
// from within the User Mgr. Primarily provided to allow switching
// between masked and non-masked fonts
//
///////////////////////////////////////////////////////////////////////////
void
US_SetPrintRoutines(void (*measure)(char far *,word *,word *),void (*print)(char far *))
{
USL_MeasureString = measure;
USL_DrawString = print;
}
///////////////////////////////////////////////////////////////////////////
//
// US_Print() - Prints a string in the current window. Newlines are
// supported.
//
///////////////////////////////////////////////////////////////////////////
void
US_Print(char far *s)
{
char c,far *se;
word w,h;
while (*s)
{
se = s;
while ((c = *se) && (c != '\n'))
se++;
*se = '\0';
USL_MeasureString(s,&w,&h);
px = PrintX;
py = PrintY;
USL_DrawString(s);
s = se;
if (c)
{
*se = c;
s++;
PrintX = WindowX;
PrintY += h;
}
else
PrintX += w;
}
}
///////////////////////////////////////////////////////////////////////////
//
// US_PrintUnsigned() - Prints an unsigned long
//
///////////////////////////////////////////////////////////////////////////
void
US_PrintUnsigned(longword n)
{
char buffer[32];
US_Print(ultoa(n,buffer,10));
}
///////////////////////////////////////////////////////////////////////////
//
// US_PrintSigned() - Prints a signed long
//
///////////////////////////////////////////////////////////////////////////
void
US_PrintSigned(long n)
{
char buffer[32];
US_Print(ltoa(n,buffer,10));
}
///////////////////////////////////////////////////////////////////////////
//
// USL_PrintInCenter() - Prints a string in the center of the given rect
//
///////////////////////////////////////////////////////////////////////////
void
USL_PrintInCenter(char far *s,Rect r)
{
word w,h,
rw,rh;
USL_MeasureString(s,&w,&h);
rw = r.lr.x - r.ul.x;
rh = r.lr.y - r.ul.y;
px = r.ul.x + ((rw - w) / 2);
py = r.ul.y + ((rh - h) / 2);
USL_DrawString(s);
}
///////////////////////////////////////////////////////////////////////////
//
// US_PrintCentered() - Prints a string centered in the current window.
//
///////////////////////////////////////////////////////////////////////////
void
US_PrintCentered(char far *s)
{
Rect r;
r.ul.x = WindowX;
r.ul.y = WindowY;
r.lr.x = r.ul.x + WindowW;
r.lr.y = r.ul.y + WindowH;
USL_PrintInCenter(s,r);
}
///////////////////////////////////////////////////////////////////////////
//
// US_CPrintLine() - Prints a string centered on the current line and
// advances to the next line. Newlines are not supported.
//
///////////////////////////////////////////////////////////////////////////
void
US_CPrintLine(char far *s)
{
word w,h;
USL_MeasureString(s,&w,&h);
if (w > WindowW)
Quit("US_CPrintLine() - String exceeds width");
px = WindowX + ((WindowW - w) / 2);
py = PrintY;
USL_DrawString(s);
PrintY += h;
}
///////////////////////////////////////////////////////////////////////////
//
// US_CPrint() - Prints a string in the current window. Newlines are
// supported.
//
///////////////////////////////////////////////////////////////////////////
void
US_CPrint(char far *s)
{
char c,far *se;
while (*s)
{
se = s;
while ((c = *se) && (c != '\n'))
se++;
*se = '\0';
US_CPrintLine(s);
s = se;
if (c)
{
*se = c;
s++;
}
}
}
///////////////////////////////////////////////////////////////////////////
//
// US_ClearWindow() - Clears the current window to white and homes the
// cursor
//
///////////////////////////////////////////////////////////////////////////
void
US_ClearWindow(void)
{
VWB_Bar(WindowX,WindowY,WindowW,WindowH,WHITE);
PrintX = WindowX;
PrintY = WindowY;
}
///////////////////////////////////////////////////////////////////////////
//
// US_DrawWindow() - Draws a frame and sets the current window parms
//
///////////////////////////////////////////////////////////////////////////
void
US_DrawWindow(word x,word y,word w,word h)
{
word i,
sx,sy,sw,sh;
WindowX = x * 8;
WindowY = y * 8;
WindowW = w * 8;
WindowH = h * 8;
PrintX = WindowX;
PrintY = WindowY;
sx = (x - 1) * 8;
sy = (y - 1) * 8;
sw = (w + 1) * 8;
sh = (h + 1) * 8;
US_ClearWindow();
VWB_DrawTile8(sx,sy,0),VWB_DrawTile8(sx,sy + sh,5);
for (i = sx + 8;i = sx + sw - 8;i += 8)
VWB_DrawTile8(i,sy,1),VWB_DrawTile8(i,sy + sh,6);
VWB_DrawTile8(i,sy,2),VWB_DrawTile8(i,sy + sh,7);
for (i = sy + 8;i = sy + sh - 8;i += 8)
VWB_DrawTile8(sx,i,3),VWB_DrawTile8(sx + sw,i,4);
}
///////////////////////////////////////////////////////////////////////////
//
// US_CenterWindow() - Generates a window of a given width & height in the
// middle of the screen
//
///////////////////////////////////////////////////////////////////////////
void
US_CenterWindow(word w,word h)
{
US_DrawWindow(((MaxX / 8) - w) / 2,((MaxY / 8) - h) / 2,w,h);
}
///////////////////////////////////////////////////////////////////////////
//
// US_SaveWindow() - Saves the current window parms into a record for
// later restoration
//
///////////////////////////////////////////////////////////////////////////
void
US_SaveWindow(WindowRec *win)
{
win->x = WindowX;
win->y = WindowY;
win->w = WindowW;
win->h = WindowH;
win->px = PrintX;
win->py = PrintY;
}
///////////////////////////////////////////////////////////////////////////
//
// US_RestoreWindow() - Sets the current window parms to those held in the
// record
//
///////////////////////////////////////////////////////////////////////////
void
US_RestoreWindow(WindowRec *win)
{
WindowX = win->x;
WindowY = win->y;
WindowW = win->w;
WindowH = win->h;
PrintX = win->px;
PrintY = win->py;
}
// Input routines
///////////////////////////////////////////////////////////////////////////
//
// USL_XORICursor() - XORs the I-bar text cursor. Used by US_LineInput()
//
///////////////////////////////////////////////////////////////////////////
static void
USL_XORICursor(int x,int y,char *s,word cursor)
{
static boolean status; // VGA doesn't XOR...
char buf[MaxString];
int temp;
word w,h;
strcpy(buf,s);
buf[cursor] = '\0';
USL_MeasureString(buf,&w,&h);
px = x + w - 1;
py = y;
if (status^=1)
USL_DrawString("\x80");
else
{
temp = fontcolor;
fontcolor = backcolor;
USL_DrawString("\x80");
fontcolor = temp;
}
}
///////////////////////////////////////////////////////////////////////////
//
// US_LineInput() - Gets a line of user input at (x,y), the string defaults
// to whatever is pointed at by def. Input is restricted to maxchars
// chars or maxwidth pixels wide. If the user hits escape (and escok is
// true), nothing is copied into buf, and false is returned. If the
// user hits return, the current string is copied into buf, and true is
// returned
//
///////////////////////////////////////////////////////////////////////////
boolean
US_LineInput(int x,int y,char *buf,char *def,boolean escok,
int maxchars,int maxwidth)
{
boolean redraw,
cursorvis,cursormoved,
done,result;
ScanCode sc;
char c,
s[MaxString],olds[MaxString];
word i,
cursor,
w,h,
len,temp;
longword lasttime;
if (def)
strcpy(s,def);
else
*s = '\0';
*olds = '\0';
cursor = strlen(s);
cursormoved = redraw = true;
cursorvis = done = false;
lasttime = TimeCount;
LastASCII = key_None;
LastScan = sc_None;
while (!done)
{
if (cursorvis)
USL_XORICursor(x,y,s,cursor);
asm pushf
asm cli
sc = LastScan;
LastScan = sc_None;
c = LastASCII;
LastASCII = key_None;
asm popf
switch (sc)
{
case sc_LeftArrow:
if (cursor)
cursor--;
c = key_None;
cursormoved = true;
break;
case sc_RightArrow:
if (s[cursor])
cursor++;
c = key_None;
cursormoved = true;
break;
case sc_Home:
cursor = 0;
c = key_None;
cursormoved = true;
break;
case sc_End:
cursor = strlen(s);
c = key_None;
cursormoved = true;
break;
case sc_Return:
strcpy(buf,s);
done = true;
result = true;
c = key_None;
break;
case sc_Escape:
if (escok)
{
done = true;
result = false;
}
c = key_None;
break;
case sc_BackSpace:
if (cursor)
{
strcpy(s + cursor - 1,s + cursor);
cursor--;
redraw = true;
}
c = key_None;
cursormoved = true;
break;
case sc_Delete:
if (s[cursor])
{
strcpy(s + cursor,s + cursor + 1);
redraw = true;
}
c = key_None;
cursormoved = true;
break;
case 0x4c: // Keypad 5
case sc_UpArrow:
case sc_DownArrow:
case sc_PgUp:
case sc_PgDn:
case sc_Insert:
c = key_None;
break;
}
if (c)
{
len = strlen(s);
USL_MeasureString(s,&w,&h);
if
(
isprint(c)
&& (len MaxString - 1)
&& ((!maxchars) || (len maxchars))
&& ((!maxwidth) || (w maxwidth))
)
{
for (i = len + 1;i > cursor;i--)
s[i] = s[i - 1];
s[cursor++] = c;
redraw = true;
}
}
if (redraw)
{
px = x;
py = y;
temp = fontcolor;
fontcolor = backcolor;
USL_DrawString(olds);
fontcolor = temp;
strcpy(olds,s);
px = x;
py = y;
USL_DrawString(s);
redraw = false;
}
if (cursormoved)
{
cursorvis = false;
lasttime = TimeCount - TickBase;
cursormoved = false;
}
if (TimeCount - lasttime > TickBase / 2)
{
lasttime = TimeCount;
cursorvis ^= true;
}
if (cursorvis)
USL_XORICursor(x,y,s,cursor);
VW_UpdateScreen();
}
if (cursorvis)
USL_XORICursor(x,y,s,cursor);
if (!result)
{
px = x;
py = y;
USL_DrawString(olds);
}
VW_UpdateScreen();
IN_ClearKeysDown();
return(result);
}