wwww yakuji wwww ca use to load maps w hmmm cachemap wwww

[16.git] / src / lib / 16_ca.c

/* Catacomb Apocalypse Source Code\r
 * Copyright (C) 1993-2014 Flat Rock Software\r
 *\r
 * This program is free software; you can redistribute it and/or modify\r
 * it under the terms of the GNU General Public License as published by\r
 * the Free Software Foundation; either version 2 of the License, or\r
 * (at your option) any later version.\r
 *\r
 * This program is distributed in the hope that it will be useful,\r
 * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the\r
 * GNU General Public License for more details.\r
 *\r
 * You should have received a copy of the GNU General Public License along\r
 * with this program; if not, write to the Free Software Foundation, Inc.,\r
 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.\r
 */\r
\r
// ID_CA.C\r
\r
/*\r
=============================================================================\r
\r
Id Software Caching Manager\r
---------------------------\r
\r
Must be started BEFORE the memory manager, because it needs to get the headers\r
loaded into the data segment\r
\r
=============================================================================\r
*/\r
\r
#include "src/lib/16_ca.h"\r
#pragma hdrstop\r
\r
#pragma warn -pro\r
#pragma warn -use\r
\r
//#define THREEBYTEGRSTARTS\r
//https://github.com/open-watcom/open-watcom-v2/issues/279#issuecomment-244587566 for _seg\r
/*\r
=============================================================================\r
\r
                                                 LOCAL CONSTANTS\r
\r
=============================================================================\r
*/\r
\r
typedef struct\r
{\r
  word bit0,bit1;       // 0-255 is a character, > is a pointer to a node\r
} huffnode;\r
\r
\r
/*typedef struct\r
{\r
        unsigned        RLEWtag;\r
        long            headeroffsets[100];\r
        byte            tileinfo[];\r
} mapfiletype;*/\r
\r
\r
/*\r
=============================================================================\r
\r
                                                 GLOBAL VARIABLES\r
\r
=============================================================================\r
*/\r
\r
/*byte          _seg    *tinf;\r
int                     mapon;\r
\r
unsigned        _seg    *mapsegs[3];\r
maptype         _seg    *mapheaderseg[NUMMAPS];\r
byte            _seg    *audiosegs[NUMSNDCHUNKS];\r
void            _seg    *grsegs[NUMCHUNKS];\r
\r
byte            far     grneeded[NUMCHUNKS];*/\r
\r
void    (*drawcachebox)         (char *title, unsigned numcache);\r
void    (*updatecachebox)       (void);\r
void    (*finishcachebox)       (void);\r
\r
/*\r
=============================================================================\r
\r
                                                 LOCAL VARIABLES\r
\r
=============================================================================\r
*/\r
\r
/*extern        long    far     CGAhead;\r
extern  long    far     EGAhead;\r
extern  byte    CGAdict;\r
extern  byte    EGAdict;\r
extern  byte    far     maphead;\r
extern  byte    mapdict;\r
extern  byte    far     audiohead;\r
extern  byte    audiodict;\r
\r
\r
long            _seg *grstarts; // array of offsets in egagraph, -1 for sparse\r
long            _seg *audiostarts;      // array of offsets in audio / audiot\r
\r
#ifdef GRHEADERLINKED\r
huffnode        *grhuffman;\r
#else\r
huffnode        grhuffman[255];\r
#endif\r
\r
#ifdef AUDIOHEADERLINKED\r
huffnode        *audiohuffman;\r
#else\r
huffnode        audiohuffman[255];\r
#endif\r
\r
\r
int                     grhandle;               // handle to EGAGRAPH\r
int                     maphandle;              // handle to MAPTEMP / GAMEMAPS\r
int                     audiohandle;    // handle to AUDIOT / AUDIO\r
\r
long            chunkcomplen,chunkexplen;\r
\r
SDMode          oldsoundmode;\r
\r
\r
\r
void    CAL_DialogDraw (char *title,unsigned numcache);\r
void    CAL_DialogUpdate (void);\r
void    CAL_DialogFinish (void);*/\r
//void  CAL_CarmackExpand (unsigned far *source, unsigned far *dest,unsigned length);\r
\r
\r
/*++++#ifdef THREEBYTEGRSTARTS\r
#define FILEPOSSIZE     3\r
//#define       GRFILEPOS(c) (*(long far *)(((byte far *)grstarts)+(c)*3)&0xffffff)\r
long GRFILEPOS(int c)\r
{\r
        long value;\r
        int     offset;\r
\r
        offset = c*3;\r
\r
        value = *(long far *)(((byte far *)grstarts)+offset);\r
\r
        value &= 0x00ffffffl;\r
\r
        if (value == 0xffffffl)\r
                value = -1;\r
\r
        return value;\r
};\r
#else\r
#define FILEPOSSIZE     4\r
#define GRFILEPOS(c) (grstarts[c])\r
#endif*/\r
\r
/*\r
=============================================================================\r
\r
                                           LOW LEVEL ROUTINES\r
\r
=============================================================================\r
*/\r
\r
/*\r
============================\r
=\r
= CA_OpenDebug / CA_CloseDebug\r
=\r
= Opens a binary file with the handle "debughandle"\r
=\r
============================\r
*/\r
void CA_OpenDebug(global_game_variables_t *gvar)\r
{\r
#ifdef __BORLANDC__\r
        unlink("debug.16b");\r
        gvar->handle.debughandle = open("debug.16b", O_CREAT | O_WRONLY | O_TEXT);\r
#endif\r
#ifdef __WATCOMC__\r
        unlink("debug.16w");\r
        gvar->handle.debughandle = open("debug.16w", O_CREAT | O_WRONLY | O_TEXT);\r
#endif\r
}\r
\r
void CA_CloseDebug(global_game_variables_t *gvar)\r
{\r
        close(gvar->handle.debughandle);\r
}\r
\r
\r
\r
/*\r
============================\r
=\r
= CAL_GetGrChunkLength\r
=\r
= Gets the length of an explicit length chunk (not tiles)\r
= The file pointer is positioned so the compressed data can be read in next.\r
=\r
============================\r
*/\r
/*++++\r
void CAL_GetGrChunkLength (int chunk)\r
{\r
        lseek(grhandle,GRFILEPOS(chunk),SEEK_SET);\r
        read(grhandle,&chunkexplen,sizeof(chunkexplen));\r
        chunkcomplen = GRFILEPOS(chunk+1)-GRFILEPOS(chunk)-4;\r
}*/\r
\r
\r
/*\r
==========================\r
=\r
= CA_FarRead\r
=\r
= Read from a file to a far pointer\r
=\r
==========================\r
*/\r
\r
boolean CA_FarRead(int handle, byte huge *dest, dword length, mminfo_t *mm)\r
{\r
        boolean flag;\r
        //dword fat=0;\r
        //word segm=0;\r
        if(mm->EMSVer<0x40)\r
        if(length>0xfffflu)\r
        {\r
                printf("File is a fat bakapee\n");\r
                //segm=(length%0xfffflu)-1;\r
                //fat=segm*0xfffflu;\r
                //length-=fat;\r
                printf("CA_FarRead doesn't support 64K reads yet!\n");\r
                return 0;//TODO: EXPAND!!!\r
        }\r
\r
        //if(!fat&&!segm)\r
        //{\r
                __asm {\r
                        push    ds\r
                        mov     bx,[handle]\r
                        mov     cx,[WORD PTR length]\r
                        mov     dx,[WORD PTR dest]\r
                        mov     ds,[WORD PTR dest+2]\r
                        mov     ah,0x3f                         // READ w/handle\r
                        int     21h\r
                        pop     ds\r
                        jnc     good\r
                        mov     errno,ax\r
                        mov     flag,0\r
                        jmp End\r
#ifdef __BORLANDC__\r
                }\r
#endif\r
good:\r
#ifdef __BORLANDC__\r
                __asm {\r
#endif\r
                        cmp     ax,[WORD PTR length]\r
                        je      done\r
//                      errno = EINVFMT;                        // user manager knows this is bad read\r
                        mov     flag,0\r
                        jmp End\r
#ifdef __BORLANDC__\r
                }\r
#endif\r
done:\r
#ifdef __BORLANDC__\r
                __asm {\r
#endif\r
                        mov     flag,1\r
#ifdef __BORLANDC__\r
                }\r
#endif\r
End:\r
#ifdef __WATCOMC__\r
                }\r
#endif\r
        return flag;\r
}\r
\r
\r
/*\r
==========================\r
=\r
= CA_SegWrite\r
=\r
= Write from a file to a far pointer\r
=\r
==========================\r
*/\r
\r
boolean CA_FarWrite(int handle, byte huge *source, dword length, mminfo_t *mm)\r
{\r
        boolean flag;\r
        //dword fat=0;\r
        //word segm=0;\r
        if(mm->EMSVer<0x40)\r
        if(length>0xfffflu)\r
        {\r
                printf("File is a fat bakapee\n");\r
                //segm=(length%0xfffflu)-1;\r
                //fat=segm*0xfffflu;\r
                //length-=fat;\r
                printf("CA_FarRead doesn't support 64K reads yet!\n");\r
                return 0;\r
        }\r
\r
        //if(!fat&&!segm)\r
        //{\r
                __asm {\r
                        push    ds\r
                        mov     bx,[handle]\r
                        mov     cx,[WORD PTR length]\r
                        mov     dx,[WORD PTR source]\r
                        mov     ds,[WORD PTR source+2]\r
                        mov     ah,0x40                 // WRITE w/handle\r
                        int     21h\r
                        pop     ds\r
                        jnc     good\r
                        mov     errno,ax\r
                        mov flag,0\r
                        jmp End\r
#ifdef __BORLANDC__\r
                }\r
#endif\r
good:\r
#ifdef __BORLANDC__\r
                __asm {\r
#endif\r
                        cmp     ax,[WORD PTR length]\r
                        je      done\r
                        //errno = ENOMEM;                               // user manager knows this is bad write\r
                        mov     flag,0\r
                        jmp End\r
#ifdef __BORLANDC__\r
                }\r
#endif\r
done:\r
#ifdef __BORLANDC__\r
                __asm {\r
#endif\r
                        mov     flag,1\r
#ifdef __BORLANDC__\r
                }\r
#endif\r
End:\r
#ifdef __WATCOMC__\r
                }\r
#endif\r
        return flag;\r
}\r
\r
\r
/*\r
==========================\r
=\r
= CA_ReadFile\r
=\r
= Reads a file into an allready allocated buffer\r
=\r
==========================\r
*/\r
\r
boolean CA_ReadFile(char *filename, memptr *ptr, mminfo_t *mm)\r
{\r
        int handle;\r
        sdword size;\r
        //long size;\r
\r
        if((handle = open(filename,O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                return false;\r
\r
        size = filelength(handle);\r
        if(!CA_FarRead(handle,*ptr,size, mm))\r
        {\r
                close (handle);\r
                return false;\r
        }\r
        close (handle);\r
        return true;\r
}\r
\r
\r
/*\r
==========================\r
=\r
= CA_WriteFile\r
=\r
= Writes a file from a memory buffer\r
=\r
==========================\r
*/\r
\r
boolean CA_WriteFile (char *filename, void far *ptr, long length, mminfo_t *mm)\r
{\r
        int handle;\r
        sdword size;\r
        //long size;\r
\r
        handle = open(filename,O_CREAT | O_BINARY | O_WRONLY,\r
                                S_IREAD | S_IWRITE | S_IFREG);\r
\r
        if (handle == -1)\r
                return false;\r
\r
        if (!CA_FarWrite (handle,ptr,length, mm))\r
        {\r
                close(handle);\r
                return false;\r
        }\r
        close(handle);\r
        return true;\r
}\r
\r
\r
\r
/*\r
==========================\r
=\r
= CA_LoadFile\r
=\r
= Allocate space for and load a file\r
=\r
==========================\r
*/\r
\r
boolean CA_LoadFile(char *filename, memptr *ptr, mminfo_t *mm, mminfotype *mmi)\r
{\r
        int handle;\r
        sdword size;\r
        //long size;\r
\r
        if((handle = open(filename,O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                return false;\r
\r
        size = filelength (handle);\r
        MM_GetPtr(ptr,size, mm, mmi);\r
        if(!CA_FarRead(handle,*ptr,size, mm))\r
        {\r
                close(handle);\r
                return false;\r
        }\r
        close(handle);\r
        return true;\r
}\r
\r
/*\r
============================================================================\r
\r
                COMPRESSION routines, see JHUFF.C for more\r
\r
============================================================================\r
*/\r
\r
\r
\r
/*\r
===============\r
=\r
= CAL_OptimizeNodes\r
=\r
= Goes through a huffman table and changes the 256-511 node numbers to the\r
= actular address of the node.  Must be called before CAL_HuffExpand\r
=\r
===============\r
*/\r
\r
void CAL_OptimizeNodes(huffnode *table)\r
{\r
  huffnode *node;\r
  int i;\r
\r
  node = table;\r
\r
  for (i=0;i<255;i++)\r
  {\r
        if (node->bit0 >= 256)\r
          node->bit0 = (unsigned)(table+(node->bit0-256));\r
        if (node->bit1 >= 256)\r
          node->bit1 = (unsigned)(table+(node->bit1-256));\r
        node++;\r
  }\r
}\r
\r
\r
\r
/*\r
======================\r
=\r
= CAL_HuffExpand\r
=\r
= Length is the length of the EXPANDED data\r
=\r
======================\r
*/\r
\r
void CAL_HuffExpand (byte huge *source, byte huge *dest,\r
  long length,huffnode *hufftable)\r
{\r
//  unsigned bit,byte,node,code;\r
  unsigned sourceseg,sourceoff,destseg,destoff,endoff;\r
  huffnode *headptr;\r
//  huffnode *nodeon;\r
\r
  headptr = hufftable+254;      // head node is allways node 254\r
\r
  source++;     // normalize\r
  source--;\r
  dest++;\r
  dest--;\r
\r
  sourceseg = FP_SEG(source);\r
  sourceoff = FP_OFF(source);\r
  destseg = FP_SEG(dest);\r
  destoff = FP_OFF(dest);\r
  endoff = destoff+length;\r
\r
//\r
// ds:si source\r
// es:di dest\r
// ss:bx node pointer\r
//\r
\r
        if (length <0xfff0)\r
        {\r
\r
//--------------------------\r
// expand less than 64k of data\r
//--------------------------\r
\r
        __asm {\r
////            mov     bx,[headptr]\r
\r
                mov     si,[sourceoff]\r
                mov     di,[destoff]\r
                mov     es,[destseg]\r
                mov     ds,[sourceseg]\r
                mov     ax,[endoff]\r
\r
                mov     ch,[si]                         // load first byte\r
                inc     si\r
                mov     cl,1\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
expandshort:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                test    ch,cl                   // bit set?\r
                jnz     bit1short\r
                mov     dx,[ss:bx]                      // take bit0 path from node\r
                shl     cl,1                            // advance to next bit position\r
                jc      newbyteshort\r
                jnc     sourceupshort\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
bit1short:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                mov     dx,[ss:bx+2]            // take bit1 path\r
                shl     cl,1                            // advance to next bit position\r
                jnc     sourceupshort\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
newbyteshort:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                mov     ch,[si]                         // load next byte\r
                inc     si\r
                mov     cl,1                            // back to first bit\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
sourceupshort:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                or      dh,dh                           // if dx<256 its a byte, else move node\r
                jz      storebyteshort\r
                mov     bx,dx                           // next node = (huffnode *)code\r
                jmp     expandshort\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
storebyteshort:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                mov     [es:di],dl\r
                inc     di                                      // write a decopmpressed byte out\r
////            mov     bx,[headptr]            // back to the head node for next bit\r
\r
                cmp     di,ax                           // done?\r
                jne     expandshort\r
        }\r
        }\r
        else\r
        {\r
\r
//--------------------------\r
// expand more than 64k of data\r
//--------------------------\r
\r
  length--;\r
\r
        __asm {\r
////            mov     bx,[headptr]\r
                mov     cl,1\r
\r
                mov     si,[sourceoff]\r
                mov     di,[destoff]\r
                mov     es,[destseg]\r
                mov     ds,[sourceseg]\r
\r
                lodsb                   // load first byte\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
expand:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                test    al,cl           // bit set?\r
                jnz     bit1\r
                mov     dx,[ss:bx]      // take bit0 path from node\r
                jmp     gotcode\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
bit1:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                mov     dx,[ss:bx+2]    // take bit1 path\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
gotcode:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                shl     cl,1            // advance to next bit position\r
                jnc     sourceup\r
                lodsb\r
                cmp     si,0x10         // normalize ds:si\r
                jb      sinorm\r
                mov     cx,ds\r
                inc     cx\r
                mov     ds,cx\r
                xor     si,si\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
sinorm:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                mov     cl,1            // back to first bit\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
sourceup:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                or      dh,dh           // if dx<256 its a byte, else move node\r
                jz      storebyte\r
                mov     bx,dx           // next node = (huffnode *)code\r
                jmp     expand\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
storebyte:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                mov     [es:di],dl\r
                inc     di              // write a decopmpressed byte out\r
////            mov     bx,[headptr]    // back to the head node for next bit\r
\r
                cmp     di,0x10         // normalize es:di\r
                jb      dinorm\r
                mov     dx,es\r
                inc     dx\r
                mov     es,dx\r
                xor     di,di\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
dinorm:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                sub     [WORD PTR ss:length],1\r
                jnc     expand\r
                dec     [WORD PTR ss:length+2]\r
                jns     expand          // when length = ffff ffff, done\r
        }\r
        }\r
\r
        __asm {\r
                mov     ax,ss\r
                mov     ds,ax\r
        }\r
\r
}\r
\r
\r
/*\r
======================\r
=\r
= CAL_CarmackExpand\r
=\r
= Length is the length of the EXPANDED data\r
=\r
======================\r
*/\r
\r
#define NEARTAG 0xa7\r
#define FARTAG  0xa8\r
\r
void CAL_CarmackExpand (unsigned far *source, unsigned far *dest, unsigned length)\r
{\r
        unsigned        ch,chhigh,count,offset;\r
        unsigned        far *copyptr, far *inptr, far *outptr;\r
\r
        length/=2;\r
\r
        inptr = source;\r
        outptr = dest;\r
\r
        while (length)\r
        {\r
                ch = *inptr++;\r
                chhigh = ch>>8;\r
                if (chhigh == NEARTAG)\r
                {\r
                        count = ch&0xff;\r
                        if (!count)\r
                        {                               // have to insert a word containing the tag byte\r
                                ch |= *(/*(unsigned char far *)*/inptr)++;\r
                                *outptr++ = ch;\r
                                length--;\r
                        }\r
                        else\r
                        {\r
                                offset = *(/*(unsigned char far *)*/inptr)++;\r
                                copyptr = outptr - offset;\r
                                length -= count;\r
                                while (count--)\r
                                        *outptr++ = *copyptr++;\r
                        }\r
                }\r
                else if (chhigh == FARTAG)\r
                {\r
                        count = ch&0xff;\r
                        if (!count)\r
                        {                               // have to insert a word containing the tag byte\r
                                ch |= *(/*(unsigned char far *)*/inptr)++;\r
                                *outptr++ = ch;\r
                                length --;\r
                        }\r
                        else\r
                        {\r
                                offset = *inptr++;\r
                                copyptr = dest + offset;\r
                                length -= count;\r
                                while (count--)\r
                                        *outptr++ = *copyptr++;\r
                        }\r
                }\r
                else\r
                {\r
                        *outptr++ = ch;\r
                        length --;\r
                }\r
        }\r
}\r
\r
\r
/*\r
======================\r
=\r
= CA_RLEWcompress\r
=\r
======================\r
*/\r
\r
long CA_RLEWCompress (unsigned huge *source, long length, unsigned huge *dest,\r
  unsigned rlewtag)\r
{\r
  long complength;\r
  unsigned value,count,i;\r
  unsigned huge *start,huge *end;\r
\r
  start = dest;\r
\r
  end = source + (length+1)/2;\r
\r
//\r
// compress it\r
//\r
  do\r
  {\r
        count = 1;\r
        value = *source++;\r
        while (*source == value && source<end)\r
        {\r
          count++;\r
          source++;\r
        }\r
        if (count>3 || value == rlewtag)\r
        {\r
    //\r
    // send a tag / count / value string\r
    //\r
      *dest++ = rlewtag;\r
      *dest++ = count;\r
      *dest++ = value;\r
    }\r
    else\r
    {\r
    //\r
    // send word without compressing\r
    //\r
      for (i=1;i<=count;i++)\r
        *dest++ = value;\r
        }\r
\r
  } while (source<end);\r
\r
  complength = 2*(dest-start);\r
  return complength;\r
}\r
\r
\r
/*\r
======================\r
=\r
= CA_RLEWexpand\r
= length is EXPANDED length\r
=\r
======================\r
*/\r
\r
void CA_RLEWexpand (unsigned huge *source, unsigned huge *dest,long length,\r
  unsigned rlewtag)\r
{\r
//  unsigned value,count,i;\r
  unsigned huge *end;\r
  unsigned sourceseg,sourceoff,destseg,destoff,endseg,endoff;\r
\r
\r
//\r
// expand it\r
//\r
#if 0\r
  do\r
  {\r
        value = *source++;\r
        if (value != rlewtag)\r
        //\r
        // uncompressed\r
        //\r
          *dest++=value;\r
        else\r
        {\r
        //\r
        // compressed string\r
        //\r
          count = *source++;\r
          value = *source++;\r
          for (i=1;i<=count;i++)\r
        *dest++ = value;\r
        }\r
  } while (dest<end);\r
#endif\r
\r
  end = dest + (length)/2;\r
  sourceseg = FP_SEG(source);\r
  sourceoff = FP_OFF(source);\r
  destseg = FP_SEG(dest);\r
  destoff = FP_OFF(dest);\r
  endseg = FP_SEG(end);\r
  endoff = FP_OFF(end);\r
\r
\r
//\r
// ax = source value\r
// bx = tag value\r
// cx = repeat counts\r
// dx = scratch\r
//\r
// NOTE: A repeat count that produces 0xfff0 bytes can blow this!\r
//\r
        __asm{\r
                mov     bx,rlewtag\r
                mov     si,sourceoff\r
                mov     di,destoff\r
                mov     es,destseg\r
                mov     ds,sourceseg\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
expand:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                lodsw\r
                cmp     ax,bx\r
                je      repeat\r
                stosw\r
                jmp     next\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
repeat:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                lodsw\r
                mov     cx,ax           // repeat count\r
                lodsw                   // repeat value\r
                rep stosw\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
next:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                cmp     si,0x10         // normalize ds:si\r
                jb      sinorm\r
                mov     ax,si\r
                shr     ax,1\r
                shr     ax,1\r
                shr     ax,1\r
                shr     ax,1\r
                mov     dx,ds\r
                add     dx,ax\r
                mov     ds,dx\r
                and     si,0xf\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
sinorm:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                cmp     di,0x10         // normalize es:di\r
                jb      dinorm\r
                mov     ax,di\r
                shr     ax,1\r
                shr     ax,1\r
                shr     ax,1\r
                shr     ax,1\r
                mov     dx,es\r
                add     dx,ax\r
                mov     es,dx\r
                and     di,0xf\r
#ifdef __BORLANDC__\r
        }\r
#endif\r
dinorm:\r
#ifdef __BORLANDC__\r
        __asm {\r
#endif\r
                cmp     di,ss:endoff\r
                jne     expand\r
                mov     ax,es\r
                cmp     ax,ss:endseg\r
                jb      expand\r
\r
                mov     ax,ss\r
                mov     ds,ax\r
        }\r
}\r
\r
\r
/*\r
=============================================================================\r
\r
                                         CACHE MANAGER ROUTINES\r
\r
=============================================================================\r
*/\r
\r
/*\r
======================\r
=\r
= CAL_SetupGrFile\r
=\r
======================\r
*/\r
////++++ enable!\r
/*void CAL_SetupGrFile (void)\r
{\r
        int handle;\r
        memptr compseg;\r
\r
#ifdef GRHEADERLINKED\r
\r
#if GRMODE == EGAGR\r
        grhuffman = (huffnode *)&EGAdict;\r
        grstarts = (long _seg *)FP_SEG(&EGAhead);\r
#endif\r
#if GRMODE == CGAGR\r
        grhuffman = (huffnode *)&CGAdict;\r
        grstarts = (long _seg *)FP_SEG(&CGAhead);\r
#endif\r
\r
        CAL_OptimizeNodes (grhuffman);\r
\r
#else\r
\r
//\r
// load ???dict.ext (huffman dictionary for graphics files)\r
//\r
\r
        if ((handle = open(GREXT"DICT."EXT,\r
                 O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                Quit ("Can't open "GREXT"DICT."EXT"!");\r
\r
        read(handle, &grhuffman, sizeof(grhuffman));\r
        close(handle);\r
        CAL_OptimizeNodes (grhuffman);\r
//\r
// load the data offsets from ???head.ext\r
//\r
        MM_GetPtr (&(memptr)grstarts,(NUMCHUNKS+1)*FILEPOSSIZE);\r
\r
        if ((handle = open(GREXT"HEAD."EXT,\r
                 O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                Quit ("Can't open "GREXT"HEAD."EXT"!");\r
\r
        CA_FarRead(handle, (memptr)grstarts, (NUMCHUNKS+1)*FILEPOSSIZE);\r
\r
        close(handle);\r
\r
\r
#endif\r
\r
//\r
// Open the graphics file, leaving it open until the game is finished\r
//\r
        grhandle = open(GREXT"GRAPH."EXT, O_RDONLY | O_BINARY);\r
        if (grhandle == -1)\r
                Quit ("Cannot open "GREXT"GRAPH."EXT"!");\r
\r
\r
//\r
// load the pic and sprite headers into the arrays in the data segment\r
//\r
#if NUMPICS>0\r
        MM_GetPtr(&(memptr)pictable,NUMPICS*sizeof(pictabletype));\r
        CAL_GetGrChunkLength(STRUCTPIC);                // position file pointer\r
        MM_GetPtr(&compseg,chunkcomplen);\r
        CA_FarRead (grhandle,compseg,chunkcomplen);\r
        CAL_HuffExpand (compseg, (byte huge *)pictable,NUMPICS*sizeof(pictabletype),grhuffman);\r
        MM_FreePtr(&compseg);\r
#endif\r
\r
#if NUMPICM>0\r
        MM_GetPtr(&(memptr)picmtable,NUMPICM*sizeof(pictabletype));\r
        CAL_GetGrChunkLength(STRUCTPICM);               // position file pointer\r
        MM_GetPtr(&compseg,chunkcomplen);\r
        CA_FarRead (grhandle,compseg,chunkcomplen);\r
        CAL_HuffExpand (compseg, (byte huge *)picmtable,NUMPICS*sizeof(pictabletype),grhuffman);\r
        MM_FreePtr(&compseg);\r
#endif\r
\r
#if NUMSPRITES>0\r
        MM_GetPtr(&(memptr)spritetable,NUMSPRITES*sizeof(spritetabletype));\r
        CAL_GetGrChunkLength(STRUCTSPRITE);     // position file pointer\r
        MM_GetPtr(&compseg,chunkcomplen);\r
        CA_FarRead (grhandle,compseg,chunkcomplen);\r
        CAL_HuffExpand (compseg, (byte huge *)spritetable,NUMSPRITES*sizeof(spritetabletype),grhuffman);\r
        MM_FreePtr(&compseg);\r
#endif\r
\r
}*/\r
\r
//==========================================================================\r
\r
\r
/*\r
======================\r
=\r
= CAL_SetupMapFile\r
=\r
======================\r
*/\r
\r
void CAL_SetupMapFile (global_game_variables_t *gvar)\r
{\r
        int handle;\r
        long length;\r
\r
//\r
// load maphead.ext (offsets and tileinfo for map file)\r
//\r
// #ifndef MAPHEADERLINKED\r
//      if ((handle = open("MAPHEAD."EXT,\r
//               O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
//              Quit ("Can't open MAPHEAD."EXT"!");\r
//      length = filelength(handle);\r
//      MM_GetPtr (&(memptr)tinf,length);\r
//      CA_FarRead(handle, tinf, length);\r
//      close(handle);\r
// //#else\r
//\r
//      tinf = (byte _seg *)FP_SEG(&maphead);\r
//\r
// #endif\r
\r
//\r
// open the data file\r
//\r
//TODO: multiple files\r
        if ((gvar->ca.file.maphandle[0] = open("data/test.map",\r
                 O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
        {\r
                printf("Can't open data/test.map!");\r
        }\r
// #ifdef MAPHEADERLINKED\r
//      if ((maphandle = open("GAMEMAPS."EXT,\r
//               O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
//              Quit ("Can't open GAMEMAPS."EXT"!");\r
// //#else\r
//      if ((maphandle = open("MAPTEMP."EXT,\r
//               O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
//              Quit ("Can't open MAPTEMP."EXT"!");\r
// #endif\r
}\r
\r
//==========================================================================\r
\r
\r
/*\r
======================\r
=\r
= CAL_SetupAudioFile\r
=\r
======================\r
*/\r
\r
/*void CAL_SetupAudioFile (void)\r
{\r
        int handle;\r
        long length;\r
\r
//\r
// load maphead.ext (offsets and tileinfo for map file)\r
//\r
#ifndef AUDIOHEADERLINKED\r
        if ((handle = open("AUDIOHED."EXT,\r
                 O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                Quit ("Can't open AUDIOHED."EXT"!");\r
        length = filelength(handle);\r
        MM_GetPtr (&(memptr)audiostarts,length);\r
        CA_FarRead(handle, (byte far *)audiostarts, length);\r
        close(handle);\r
#else\r
        audiohuffman = (huffnode *)&audiodict;\r
        CAL_OptimizeNodes (audiohuffman);\r
        audiostarts = (long _seg *)FP_SEG(&audiohead);\r
#endif\r
\r
//\r
// open the data file\r
//\r
#ifndef AUDIOHEADERLINKED\r
        if ((audiohandle = open("AUDIOT."EXT,\r
                 O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                Quit ("Can't open AUDIOT."EXT"!");\r
#else\r
        if ((audiohandle = open("AUDIO."EXT,\r
                 O_RDONLY | O_BINARY, S_IREAD)) == -1)\r
                Quit ("Can't open AUDIO."EXT"!");\r
#endif\r
}*/\r
\r
//==========================================================================\r
\r
\r
/*\r
======================\r
=\r
= CA_Startup\r
=\r
= Open all files and load in headers\r
=\r
======================\r
*/\r
\r
void CA_Startup(global_game_variables_t *gvar)\r
{\r
#ifdef PROFILE\r
#ifdef __BORLANDC__\r
        unlink("profile.16b");\r
        gvar->handle.profilehandle = open("profile.16b", O_CREAT | O_WRONLY | O_TEXT);\r
#endif\r
#ifdef __WATCOMC__\r
        unlink("profile.16w");\r
        gvar->handle.profilehandle = open("profile.16w", O_CREAT | O_WRONLY | O_TEXT);\r
#endif\r
#endif//profile\r
\r
#ifdef __BORLANDC__\r
        unlink("meminfo.16b");\r
        gvar->handle.showmemhandle = open("meminfo.16b", O_CREAT | O_WRONLY | O_TEXT);\r
#endif\r
#ifdef __WATCOMC__\r
        unlink("meminfo.16w");\r
        gvar->handle.showmemhandle = open("meminfo.16w", O_CREAT | O_WRONLY | O_TEXT);\r
#endif\r
/*\r
        CAL_SetupGrFile ();\r
        CAL_SetupAudioFile ();*/\r
\r
        CAL_SetupMapFile (gvar);\r
\r
        gvar->ca.mapon = -1;\r
        gvar->ca.ca_levelbit = 1;\r
        gvar->ca.ca_levelnum = 0;\r
\r
/*      drawcachebox    = CAL_DialogDraw;\r
        updatecachebox  = CAL_DialogUpdate;\r
        finishcachebox  = CAL_DialogFinish;*/\r
}\r
\r
//==========================================================================\r
\r
\r
/*\r
======================\r
=\r
= CA_Shutdown\r
=\r
= Closes all files\r
=\r
======================\r
*/\r
\r
void CA_Shutdown(global_game_variables_t *gvar)\r
{\r
#ifdef PROFILE\r
        close(gvar->handle.profilehandle);\r
#endif\r
        close(gvar->handle.showmemhandle);\r
\r
        close(*(gvar->ca.file.maphandle));\r
/*++++\r
        close(grhandle);\r
        close(audiohandle);*/\r
}\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_CacheAudioChunk\r
=\r
======================\r
*/\r
/*++++\r
void CA_CacheAudioChunk (int chunk)\r
{\r
        long    pos,compressed;\r
#ifdef AUDIOHEADERLINKED\r
        long    expanded;\r
        memptr  bigbufferseg;\r
        byte    far *source;\r
#endif\r
\r
        if (audiosegs[chunk])\r
        {\r
                MM_SetPurge (&(memptr)audiosegs[chunk],0);\r
                return;                                                 // allready in memory\r
        }\r
\r
// MDM begin - (GAMERS EDGE)\r
//\r
        if (!FindFile("AUDIO."EXT,NULL,2))\r
                Quit("CA_CacheAudioChunk(): Can't find audio files.");\r
//\r
// MDM end\r
\r
//\r
// load the chunk into a buffer, either the miscbuffer if it fits, or allocate\r
// a larger buffer\r
//\r
        pos = audiostarts[chunk];\r
        compressed = audiostarts[chunk+1]-pos;\r
\r
        lseek(audiohandle,pos,SEEK_SET);\r
\r
#ifndef AUDIOHEADERLINKED\r
\r
        MM_GetPtr (&(memptr)audiosegs[chunk],compressed);\r
        if (mmerror)\r
                return;\r
\r
        CA_FarRead(audiohandle,audiosegs[chunk],compressed);\r
\r
#else\r
\r
        if (compressed<=BUFFERSIZE)\r
        {\r
                CA_FarRead(audiohandle,bufferseg,compressed);\r
                source = bufferseg;\r
        }\r
        else\r
        {\r
                MM_GetPtr(&bigbufferseg,compressed);\r
                if (mmerror)\r
                        return;\r
                MM_SetLock (&bigbufferseg,true);\r
                CA_FarRead(audiohandle,bigbufferseg,compressed);\r
                source = bigbufferseg;\r
        }\r
\r
        expanded = *(long far *)source;\r
        source += 4;                    // skip over length\r
        MM_GetPtr (&(memptr)audiosegs[chunk],expanded);\r
        if (mmerror)\r
                goto done;\r
        CAL_HuffExpand (source,audiosegs[chunk],expanded,audiohuffman);\r
\r
done:\r
        if (compressed>BUFFERSIZE)\r
                MM_FreePtr(&bigbufferseg);\r
#endif\r
}*/\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_LoadAllSounds\r
=\r
= Purges all sounds, then loads all new ones (mode switch)\r
=\r
======================\r
*/\r
/*++++\r
void CA_LoadAllSounds (void)\r
{\r
        unsigned        start,i;\r
\r
        switch (oldsoundmode)\r
        {\r
        case sdm_Off:\r
                goto cachein;\r
        case sdm_PC:\r
                start = STARTPCSOUNDS;\r
                break;\r
        case sdm_AdLib:\r
                start = STARTADLIBSOUNDS;\r
                break;\r
        }\r
\r
        for (i=0;i<NUMSOUNDS;i++,start++)\r
                if (audiosegs[start])\r
                        MM_SetPurge (&(memptr)audiosegs[start],3);              // make purgable\r
\r
cachein:\r
\r
        switch (SoundMode)\r
        {\r
        case sdm_Off:\r
                return;\r
        case sdm_PC:\r
                start = STARTPCSOUNDS;\r
                break;\r
        case sdm_AdLib:\r
                start = STARTADLIBSOUNDS;\r
                break;\r
        }\r
\r
        for (i=0;i<NUMSOUNDS;i++,start++)\r
                CA_CacheAudioChunk (start);\r
\r
        oldsoundmode = SoundMode;\r
}*/\r
\r
//===========================================================================\r
\r
//++++#if GRMODE == EGAGR\r
\r
/*\r
======================\r
=\r
= CAL_ShiftSprite\r
=\r
= Make a shifted (one byte wider) copy of a sprite into another area\r
=\r
======================\r
*/\r
/*++++\r
unsigned        static  sheight,swidth;\r
boolean static dothemask;\r
\r
void CAL_ShiftSprite (unsigned segment,unsigned source,unsigned dest,\r
        unsigned width, unsigned height, unsigned pixshift, boolean domask)\r
{\r
\r
        sheight = height;               // because we are going to reassign bp\r
        swidth = width;\r
        dothemask = domask;\r
\r
asm     mov     ax,[segment]\r
asm     mov     ds,ax           // source and dest are in same segment, and all local\r
\r
asm     mov     bx,[source]\r
asm     mov     di,[dest]\r
\r
asm     mov     bp,[pixshift]\r
asm     shl     bp,1\r
asm     mov     bp,WORD PTR [shifttabletable+bp]        // bp holds pointer to shift table\r
\r
asm     cmp     [ss:dothemask],0\r
asm     je              skipmask\r
\r
//\r
// table shift the mask\r
//\r
asm     mov     dx,[ss:sheight]\r
\r
domaskrow:\r
\r
asm     mov     BYTE PTR [di],255       // 0xff first byte\r
asm     mov     cx,ss:[swidth]\r
\r
domaskbyte:\r
\r
asm     mov     al,[bx]                         // source\r
asm     not     al\r
asm     inc     bx                                      // next source byte\r
asm     xor     ah,ah\r
asm     shl     ax,1\r
asm     mov     si,ax\r
asm     mov     ax,[bp+si]                      // table shift into two bytes\r
asm     not     ax\r
asm     and     [di],al                         // and with first byte\r
asm     inc     di\r
asm     mov     [di],ah                         // replace next byte\r
\r
asm     loop    domaskbyte\r
\r
asm     inc     di                                      // the last shifted byte has 1s in it\r
asm     dec     dx\r
asm     jnz     domaskrow\r
\r
skipmask:\r
\r
//\r
// table shift the data\r
//\r
asm     mov     dx,ss:[sheight]\r
asm     shl     dx,1\r
asm     shl     dx,1                            // four planes of data\r
\r
dodatarow:\r
\r
asm     mov     BYTE PTR [di],0         // 0 first byte\r
asm     mov     cx,ss:[swidth]\r
\r
dodatabyte:\r
\r
asm     mov     al,[bx]                         // source\r
asm     inc     bx                                      // next source byte\r
asm     xor     ah,ah\r
asm     shl     ax,1\r
asm     mov     si,ax\r
asm     mov     ax,[bp+si]                      // table shift into two bytes\r
asm     or      [di],al                         // or with first byte\r
asm     inc     di\r
asm     mov     [di],ah                         // replace next byte\r
\r
asm     loop    dodatabyte\r
\r
asm     inc     di                                      // the last shifted byte has 0s in it\r
asm     dec     dx\r
asm     jnz     dodatarow\r
\r
//\r
// done\r
//\r
\r
asm     mov     ax,ss                           // restore data segment\r
asm     mov     ds,ax\r
\r
}\r
\r
#endif\r
*/\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CAL_CacheSprite\r
=\r
= Generate shifts and set up sprite structure for a given sprite\r
=\r
======================\r
*/\r
/*++++\r
void CAL_CacheSprite (int chunk, byte far *compressed)\r
{\r
        int i;\r
        unsigned shiftstarts[5];\r
        unsigned smallplane,bigplane,expanded;\r
        spritetabletype far *spr;\r
        spritetype _seg *dest;\r
\r
#if GRMODE == CGAGR\r
//\r
// CGA has no pel panning, so shifts are never needed\r
//\r
        spr = &spritetable[chunk-STARTSPRITES];\r
        smallplane = spr->width*spr->height;\r
        MM_GetPtr (&grsegs[chunk],smallplane*2+MAXSHIFTS*6);\r
        if (mmerror)\r
                return;\r
        dest = (spritetype _seg *)grsegs[chunk];\r
        dest->sourceoffset[0] = MAXSHIFTS*6;    // start data after 3 unsigned tables\r
        dest->planesize[0] = smallplane;\r
        dest->width[0] = spr->width;\r
\r
//\r
// expand the unshifted shape\r
//\r
        CAL_HuffExpand (compressed, &dest->data[0],smallplane*2,grhuffman);\r
\r
#endif\r
\r
\r
#if GRMODE == EGAGR\r
\r
//\r
// calculate sizes\r
//\r
        spr = &spritetable[chunk-STARTSPRITES];\r
        smallplane = spr->width*spr->height;\r
        bigplane = (spr->width+1)*spr->height;\r
\r
        shiftstarts[0] = MAXSHIFTS*6;   // start data after 3 unsigned tables\r
        shiftstarts[1] = shiftstarts[0] + smallplane*5; // 5 planes in a sprite\r
        shiftstarts[2] = shiftstarts[1] + bigplane*5;\r
        shiftstarts[3] = shiftstarts[2] + bigplane*5;\r
        shiftstarts[4] = shiftstarts[3] + bigplane*5;   // nothing ever put here\r
\r
        expanded = shiftstarts[spr->shifts];\r
        MM_GetPtr (&grsegs[chunk],expanded);\r
        if (mmerror)\r
                return;\r
        dest = (spritetype _seg *)grsegs[chunk];\r
\r
//\r
// expand the unshifted shape\r
//\r
        CAL_HuffExpand (compressed, &dest->data[0],smallplane*5,grhuffman);\r
\r
//\r
// make the shifts!\r
//\r
        switch (spr->shifts)\r
        {\r
        case    1:\r
                for (i=0;i<4;i++)\r
                {\r
                        dest->sourceoffset[i] = shiftstarts[0];\r
                        dest->planesize[i] = smallplane;\r
                        dest->width[i] = spr->width;\r
                }\r
                break;\r
\r
        case    2:\r
                for (i=0;i<2;i++)\r
                {\r
                        dest->sourceoffset[i] = shiftstarts[0];\r
                        dest->planesize[i] = smallplane;\r
                        dest->width[i] = spr->width;\r
                }\r
                for (i=2;i<4;i++)\r
                {\r
                        dest->sourceoffset[i] = shiftstarts[1];\r
                        dest->planesize[i] = bigplane;\r
                        dest->width[i] = spr->width+1;\r
                }\r
                CAL_ShiftSprite ((unsigned)grsegs[chunk],dest->sourceoffset[0],\r
                        dest->sourceoffset[2],spr->width,spr->height,4,true);\r
                break;\r
\r
        case    4:\r
                dest->sourceoffset[0] = shiftstarts[0];\r
                dest->planesize[0] = smallplane;\r
                dest->width[0] = spr->width;\r
\r
                dest->sourceoffset[1] = shiftstarts[1];\r
                dest->planesize[1] = bigplane;\r
                dest->width[1] = spr->width+1;\r
                CAL_ShiftSprite ((unsigned)grsegs[chunk],dest->sourceoffset[0],\r
                        dest->sourceoffset[1],spr->width,spr->height,2,true);\r
\r
                dest->sourceoffset[2] = shiftstarts[2];\r
                dest->planesize[2] = bigplane;\r
                dest->width[2] = spr->width+1;\r
                CAL_ShiftSprite ((unsigned)grsegs[chunk],dest->sourceoffset[0],\r
                        dest->sourceoffset[2],spr->width,spr->height,4,true);\r
\r
                dest->sourceoffset[3] = shiftstarts[3];\r
                dest->planesize[3] = bigplane;\r
                dest->width[3] = spr->width+1;\r
                CAL_ShiftSprite ((unsigned)grsegs[chunk],dest->sourceoffset[0],\r
                        dest->sourceoffset[3],spr->width,spr->height,6,true);\r
\r
                break;\r
\r
        default:\r
                Quit ("CAL_CacheSprite: Bad shifts number!");\r
        }\r
\r
#endif\r
}*/\r
\r
//===========================================================================\r
\r
\r
/*\r
======================\r
=\r
= CAL_ExpandGrChunk\r
=\r
= Does whatever is needed with a pointer to a compressed chunk\r
=\r
======================\r
*/\r
/*++++\r
void CAL_ExpandGrChunk (int chunk, byte far *source)\r
{\r
        long    expanded;\r
\r
\r
        if (chunk >= STARTTILE8 && chunk < STARTEXTERNS)\r
        {\r
        //\r
        // expanded sizes of tile8/16/32 are implicit\r
        //\r
\r
#if GRMODE == EGAGR\r
#define BLOCK           32\r
#define MASKBLOCK       40\r
#endif\r
\r
#if GRMODE == CGAGR\r
#define BLOCK           16\r
#define MASKBLOCK       32\r
#endif\r
\r
                if (chunk<STARTTILE8M)                  // tile 8s are all in one chunk!\r
                        expanded = BLOCK*NUMTILE8;\r
                else if (chunk<STARTTILE16)\r
                        expanded = MASKBLOCK*NUMTILE8M;\r
                else if (chunk<STARTTILE16M)    // all other tiles are one/chunk\r
                        expanded = BLOCK*4;\r
                else if (chunk<STARTTILE32)\r
                        expanded = MASKBLOCK*4;\r
                else if (chunk<STARTTILE32M)\r
                        expanded = BLOCK*16;\r
                else\r
                        expanded = MASKBLOCK*16;\r
        }\r
        else\r
        {\r
        //\r
        // everything else has an explicit size longword\r
        //\r
                expanded = *(long far *)source;\r
                source += 4;                    // skip over length\r
        }\r
\r
//\r
// allocate final space, decompress it, and free bigbuffer\r
// Sprites need to have shifts made and various other junk\r
//\r
        if (chunk>=STARTSPRITES && chunk< STARTTILE8)\r
                CAL_CacheSprite(chunk,source);\r
        else\r
        {\r
                MM_GetPtr (&grsegs[chunk],expanded);\r
                if (mmerror)\r
                        return;\r
                CAL_HuffExpand (source,grsegs[chunk],expanded,grhuffman);\r
        }\r
}\r
*/\r
\r
/*\r
======================\r
=\r
= CAL_ReadGrChunk\r
=\r
= Gets a chunk off disk, optimizing reads to general buffer\r
=\r
======================\r
*/\r
/*++++\r
void CAL_ReadGrChunk (int chunk)\r
{\r
        long    pos,compressed;\r
        memptr  bigbufferseg;\r
        byte    far *source;\r
        int             next;\r
\r
//\r
// load the chunk into a buffer, either the miscbuffer if it fits, or allocate\r
// a larger buffer\r
//\r
        pos = GRFILEPOS(chunk);\r
        if (pos<0)                                                      // $FFFFFFFF start is a sparse tile\r
          return;\r
\r
        next = chunk +1;\r
        while (GRFILEPOS(next) == -1)           // skip past any sparse tiles\r
                next++;\r
\r
        compressed = GRFILEPOS(next)-pos;\r
\r
        lseek(grhandle,pos,SEEK_SET);\r
\r
        if (compressed<=BUFFERSIZE)\r
        {\r
                CA_FarRead(grhandle,bufferseg,compressed);\r
                source = bufferseg;\r
        }\r
        else\r
        {\r
                MM_GetPtr(&bigbufferseg,compressed);\r
                if (mmerror)\r
                        return;\r
                MM_SetLock (&bigbufferseg,true);\r
                CA_FarRead(grhandle,bigbufferseg,compressed);\r
                source = bigbufferseg;\r
        }\r
\r
        CAL_ExpandGrChunk (chunk,source);\r
\r
        if (compressed>BUFFERSIZE)\r
                MM_FreePtr(&bigbufferseg);\r
}\r
*/\r
/*\r
======================\r
=\r
= CA_CacheGrChunk\r
=\r
= Makes sure a given chunk is in memory, loadiing it if needed\r
=\r
======================\r
*/\r
/*++++\r
void CA_CacheGrChunk (int chunk)\r
{\r
        long    pos,compressed;\r
        memptr  bigbufferseg;\r
        byte    far *source;\r
        int             next;\r
\r
        gvar->video.grneeded[chunk] |= ca_levelbit;             // make sure it doesn't get removed\r
        if (grsegs[chunk])\r
        {\r
                MM_SetPurge (&grsegs[chunk],0);\r
                return;                                                 // allready in memory\r
        }\r
\r
// MDM begin - (GAMERS EDGE)\r
//\r
        if (!FindFile("EGAGRAPH."EXT,NULL,2))\r
                Quit("CA_CacheGrChunk(): Can't find graphics files.");\r
//\r
// MDM end\r
\r
//\r
// load the chunk into a buffer, either the miscbuffer if it fits, or allocate\r
// a larger buffer\r
//\r
        pos = GRFILEPOS(chunk);\r
        if (pos<0)                                                      // $FFFFFFFF start is a sparse tile\r
          return;\r
\r
        next = chunk +1;\r
        while (GRFILEPOS(next) == -1)           // skip past any sparse tiles\r
                next++;\r
\r
        compressed = GRFILEPOS(next)-pos;\r
\r
        lseek(grhandle,pos,SEEK_SET);\r
\r
        if (compressed<=BUFFERSIZE)\r
        {\r
                CA_FarRead(grhandle,bufferseg,compressed);\r
                source = bufferseg;\r
        }\r
        else\r
        {\r
                MM_GetPtr(&bigbufferseg,compressed);\r
                MM_SetLock (&bigbufferseg,true);\r
                CA_FarRead(grhandle,bigbufferseg,compressed);\r
                source = bigbufferseg;\r
        }\r
\r
        CAL_ExpandGrChunk (chunk,source);\r
\r
        if (compressed>BUFFERSIZE)\r
                MM_FreePtr(&bigbufferseg);\r
}\r
*/\r
\r
\r
//==========================================================================\r
\r
/*\r
======================\r
=\r
= CA_CacheMap\r
=\r
======================\r
*/\r
/*++++ fuckin segments!\r
void CA_CacheMap (global_game_variables_t *gvar)\r
{\r
        long    pos,compressed;\r
        int             plane;\r
        memptr  *dest,bigbufferseg;\r
        unsigned        size;\r
        unsigned        far     *source;\r
#ifdef MAPHEADERLINKED\r
        memptr  buffer2seg;\r
        long    expanded;\r
#endif\r
\r
\r
//\r
// free up memory from last map\r
//\r
//      if (gvar->ca.map.mapon>-1 && gvar->ca.map.mapheaderseg[gvar->ca.map.mapon])\r
//              MM_SetPurge (&(memptr)gvar->ca.map.mapheaderseg[gvar-ca.map.mapon],3);\r
        for (plane=0;plane<MAPPLANES;plane++)\r
                if (gvar->ca.map.mapsegs[plane])\r
                        MM_FreePtr (&(memptr)gvar->ca.map.mapsegs[plane]);\r
\r
        gvar->ca.map.mapon = gvar->ca.map.mapnum;\r
\r
\r
//\r
// load map header\r
// The header will be cached if it is still around\r
//\r
        if (!gvar->ca.map.mapheaderseg[gvar->ca.map.mapnum])\r
        {\r
                pos = ((__segmement *)tinf)->headeroffsets[gvar->ca.mapnum];\r
                if (pos<0)                                              // $FFFFFFFF start is a sparse map\r
                  printf("CA_CacheMap: Tried to load a non existent map!");\r
\r
                MM_GetPtr(&(memptr)gvar->ca.mapheaderseg[mapnum],sizeof(maptype));\r
                lseek(maphandle,pos,SEEK_SET);\r
                CA_FarRead (maphandle,(memptr)mapheaderseg[mapnum],sizeof(maptype));\r
        }\r
        else\r
                MM_SetPurge (&(memptr)mapheaderseg[mapnum],0);\r
\r
//\r
// load the planes in\r
// If a plane's pointer still exists it will be overwritten (levels are\r
// allways reloaded, never cached)\r
//\r
\r
        size = mapheaderseg[mapnum]->width * mapheaderseg[mapnum]->height * 2;\r
\r
        for (plane = 0; plane<MAPPLANES; plane++)\r
        {\r
                pos = mapheaderseg[mapnum]->planestart[plane];\r
                compressed = mapheaderseg[mapnum]->planelength[plane];\r
\r
                if (!compressed)\r
                        continue;               // the plane is not used in this game\r
\r
                dest = &(memptr)mapsegs[plane];\r
                MM_GetPtr(dest,size);\r
\r
                lseek(maphandle,pos,SEEK_SET);\r
                if (compressed<=BUFFERSIZE)\r
                        source = bufferseg;\r
                else\r
                {\r
                        MM_GetPtr(&bigbufferseg,compressed);\r
                        MM_SetLock (&bigbufferseg,true);\r
                        source = bigbufferseg;\r
                }\r
\r
                CA_FarRead(maphandle,(byte far *)source,compressed);\r
#ifdef MAPHEADERLINKED\r
                //\r
                // unhuffman, then unRLEW\r
                // The huffman'd chunk has a two byte expanded length first\r
                // The resulting RLEW chunk also does, even though it's not really\r
                // needed\r
                //\r
                expanded = *source;\r
                source++;\r
                MM_GetPtr (&buffer2seg,expanded);\r
                CAL_CarmackExpand (source, (unsigned far *)buffer2seg,expanded);\r
                CA_RLEWexpand (((unsigned far *)buffer2seg)+1,*dest,size,\r
                ((mapfiletype _seg *)tinf)->RLEWtag);\r
                MM_FreePtr (&buffer2seg);\r
\r
#else\r
                //\r
                // unRLEW, skipping expanded length\r
                //\r
                CA_RLEWexpand (source+1, *dest,size,\r
                ((mapfiletype _seg *)tinf)->RLEWtag);\r
#endif\r
\r
                if (compressed>BUFFERSIZE)\r
                        MM_FreePtr(&bigbufferseg);\r
        }\r
}*/\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_UpLevel\r
=\r
= Goes up a bit level in the needed lists and clears it out.\r
= Everything is made purgable\r
=\r
======================\r
*/\r
/*++++\r
void CA_UpLevel (void)\r
{\r
        if (ca_levelnum==7)\r
                Quit ("CA_UpLevel: Up past level 7!");\r
\r
        ca_levelbit<<=1;\r
        ca_levelnum++;\r
}*/\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_DownLevel\r
=\r
= Goes down a bit level in the needed lists and recaches\r
= everything from the lower level\r
=\r
======================\r
*/\r
/*++\r
void CA_DownLevel (void)\r
{\r
        if (!ca_levelnum)\r
                Quit ("CA_DownLevel: Down past level 0!");\r
        ca_levelbit>>=1;\r
        ca_levelnum--;\r
        CA_CacheMarks(NULL);\r
}*/\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_ClearMarks\r
=\r
= Clears out all the marks at the current level\r
=\r
======================\r
*/\r
\r
void CA_ClearMarks (global_game_variables_t *gvar)\r
{\r
        int i;\r
\r
        for (i=0;i<NUMCHUNKS;i++)\r
                gvar->video.grneeded[i]&=~gvar->ca.ca_levelbit;\r
}\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_ClearAllMarks\r
=\r
= Clears out all the marks on all the levels\r
=\r
======================\r
*/\r
\r
void CA_ClearAllMarks (global_game_variables_t *gvar)\r
{\r
        _fmemset (gvar->video.grneeded,0,sizeof(gvar->video.grneeded));\r
        gvar->ca.ca_levelbit = 1;\r
        gvar->ca.ca_levelnum = 0;\r
}\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_FreeGraphics\r
=\r
======================\r
*/\r
/*++++\r
void CA_SetGrPurge (void)\r
{\r
        int i;\r
\r
//\r
// free graphics\r
//\r
        CA_ClearMarks ();\r
\r
        for (i=0;i<NUMCHUNKS;i++)\r
                if (grsegs[i])\r
                        MM_SetPurge (&(memptr)grsegs[i],3);\r
}\r
*/\r
\r
/*\r
======================\r
=\r
= CA_SetAllPurge\r
=\r
= Make everything possible purgable\r
=\r
======================\r
*/\r
/*++++++++\r
void CA_SetAllPurge (void)\r
{\r
        int i;\r
\r
        CA_ClearMarks ();\r
\r
//\r
// free cursor sprite and background save\r
//\r
        VW_FreeCursor ();\r
\r
//\r
// free map headers and map planes\r
//\r
        for (i=0;i<NUMMAPS;i++)\r
                if (mapheaderseg[i])\r
                        MM_SetPurge (&(memptr)mapheaderseg[i],3);\r
\r
        for (i=0;i<3;i++)\r
                if (mapsegs[i])\r
                        MM_FreePtr (&(memptr)mapsegs[i]);\r
\r
//\r
// free sounds\r
//\r
        for (i=0;i<NUMSNDCHUNKS;i++)\r
                if (audiosegs[i])\r
                        MM_SetPurge (&(memptr)audiosegs[i],3);\r
\r
//\r
// free graphics\r
//\r
        CA_SetGrPurge ();\r
}*/\r
\r
\r
//===========================================================================\r
\r
\r
/*\r
======================\r
=\r
= CAL_DialogDraw\r
=\r
======================\r
*/\r
/*\r
#define NUMBARS (17l*8)\r
#define BARSTEP 8\r
\r
unsigned        thx,thy,lastx;\r
long            barx,barstep;\r
\r
void    CAL_DialogDraw (char *title,unsigned numcache)\r
{\r
        unsigned        homex,homey,x;\r
\r
        barstep = (NUMBARS<<16)/numcache;\r
\r
//\r
// draw dialog window (masked tiles 12 - 20 are window borders)\r
//\r
        US_CenterWindow (20,8);\r
        homex = PrintX;\r
        homey = PrintY;\r
\r
        US_CPrint ("Loading");\r
        fontcolor = F_SECONDCOLOR;\r
        US_CPrint (title);\r
        fontcolor = F_BLACK;\r
\r
//\r
// draw thermometer bar\r
//\r
        thx = homex + 8;\r
        thy = homey + 32;\r
        VWB_DrawTile8(thx,thy,0);               // CAT3D numbers\r
        VWB_DrawTile8(thx,thy+8,3);\r
        VWB_DrawTile8(thx,thy+16,6);\r
        VWB_DrawTile8(thx+17*8,thy,2);\r
        VWB_DrawTile8(thx+17*8,thy+8,5);\r
        VWB_DrawTile8(thx+17*8,thy+16,8);\r
        for (x=thx+8;x<thx+17*8;x+=8)\r
        {\r
                VWB_DrawTile8(x,thy,1);\r
                VWB_DrawTile8(x,thy+8,4);\r
                VWB_DrawTile8(x,thy+16,7);\r
        }\r
\r
        thx += 4;               // first line location\r
        thy += 5;\r
        barx = (long)thx<<16;\r
        lastx = thx;\r
\r
        VW_UpdateScreen();\r
}\r
*/\r
\r
/*\r
======================\r
=\r
= CAL_DialogUpdate\r
=\r
======================\r
*/\r
/*\r
void    CAL_DialogUpdate (void)\r
{\r
        unsigned        x,xh;\r
\r
        barx+=barstep;\r
        xh = barx>>16;\r
        if (xh - lastx > BARSTEP)\r
        {\r
                for (x=lastx;x<=xh;x++)\r
#if GRMODE == EGAGR\r
                        VWB_Vlin (thy,thy+13,x,14);\r
#endif\r
#if GRMODE == CGAGR\r
                        VWB_Vlin (thy,thy+13,x,SECONDCOLOR);\r
#endif\r
                lastx = xh;\r
                VW_UpdateScreen();\r
        }\r
}*/\r
\r
/*\r
======================\r
=\r
= CAL_DialogFinish\r
=\r
======================\r
*/\r
/*\r
void    CAL_DialogFinish (void)\r
{\r
        unsigned        x,xh;\r
\r
        xh = thx + NUMBARS;\r
        for (x=lastx;x<=xh;x++)\r
#if GRMODE == EGAGR\r
                VWB_Vlin (thy,thy+13,x,14);\r
#endif\r
#if GRMODE == CGAGR\r
                VWB_Vlin (thy,thy+13,x,SECONDCOLOR);\r
#endif\r
        VW_UpdateScreen();\r
\r
}*/\r
\r
//===========================================================================\r
\r
/*\r
======================\r
=\r
= CA_CacheMarks\r
=\r
======================\r
*//*\r
#define MAXEMPTYREAD    1024\r
\r
void CA_CacheMarks (char *title)\r
{\r
        boolean dialog;\r
        int     i,next,numcache;\r
        long    pos,endpos,nextpos,nextendpos,compressed;\r
        long    bufferstart,bufferend;  // file position of general buffer\r
        byte    far *source;\r
        memptr  bigbufferseg;\r
\r
        dialog = (title!=NULL);\r
\r
        numcache = 0;\r
//\r
// go through and make everything not needed purgable\r
//\r
        for (i=0;i<NUMCHUNKS;i++)\r
                if (gvar->video.grneeded[i]&ca_levelbit)\r
                {\r
                        if (grsegs[i])                                  // its allready in memory, make\r
                                MM_SetPurge(&grsegs[i],0);      // sure it stays there!\r
                        else\r
                                numcache++;\r
                }\r
                else\r
                {\r
                        if (grsegs[i])                                  // not needed, so make it purgeable\r
                                MM_SetPurge(&grsegs[i],3);\r
                }\r
\r
        if (!numcache)                  // nothing to cache!\r
                return;\r
\r
// MDM begin - (GAMERS EDGE)\r
//\r
        if (!FindFile("EGAGRAPH."EXT,NULL,2))\r
                Quit("CA_CacheMarks(): Can't find graphics files.");\r
//\r
// MDM end\r
\r
        if (dialog)\r
        {\r
#ifdef PROFILE\r
                write(profilehandle,title,strlen(title));\r
                write(profilehandle,"\n",1);\r
#endif\r
                if (drawcachebox)\r
                        drawcachebox(title,numcache);\r
        }\r
\r
//\r
// go through and load in anything still needed\r
//\r
        bufferstart = bufferend = 0;            // nothing good in buffer now\r
\r
        for (i=0;i<NUMCHUNKS;i++)\r
                if ( (gvar->video.grneeded[i]&ca_levelbit) && !grsegs[i])\r
                {\r
//\r
// update thermometer\r
//\r
                        if (dialog && updatecachebox)\r
                                updatecachebox ();\r
\r
                        pos = GRFILEPOS(i);\r
                        if (pos<0)\r
                                continue;\r
\r
                        next = i +1;\r
                        while (GRFILEPOS(next) == -1)           // skip past any sparse tiles\r
                                next++;\r
\r
                        compressed = GRFILEPOS(next)-pos;\r
                        endpos = pos+compressed;\r
\r
                        if (compressed<=BUFFERSIZE)\r
                        {\r
                                if (bufferstart<=pos\r
                                && bufferend>= endpos)\r
                                {\r
                                // data is allready in buffer\r
                                        source = (byte _seg *)bufferseg+(pos-bufferstart);\r
                                }\r
                                else\r
                                {\r
                                // load buffer with a new block from disk\r
                                // try to get as many of the needed blocks in as possible\r
                                        while ( next < NUMCHUNKS )\r
                                        {\r
                                                while (next < NUMCHUNKS &&\r
                                                !(gvar->video.grneeded[next]&ca_levelbit && !grsegs[next]))\r
                                                        next++;\r
                                                if (next == NUMCHUNKS)\r
                                                        continue;\r
\r
                                                nextpos = GRFILEPOS(next);\r
                                                while (GRFILEPOS(++next) == -1) // skip past any sparse tiles\r
                                                        ;\r
                                                nextendpos = GRFILEPOS(next);\r
                                                if (nextpos - endpos <= MAXEMPTYREAD\r
                                                && nextendpos-pos <= BUFFERSIZE)\r
                                                        endpos = nextendpos;\r
                                                else\r
                                                        next = NUMCHUNKS;                       // read pos to posend\r
                                        }\r
\r
                                        lseek(grhandle,pos,SEEK_SET);\r
                                        CA_FarRead(grhandle,bufferseg,endpos-pos);\r
                                        bufferstart = pos;\r
                                        bufferend = endpos;\r
                                        source = bufferseg;\r
                                }\r
                        }\r
                        else\r
                        {\r
                        // big chunk, allocate temporary buffer\r
                                MM_GetPtr(&bigbufferseg,compressed);\r
                                if (mmerror)\r
                                        return;\r
                                MM_SetLock (&bigbufferseg,true);\r
                                lseek(grhandle,pos,SEEK_SET);\r
                                CA_FarRead(grhandle,bigbufferseg,compressed);\r
                                source = bigbufferseg;\r
                        }\r
\r
                        CAL_ExpandGrChunk (i,source);\r
                        if (mmerror)\r
                                return;\r
\r
                        if (compressed>BUFFERSIZE)\r
                                MM_FreePtr(&bigbufferseg);\r
\r
                }\r
\r
//\r
// finish up any thermometer remnants\r
//\r
                if (dialog && finishcachebox)\r
                        finishcachebox();\r
}*/\r