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id_vh.cpp
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id_vh.cpp
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#include "wl_def.h"
pictabletype *pictable;
SDL_Surface *latchpics[NUMLATCHPICS];
int px,py;
byte fontcolor,backcolor;
int fontnumber;
//==========================================================================
void VWB_DrawPropString(const char* string)
{
fontstruct *font;
int width, step, height;
byte *source, *dest;
byte ch;
byte *vbuf = LOCK();
font = (fontstruct *) grsegs[STARTFONT+fontnumber];
height = font->height;
dest = vbuf + scaleFactor * (py * curPitch + px);
while ((ch = (byte)*string++)!=0)
{
width = step = font->width[ch];
source = ((byte *)font)+font->location[ch];
while (width--)
{
for(int i=0;i<height;i++)
{
if(source[i*step])
{
for(unsigned sy=0; sy<scaleFactor; sy++)
for(unsigned sx=0; sx<scaleFactor; sx++)
dest[(scaleFactor*i+sy)*curPitch+sx]=fontcolor;
}
}
source++;
px++;
dest+=scaleFactor;
}
}
UNLOCK();
}
/*
=================
=
= VL_MungePic
=
=================
*/
void VL_MungePic (byte *source, unsigned width, unsigned height)
{
unsigned x,y,plane,size,pwidth;
byte *temp, *dest, *srcline;
size = width*height;
if (width&3)
Quit ("VL_MungePic: Not divisable by 4!");
//
// copy the pic to a temp buffer
//
temp=(byte *) malloc(size);
CHECKMALLOCRESULT(temp);
memcpy (temp,source,size);
//
// munge it back into the original buffer
//
dest = source;
pwidth = width/4;
for (plane=0;plane<4;plane++)
{
srcline = temp;
for (y=0;y<height;y++)
{
for (x=0;x<pwidth;x++)
*dest++ = *(srcline+x*4+plane);
srcline+=width;
}
}
free(temp);
}
void VWL_MeasureString (const char *string, word *width, word *height, fontstruct *font)
{
*height = font->height;
for (*width = 0;*string;string++)
*width += font->width[*((byte *)string)]; // proportional width
}
void VW_MeasurePropString (const char *string, word *width, word *height)
{
VWL_MeasureString(string,width,height,(fontstruct *)grsegs[STARTFONT+fontnumber]);
}
/*
=============================================================================
Double buffer management routines
=============================================================================
*/
void VH_UpdateScreen()
{
SDL_BlitSurface(screenBuffer, NULL, screen, NULL);
SDL_Flip(screen);
}
void VWB_DrawTile8 (int x, int y, int tile)
{
LatchDrawChar(x,y,tile);
}
void VWB_DrawTile8M (int x, int y, int tile)
{
VL_MemToScreen (((byte *)grsegs[STARTTILE8M])+tile*64,8,8,x,y);
}
void VWB_DrawPic (int x, int y, int chunknum)
{
int picnum = chunknum - STARTPICS;
unsigned width,height;
x &= ~7;
width = pictable[picnum].width;
height = pictable[picnum].height;
VL_MemToScreen (grsegs[chunknum],width,height,x,y);
}
void VWB_DrawPicScaledCoord (int scx, int scy, int chunknum)
{
int picnum = chunknum - STARTPICS;
unsigned width,height;
width = pictable[picnum].width;
height = pictable[picnum].height;
VL_MemToScreenScaledCoord (grsegs[chunknum],width,height,scx,scy);
}
void VWB_Bar (int x, int y, int width, int height, int color)
{
VW_Bar (x,y,width,height,color);
}
void VWB_Plot (int x, int y, int color)
{
if(scaleFactor == 1)
VW_Plot(x,y,color);
else
VW_Bar(x, y, 1, 1, color);
}
void VWB_Hlin (int x1, int x2, int y, int color)
{
if(scaleFactor == 1)
VW_Hlin(x1,x2,y,color);
else
VW_Bar(x1, y, x2-x1+1, 1, color);
}
void VWB_Vlin (int y1, int y2, int x, int color)
{
if(scaleFactor == 1)
VW_Vlin(y1,y2,x,color);
else
VW_Bar(x, y1, 1, y2-y1+1, color);
}
/*
=============================================================================
WOLFENSTEIN STUFF
=============================================================================
*/
/*
=====================
=
= LatchDrawPic
=
=====================
*/
void LatchDrawPic (unsigned x, unsigned y, unsigned picnum)
{
VL_LatchToScreen (latchpics[2+picnum-LATCHPICS_LUMP_START], x*8, y);
}
void LatchDrawPicScaledCoord (unsigned scx, unsigned scy, unsigned picnum)
{
VL_LatchToScreenScaledCoord (latchpics[2+picnum-LATCHPICS_LUMP_START], scx*8, scy);
}
//==========================================================================
/*
===================
=
= LoadLatchMem
=
===================
*/
void LoadLatchMem (void)
{
int i,width,height,start,end;
byte *src;
SDL_Surface *surf;
//
// tile 8s
//
surf = SDL_CreateRGBSurface(SDL_HWSURFACE, 8*8,
((NUMTILE8 + 7) / 8) * 8, 8, 0, 0, 0, 0);
if(surf == NULL)
{
Quit("Unable to create surface for tiles!");
}
SDL_SetColors(surf, gamepal, 0, 256);
latchpics[0] = surf;
CA_CacheGrChunk (STARTTILE8);
src = grsegs[STARTTILE8];
for (i=0;i<NUMTILE8;i++)
{
VL_MemToLatch (src, 8, 8, surf, (i & 7) * 8, (i >> 3) * 8);
src += 64;
}
UNCACHEGRCHUNK (STARTTILE8);
//
// pics
//
start = LATCHPICS_LUMP_START;
end = LATCHPICS_LUMP_END;
for (i=start;i<=end;i++)
{
width = pictable[i-STARTPICS].width;
height = pictable[i-STARTPICS].height;
surf = SDL_CreateRGBSurface(SDL_HWSURFACE, width, height, 8, 0, 0, 0, 0);
if(surf == NULL)
{
Quit("Unable to create surface for picture!");
}
SDL_SetColors(surf, gamepal, 0, 256);
latchpics[2+i-start] = surf;
CA_CacheGrChunk (i);
VL_MemToLatch (grsegs[i], width, height, surf, 0, 0);
UNCACHEGRCHUNK(i);
}
}
//==========================================================================
/*
===================
=
= FizzleFade
=
= returns true if aborted
=
= It uses maximum-length Linear Feedback Shift Registers (LFSR) counters.
= You can find a list of them with lengths from 3 to 168 at:
= http://www.xilinx.com/support/documentation/application_notes/xapp052.pdf
= Many thanks to Xilinx for this list!!!
=
===================
*/
// XOR masks for the pseudo-random number sequence starting with n=17 bits
static const uint32_t rndmasks[] = {
// n XNOR from (starting at 1, not 0 as usual)
0x00012000, // 17 17,14
0x00020400, // 18 18,11
0x00040023, // 19 19,6,2,1
0x00090000, // 20 20,17
0x00140000, // 21 21,19
0x00300000, // 22 22,21
0x00420000, // 23 23,18
0x00e10000, // 24 24,23,22,17
0x01200000, // 25 25,22 (this is enough for 8191x4095)
};
static unsigned int rndbits_y;
static unsigned int rndmask;
extern SDL_Color curpal[256];
// Returns the number of bits needed to represent the given value
static int log2_ceil(uint32_t x)
{
int n = 0;
uint32_t v = 1;
while(v < x)
{
n++;
v <<= 1;
}
return n;
}
void VH_Startup()
{
int rndbits_x = log2_ceil(screenWidth);
rndbits_y = log2_ceil(screenHeight);
int rndbits = rndbits_x + rndbits_y;
if(rndbits < 17)
rndbits = 17; // no problem, just a bit slower
else if(rndbits > 25)
rndbits = 25; // fizzle fade will not fill whole screen
rndmask = rndmasks[rndbits - 17];
}
boolean FizzleFade (SDL_Surface *source, int x1, int y1,
unsigned width, unsigned height, unsigned frames, boolean abortable)
{
unsigned x, y, frame, pixperframe;
int32_t rndval, lastrndval;
int first = 1;
lastrndval = 0;
pixperframe = width * height / frames;
IN_StartAck ();
frame = GetTimeCount();
byte *srcptr = VL_LockSurface(source);
do
{
if(abortable && IN_CheckAck ())
{
VL_UnlockSurface(source);
SDL_BlitSurface(source, NULL, screen, NULL);
SDL_Flip(screen);
return true;
}
byte *destptr = VL_LockSurface(screen);
rndval = lastrndval;
// When using double buffering, we have to copy the pixels of the last AND the current frame.
// Only for the first frame, there is no "last frame"
for(int i = first; i < 2; i++)
{
for(unsigned p = 0; p < pixperframe; p++)
{
//
// seperate random value into x/y pair
//
x = rndval >> rndbits_y;
y = rndval & ((1 << rndbits_y) - 1);
//
// advance to next random element
//
rndval = (rndval >> 1) ^ (rndval & 1 ? 0 : rndmask);
if(x >= width || y >= height)
{
if(rndval == 0) // entire sequence has been completed
goto finished;
p--;
continue;
}
//
// copy one pixel
//
if(screenBits == 8)
{
*(destptr + (y1 + y) * screen->pitch + x1 + x)
= *(srcptr + (y1 + y) * source->pitch + x1 + x);
}
else
{
byte col = *(srcptr + (y1 + y) * source->pitch + x1 + x);
uint32_t fullcol = SDL_MapRGB(screen->format, curpal[col].r, curpal[col].g, curpal[col].b);
memcpy(destptr + (y1 + y) * screen->pitch + (x1 + x) * screen->format->BytesPerPixel,
&fullcol, screen->format->BytesPerPixel);
}
if(rndval == 0) // entire sequence has been completed
goto finished;
}
if(!i || first) lastrndval = rndval;
}
// If there is no double buffering, we always use the "first frame" case
if(usedoublebuffering) first = 0;
VL_UnlockSurface(screen);
SDL_Flip(screen);
frame++;
Delay(frame - GetTimeCount()); // don't go too fast
} while (1);
finished:
VL_UnlockSurface(source);
VL_UnlockSurface(screen);
SDL_BlitSurface(source, NULL, screen, NULL);
SDL_Flip(screen);
return false;
}