src/0.c: IN_initplayer(&player);//, 0);
src/0.c: bakapee1 = FILENAME_1;//"data/aconita.vrl";
src/0.c: bakapee2 = FILENAME_2;//"data/aconita.pal";
src/0.c: //return 1;
src/0.c: //4 this dose the screen
src/0.c: vga_state.vga_graphics_ram[o] = (i^j)&15; // VRL samples put all colors in first 15!
src/0.c: //while (getch() != 13);
src/0.c: unsigned int overdraw = 1; // how many pixels to "overdraw" so that moving sprites with edge pixels don't leave streaks.
src/0.c: // if the sprite's edge pixels are clear anyway, you can set this to 0.
src/0.c: //4 this dose the sprite? wwww
src/0.c: vga_state.vga_graphics_ram[o] = (i^j)&15; // VRL samples put all colors in first 15!
src/0.c: omemptr = vga_state.vga_graphics_ram; // save original mem ptr
src/0.c: if(IN_KeyDown(68)) //f10
src/0.c: //gvar.kurokku.fpscap=!gvar.kurokku.fpscap;
src/0.c: o = (0x10000UL - (uint16_t)gvar.video.page[1].data) + (ry * gvar.video.page[0].stridew) + (rx >> 2); // source offscreen
src/0.c: o = gvar.video.page[0].pagesize; // source offscreen
src/0.c: o2 = (ry * gvar.video.page[0].stridew) + (rx >> 2); // dest visible (original stride)
src/0.c: //printf("[x%u y%u] [rx%u ry%u] [w%u h%u]\n", x, y, rx, ry, w, h);
src/0.c: dstart = (gvar.video.page[0].height - dh) / 2; // center the squash effect on screen, otherwise it would squash to top of screen
src/16.c: * along with this program. If not, see , or
src/16.c: // DOSLIB: check our environment
src/16.c: // DOSLIB: what CPU are we using?
src/16.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/16.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/16.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/16.c: // the CPU to carry out tasks. --J.C.
src/16.c: // DOSLIB: check for VGA
src/16.c: // hardware must be VGA or higher!
src/16.c: _DEBUG("Serial debug output started\n"); // NTS: All serial output must end messages with newline, or DOSBox-X will not emit text to log
src/16.c:// modexPalBlack(); //so player will not see loadings~
src/16.c: //modexprint(&screen, 32, 32, 1, 2, 0, "a", 1);
src/16.h: * along with this program. If not, see , or
src/bakapi4b.c: * along with this program. If not, see , or
src/bakapi4b.c: // main variables values
src/bakapi4b.c: d=4; // switch variable
src/bakapi4b.c: key=2; // default screensaver number
src/bakapi4b.c:// screen savers
src/bakapi4b.c: while(d>0) // on!
src/bakapi4b.c: { // conditions of screen saver
src/bakapi4b.c: // user imput switch
src/bakapi4b.c: printf("Enter 1, 2, 3, 4, or 6 to run a screensaver, or enter 0 to quit.\n", getch()); // prompt the user
src/bakapi4b.c: //if(key==3){xx=yy=0;} // crazy screen saver wwww
src/bakapi4b.c://pee!
src/bakapi.c: * along with this program. If not, see , or
src/bakapi.c:sword vgamodex_mode = 1; // 320x240 default
src/bakapi.c: // allow changing default mode from command line
src/bakapi.c: // (based on src/lib/modex16.c)
src/bakapi.c: // 1 = 320x240
src/bakapi.c: // 2 = 160x120
src/bakapi.c: // 3 = 320x200
src/bakapi.c: // 4 = 192x144
src/bakapi.c: // 5 = 256x192
src/bakapi.c: // DOSLIB: check our environment
src/bakapi.c: // DOSLIB: what CPU are we using?
src/bakapi.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/bakapi.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/bakapi.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/bakapi.c: // the CPU to carry out tasks. --J.C.
src/bakapi.c: // DOSLIB: check for VGA
src/bakapi.c: // hardware must be VGA or higher!
src/bakapi.c: // main variables values
src/bakapi.c: d=4; // switch variable
src/bakapi.c: key=2; // default screensaver number
src/bakapi.c: VGAmodeX(vgamodex_mode, 1, &gvar); // TODO: Suggestion: Instead of magic numbers for the first param, might I suggest defining an enum or some #define constants that are easier to remember? --J.C.
src/bakapi.c: // this code is written around modex16 which so far is a better fit than using DOSLIB vga directly, so leave MXLIB code in.
src/bakapi.c: // we'll integrate DOSLIB vga into that part of the code instead for less disruption. -- J.C.
src/bakapi.c: //modexPalUpdate(bmp.palette); //____
src/bakapi.c: //modexDrawBmp(VGA, 0, 0, &bmp, 0); //____
src/bakapi.c: //getch(); //____
src/bakapi.c:// screen savers
src/bakapi.c: while(d>0) // on!
src/bakapi.c: getch(); // eat keyboard input
src/bakapi.c: //right movement
src/bakapi.c: //left movement
src/bakapi.c: //down movement
src/bakapi.c: //up movement
src/bakapi.c: //getch(); // eat keyboard input
src/bakapi.c: break; // 'q' or 'ESC' or 'p'
src/bakapi.c: // this code is written around modex16 which so far is a better fit than using DOSLIB vga directly, so leave MXLIB code in.
src/bakapi.c: // we'll integrate DOSLIB vga into that part of the code instead for less disruption. -- J.C.
src/bakapi.c: // user imput switch
src/bakapi.c: //fprintf(stderr, "xx=%d yy=%d tile=%d\n", bakapee.xx, bakapee.yy, bakapee.tile);
src/bakapi.c: //fprintf(stderr, "dx=%d dy=%d ", gvar.video.page[0].dx, gvar.video.page[0].dy);
src/bakapi.c: //printf("\n");
src/bakapi.c: case 'p': // test pan
src/bakapi.c: case 'b': // test tile change
src/bakapi.c: // this code is written around modex16 which so far is a better fit than using DOSLIB vga directly, so leave MXLIB code in.
src/bakapi.c: // we'll integrate DOSLIB vga into that part of the code instead for less disruption. -- J.C.
src/bakapi.c:#else // !defined(BOINK)
src/bakapi.c:// FIXME: Does not compile. Do you want to remove this?
src/bakapi.c:// INFO: This is a testing section for textrendering and panning for project 16 --sparky4
src/bakapi.c: { // conditions of screen saver
src/bakapi.c:// while(!kbhit())
src/bakapi.c:// {
src/bakapi.c:// ding(&gvar.video.page[0], &bakapee, key);
src/bakapi.c:// }
src/bakapi.c: //end of screen savers
src/bakapi.c: //pdump(&gvar.video.page[0]);
src/bakapi.c:// mxOutText(xpos+1, ypos+gvar.video.page[0].height-48, "========================================");
src/bakapi.c:// mxOutText(xpos+1, ypos+gvar.video.page[0].height-40, "| |Chikyuu:$line1");
src/bakapi.c:// mxOutText(xpos+1, ypos+gvar.video.page[0].height-32, "| |$line2");
src/bakapi.c:// mxOutText(xpos+1, ypos+gvar.video.page[0].height-24, "| |$line3");
src/bakapi.c:// mxOutText(xpos+1, ypos+gvar.video.page[0].height-16, "| |$line4");
src/bakapi.c:// mxOutText(xpos+1, ypos+gvar.video.page[0].height-8, "========================================");
src/bakapi.c:// xpos+=xdir;
src/bakapi.c:// ypos+=ydir;
src/bakapi.c:// if( (xpos>(gvar.video.page[0].sw-gvar.video.page[0].width-1)) || (xpos<1)){xdir=-xdir;}
src/bakapi.c:// if( (ypos>(gvar.video.page[0].sh-gvar.video.page[0].height-1)) || (ypos<1)){ydir=-ydir;}
src/bakapi.c:// ch=getch();
src/bakapi.c: if(ch==0x71)break; // 'q'
src/bakapi.c: if(ch==0x1b)break; // 'ESC'
src/bakapi.c:#endif // defined(BOINK)
src/bakapi.c:// printf("page.width=%u ", gvar.video.page[0].width); printf("page.height=%u\n", gvar.video.page[0].height);
src/bakapi.c://pee!
src/bakapi.h: * along with this program. If not, see , or
src/bakapi.h://project 16 testing define switch for veiwing the contents of the video memory --sparky4
src/bakapi.h:#define BOINK // what does this mean? --J.C.
src/emmtest.c:// Cut this out as emm.c
src/emmtest.c: { // make sure we got EMM
src/emmtest.c: //printf("EMM Hardware Information %lu\n", EMInfo());
src/emmtest.c: //printf("b4 EMS *pEmmData=%s\n", *pEmmData);
src/emmtest.c: pEmmData = (byte *)EMMalloc(&hEData, EMMCoreLeft()); // get 6 * 16K bytes - 96K
src/emmtest.c: MapEMM(hEData, 0, PEMMDATAPAGENUM); // load 1st 4 pages into page frame: 0-3
src/emmtest.c: //memset(pEmmData, 0x0e, 64000u);
src/emmtest.c://0000 printf("(advi*EMMPAGESIZE)=%lu\n", advi);
src/emmtest.c: memset(pEmmData, atoi(argv[1]), 0xffff);//sizeof(atoi(argv[1])));//((EMMCoreLeft())*EMMPAGESIZE));
src/emmtest.c://qqqq memset(pEmmData+0x10000, atoi(argv[1]), 0xffff);//sizeof(atoi(argv[1])));//((EMMCoreLeft())*EMMPAGESIZE));
src/emmtest.c://---- UnmapEMM(hEData, 0, 4); // not absolutely necessary
src/emmtest.c: MapEMM(hEData, 4, 2); // map last 2 pages: 4-5
src/emmtest.c:// memset(pEmmData, atoi(argv[0]), 32768u);
src/emmtest.c: // do some stuff with the first 64K of file data.
src/emmtest.c: MapEMM(hEData, 4, 2); // only unmaps 1st two pages of prior 64k mapping
src/emmtest.c: // do stuff with remaining 32K of data
src/emmtest.c: // (*p)++;
src/emmtest.c: // (*p)++;
src/emmtest.c: //free(p);
src/emmtest.c: UnmapEMM(hEData, 0, PEMMDATAPAGENUM); // should unmap before freeing
src/emmtest.c: //printf("after EMS *pEmmData=%c\n", *pEmmData);
src/emmtest.c: EMMFree(hEData); // finished with the file data
src/emmtest.c: //printf("EMMPAGESIZE=%d\n", EMMPAGESIZE);
src/emsdump.c: * along with this program. If not, see , or
src/emsdump.c://#include
src/emsdump.c: char huge *p =(char huge *)(GetEMMSeg0()*0x10000);//0xD0000000;
src/emsdump.c: //char far *q =(char far *)0x53332225;
src/emsdump.c: //while(!kbhit()){ printf("%p\n", ((GetEMMSeg0()*0x10000)+0x0fffffff)); }
src/emsdump.c: //while(!kbhit()){ printf("%p\n", ((GetEMMSeg0()*0x10000)+0xffff)); }
src/emsdump.c: //else printf("%p= %x% %ul\n", p, *p, i);
src/emsdump.c:// (*p)++;
src/emsdump.c:// printf(" %p\n", ((GetEMMSeg0()*0x10000)+0x0fffffff));
src/emsdump.c: //printf("*q=%d\n",*q);
src/emsdump.c: //printf(" q=%p\n", q);
src/exmmtest.c: * along with this program. If not, see , or
src/exmmtest.c://#include "src/lib/16_vl.h"
src/exmmtest.c://file load or read definition
src/exmmtest.c://#define EXMMVERBOSE
src/exmmtest.c:// printf("Next string is: [");
src/exmmtest.c:// while(*scrptr<16)
src/exmmtest.c:// {
src/exmmtest.c:// printf("%c", *(screen:>scrptr));
src/exmmtest.c:// //printf("\b");
src/exmmtest.c:// scrptr++;
src/exmmtest.c://
src/exmmtest.c:// }
src/exmmtest.c:// printf("]\n");
src/exmmtest.c:// printf("press any key to continue!\n");
src/exmmtest.c:// getch();
src/exmmtest.c://static global_game_variables_t gvar;
src/exmmtest.c://#ifdef __WATCOMC__
src/exmmtest.c:// __segment sega;
src/exmmtest.c://#endif
src/exmmtest.c: //static byte bakapee[64];
src/exmmtest.c: //file name //
src/exmmtest.c: //file name //
src/exmmtest.c: dbg_debugpm=1; //debug pm
src/exmmtest.c: //PRINTBB
src/exmmtest.c: //{ printf("filename!: "); scanf("%[^\n]", &bakapee); }
src/exmmtest.c: //printf("main()=%Fp start MM\n", *argv[0]);
src/exmmtest.c: //printf("ok\n");
src/exmmtest.c://#ifdef __WATCOMC__
src/exmmtest.c: //printf("pmstarted ok\n");
src/exmmtest.c: //PM_CheckMainMem(&gvar);
src/exmmtest.c://#endif
src/exmmtest.c:// printf(" done!\n");
src/exmmtest.c: //0000PRINTBB;
src/exmmtest.c:// printf("press any key to continue!\n");
src/exmmtest.c:// getch();
src/exmmtest.c:// bakapeehandle = open(bakapee,O_RDONLY | O_BINARY, S_IREAD);
src/exmmtest.c:// printf("size of big buffer~=%u\n", _bmsize(segu, bigbuffer));
src/exmmtest.c:// if(CA_FarRead(bakapeehandle,(void far *)&bigbuffer,sizeof(bigbuffer),&gvar.mm))
src/exmmtest.c:// close(bakapeehandle);
src/exmmtest.c: //hmm functions in cache system use the buffered stuff
src/exmmtest.c://#ifdef __WATCOMC__
src/exmmtest.c:// printf("\nsize of big buffer~=%u\n", _bmsize(sega, bigbuffer));
src/exmmtest.c://#endif
src/exmmtest.c: //printf("dark purple = purgable\n");
src/exmmtest.c: //printf("medium blue = non purgable\n");
src/exmmtest.c: //printf("red = locked\n");
src/exmmtest.c:// printf("press any key to continue!\n");
src/exmmtest.c:// DebugMemory_(&gvar, 1);
src/exmmtest.c: //printf("bakapee1=%s\n", bakapee1);
src/exmmtest.c: //printf("bakapee2=%s\n", bakapee2);
src/exmmtest.c://#ifdef __WATCOMC__
src/exmmtest.c://#endif
src/exmmtest.c: //printf("bigbr= %04x", bigbuffer);
src/exmmtest.c: //printf("\n");
src/exmmtest.c: //printf("&bigb=%04x", &bigbuffer);
src/exmmtest.c://this is far printf("Total free: %lu\n", (dword)(GetFreeSize()));
src/exmmtest.c: //printf("core left: %lu\n", (dword)_coreleft());
src/exmmtest.c: //printf("far core left: %lu\n", (dword)_farcoreleft());
src/exmmtest.c: //printf("based core left: %lu\n", (dword)_basedcoreleft());
src/exmmtest.c: //printf("huge core left: %lu\n", (dword)_hugecoreleft());
src/fmemtest.c: * along with this program. If not, see , or
src/fmemtest.c: //void __based(__self) *pee;
src/fmemtest.c: //word csw=0,dsw=0,esw=0,ssw=0,ipw=0;
src/fmemtest.c: //ptr=&x;
src/fmemtest.c: //printf("&ptr0=%Fp\n", &ptr0);
src/fmemtest.c: //printf("&ptr=%Fp\n", &ptr);
src/fmemtest.c: //lea csw,cs
src/fmemtest.c: //lds DS,dsw
src/fmemtest.c: //les ES,esw
src/fmemtest.c:// mov ss,ssw
src/fmemtest.c:// mov ip,ipw
src/fmemtest.c: //printf("ip=%u\n", ipw);
src/fmemtest.c: //printf("ss=%u\n", ssw);
src/fmemtest.c: //printf("cs=%u\n", csw);
src/fmemtest.c: //printf("ds=%u\n", dsw);
src/fmemtest.c: //printf("es=%u\n", esw);
src/fontgfx.c: * along with this program. If not, see , or
src/fontgfx.c://#include "lib/16text.h"
src/fontgfx.c: //JMOJI
src/fontgfx.c: //word ri;
src/fontgfx.c: byte pee[6]; // must be large enough for sprintf("%zc",...) and sprintf("%u",(byte value))
src/fontgfx.c:// static byte *rosa;
src/fontgfx.c: // DOSLIB: check our environment
src/fontgfx.c: // DOSLIB: what CPU are we using?
src/fontgfx.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/fontgfx.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/fontgfx.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/fontgfx.c: // the CPU to carry out tasks. --J.C.
src/fontgfx.c: // DOSLIB: check for VGA
src/fontgfx.c: // hardware must be VGA or higher!
src/fontgfx.c: // NTS: We're in Mode-X now. printf() is useless. Do not use printf(). Or INT 10h text printing. Or DOS console output.
src/fontgfx.c: //modexprint(16, 16, 1, 15, "wwww");
src/fontgfx.c: //getch();
src/fontgfx.c:// vga_moveto(0,0);
src/fontgfx.c:// vga_sync_bios_cursor();
src/fontgfx.c: //getch();
src/fontgfx.c: //modexprint(100, 100, 1, 47, 0, "wwww");
src/fontgfx.c:// modexprint(0, 0, 1, 0, colpee, &rose);
src/fontgfx.c://++++ modexprint(&gvar.video.page[0], 0, 0, 0, 0, colpee, &ibmlogo);
src/fontgfx.c:// modexprintbig(&gvar.video.page[0], 0, 0, 1, colpee, 0, "IBM");
src/fontgfx.c:// modexprint(0, 0, 1, 0, colpee, ROSE);
src/fontgfx.c://++++ getch();
src/fontgfx.c:// rosa=malloc(sizeof(ROSE));
src/fontgfx.c:// (*rosa)=(byte)ROSE;
src/fontgfx.c: //printf("\nh=%d\n", '8');
src/fontgfx.c:// printf("\n%c\n", e);
src/fonttest.c: * along with this program. If not, see , or
src/fonttest.c: //print the addresses of the fonts
src/fonttest.c:// printf("*argv[1]=%d\n", *argv[1]);
src/fonttest.c: //load the letter 'A'
src/fonttest.c: //render the letter in ascii art
src/inputest.c: * along with this program. If not, see , or
src/inputest.c: //extern struct inconfig inpu;
src/inputest.c: //while(!IN_KeyDown(sc_Escape))
src/inputest.c: //shinkutxt(&gvar);
src/inputest.c: //right movement
src/inputest.c: //left movement
src/inputest.c: //down movement
src/inputest.c: //up movement
src/inputest.c: //printf("%u\n", IN_KeyDown(sc_Escape));
src/inputest.c: //if(
src/inputest.c: IN_qb(sc_9);//>0) printf("IN_qb(sc_9)=%u\n", IN_qb(sc_9));
src/inputest.c: if(IN_KeyDown(88)) //speed
src/inputest.c: //IN_Ack();
src/inputest.c: //printf("%u\n", in.Keyboard[sc_Escape]);
src/maptest.c: * along with this program. If not, see , or
src/maptest.c://TODO: ADD MEMORY MANAGER! WWWW
src/maptest.c: //fprintf(stderr, "program always crashes for some reason....\n");
src/midi.c:// fprintf(stderr,"Type 0x7F len=%lu %p/%p/%p\n",len,t->raw,t->read,t->fence);
src/midi.c:// fprintf(stderr,"Type 0x%02x len=%lu %p/%p/%p\n",c,d,t->raw,t->read,t->fence);
src/midi.c:// fprintf(stderr,"Sysex len=%lu %p/%p/%p\n",len,t->raw,t->read,t->fence);
src/midi.c:// midi_tick();
src/miditest.c: //adlib_shut_up();
src/miditest.c: //adv = ptick;
src/miditest.c: //ptick++;
src/miditest.c: //adlib_shut_up();
src/palettec.c: * along with this program. If not, see , or
src/palettel.c: * along with this program. If not, see , or
src/palettel.c: //page.width += 32;
src/palettel.c: //page.height += 32;
src/palettel.c:// modexPalSave(pal);
src/pcxtest2.c: * along with this program. If not, see , or
src/pcxtest2.c://----#include "src/lib/planar.h"
src/pcxtest2.c: // TODO Make this fast. It's SLOOOOOOW
src/pcxtest2.c: //offset+=p->width;
src/pcxtest2.c: //offset++;
src/pcxtest2.c://---- planar_buf_t *p;
src/pcxtest2.c: // DOSLIB: check our environment
src/pcxtest2.c: // DOSLIB: what CPU are we using?
src/pcxtest2.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/pcxtest2.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/pcxtest2.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/pcxtest2.c: // the CPU to carry out tasks. --J.C.
src/pcxtest2.c: // DOSLIB: check for VGA
src/pcxtest2.c: // hardware must be VGA or higher!
src/pcxtest2.c://0000 bmp = bitmapLoadPcx("data/koishi~~.pcx");
src/pcxtest2.c:// bmp = bitmapLoadPcx("data/koishi^^.pcx");
src/pcxtest2.c:// bmp = bitmapLoadPcx("16/PCX_LIB/chikyuu.pcx");
src/pcxtest2.c://---- p = planar_buf_from_bitmap(&bmp);
src/pcxtest2.c: //for(i=0; i<100 ;i++) {
src/pcxtest2.c: //}
src/pcxtest2.c: //for(i=0; i<100 ;i++) {
src/pcxtest2.c://0000 modexDrawBmp(&gvar.video.page[0], 20, 20, &bmp);
src/pcxtest2.c: //}
src/pcxtest2.c: //for(i=0; i<100; i++) {
src/pcxtest2.c://0000 modexCopyPageRegion(&gvar.video.page[0], &gvar.video.page[0], 20, 20, 128, 20, 64, 64);
src/pcxtest2.c: //}
src/pcxtest2.c: //for(i=0; i<100 ;i++) {
src/pcxtest2.c: //}
src/pcxtest2.c: //for(i=0; i<100 ;i++) {
src/pcxtest2.c://0000 modexDrawSprite(&gvar.video.page[0], 20, 20, &bmp);
src/pcxtest2.c: //}
src/pcxtest2.c: //_fmemset(MK_FP(0xA000, 0), (int)p->plane, gvar.video.page[0].sw*(gvar.video.page[0].sh*2));
src/pcxtest2.c: //modexDrawBmp(&gvar.video.page[0], 0, 0, &bmp);
src/pcxtest2.c: //DrawPBuf(&gvar.video.page[0], 0, 0, p, 0);
src/pcxtest.c: * along with this program. If not, see , or
src/pcxtest.c://----#include "src/lib/planar.h"
src/pcxtest.c://---- planar_buf_t *p;
src/pcxtest.c: // DOSLIB: check our environment
src/pcxtest.c: // DOSLIB: what CPU are we using?
src/pcxtest.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/pcxtest.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/pcxtest.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/pcxtest.c: // the CPU to carry out tasks. --J.C.
src/pcxtest.c: // DOSLIB: check for VGA
src/pcxtest.c: // hardware must be VGA or higher!
src/pcxtest.c://0000 bmp = bitmapLoadPcx("data/koishi~~.pcx");
src/pcxtest.c:// bmp = bitmapLoadPcx("data/koishi^^.pcx");
src/pcxtest.c:// bmp = bitmapLoadPcx("16/PCX_LIB/chikyuu.pcx");
src/pcxtest.c://---- p = planar_buf_from_bitmap(&bmp);
src/pcxtest.c: //for(i=0; i<100 ;i++) {
src/pcxtest.c: //}
src/pcxtest.c: //for(i=0; i<100 ;i++) {
src/pcxtest.c://0000 modexDrawBmp(&gvar.video.page[0], 20, 20, &bmp);
src/pcxtest.c: //}
src/pcxtest.c: //for(i=0; i<100; i++) {
src/pcxtest.c://0000 modexCopyPageRegion(&gvar.video.page[0], &gvar.video.page[0], 20, 20, 128, 20, 64, 64);
src/pcxtest.c: //}
src/pcxtest.c: //for(i=0; i<100 ;i++) {
src/pcxtest.c: //}
src/pcxtest.c: //for(i=0; i<100 ;i++) {
src/pcxtest.c://0000 modexDrawSprite(&gvar.video.page[0], 20, 20, &bmp);
src/pcxtest.c: //}
src/pcxtest.c: //_fmemset(MK_FP(0xA000, 0), (int)p->plane, gvar.video.page[0].sw*(gvar.video.page[0].sh*2));
src/pcxtest.c: //modexDrawBmp(&gvar.video.page[0], 0, 0, &bmp);
src/pcxtest.c: //DrawPBuf(&gvar.video.page[0], 0, 0, p, 0);
src/planrpcx.c: * along with this program. If not, see , or
src/planrpcx.c:word start;//, w;
src/planrpcx.c://w=0;
src/planrpcx.c://printf("%u ", w++);
src/planrpcx.c:// if(argv[2]) baka = atoi(argv[2]);
src/planrpcx.c:// else
src/planrpcx.c://fprintf(stderr, "%u ", w++);
src/planrpcx.c://fprintf(stderr, "%u ", w++);
src/planrpcx.c:// ptmp = planarLoadPcx("data/ptmp.pcx");
src/planrpcx.c://fprintf(stderr, "%u ", w++);
src/planrpcx.c://fprintf(stderr, "^^;", w++);
src/planrpcx.c://getch();
src/planrpcx.c: //fix up the palette and everything
src/planrpcx.c: //clear and draw one sprite and one bitmap
src/planrpcx.c: //update display~
src/planrpcx.c: //non sprite comparison
src/planrpcx.c:// oldDrawBmp(VGA, 20, 20, &bmp, 0);
src/planrpcx.c: //modexDrawBmpPBuf (&gvar.video.page[0], 32, 32, &p);
src/planrpcx.c:// start = *clockw;
src/planrpcx.c:// modexCopyPageRegion(&gvar.video.page[0], &gvar.video.page[0], 0, 0, 0, 0, 320, 240);
src/planrpcx.c:// t2 = (*clockw-start)/18.2;
src/planrpcx.c: //(page_t *page, int x, int y, int rx, int ry, int rw, int rh, planar_buf_t *p, boolean sprite);
src/planrpcx.c: modexDrawPBufRegion (&gvar.video.page[0], p.width, 0, p.width-(p.width/4), p.height-(p.height/4), p.width/4, p.height/4, &p, 0);//(&gvar.video.page[0], 0, 0, 0+p.width, 0, p.width, p.height, &p, 0);
src/planrpcx.c: //++++ modexPalUpdate1(ptmp.palette);
src/planrpcx.c: //modexDrawBmpPBufRegion(&gvar.video.page[0], 64, 64, 48, 32, 24, 32, ptmp);
src/planrpcx.c: //modexDrawPBuf(&gvar.video.page[0], 64, 64, &ptmp, 0);
src/planrpcx.c: //print out the contents of each plane
src/planrpcx.c: //fprintf(stderr, "gvar.video.page[0].width: %u\n", gvar.video.page[0].width);
src/planrpcx.c: //fprintf(stderr, "gvar.video.page[0].height: %u\n", gvar.video.page[0].height);
src/_scroll.c: * along with this program. If not, see , or
src/_scroll.c://#include "src/lib/16_head.h"//included already
src/_scroll.c://#define FADE
src/_scroll.c:#define MODEX //this is for mode x initiating
src/_scroll.c://word far *clock= (word far*) 0x046C; /* 18.2hz clock */
src/_scroll.c://bitmap_t *p;
src/_scroll.c://word pn=0; //i forgot ww
src/_scroll.c://debugswitches
src/_scroll.c://extern boolean pageflipflop=1;
src/_scroll.c: //static int persist_aniframe = 0; /* gonna be increased to 1 before being used, so 0 is ok for default */
src/_scroll.c: //map_view_db_t pgid[4];
src/_scroll.c://#ifdef FADE
src/_scroll.c://#endif
src/_scroll.c: // DOSLIB: check our environment
src/_scroll.c: // DOSLIB: what CPU are we using?
src/_scroll.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/_scroll.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/_scroll.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/_scroll.c: // the CPU to carry out tasks. --J.C.
src/_scroll.c: // DOSLIB: check for VGA
src/_scroll.c: // hardware must be VGA or higher!
src/_scroll.c: _DEBUG("Serial debug output started\n"); // NTS: All serial output must end messages with newline, or DOSBox-X will not emit text to log
src/_scroll.c: * read_vrs(&gvar, "data/spri/chikyuu.vrs", player[0].spri->spritesheet); // load sprite
src/_scroll.c: modexPalBlack(); //reset the palette~
src/_scroll.c: modexPalBlack(); //so player will not see loadings~
src/_scroll.c: //TODO: LOAD map data and position the map in the middle of the screen if smaller then screen
src/_scroll.c: //_fmemcpy(mv[1].page->data, mv[0].page->data, mv[0].page->pagesize);
src/_scroll.c: //TODO: put player in starting position of spot
src/_scroll.c: //default player position on the viewable map
src/_scroll.c: //IN_initplayer(&player, 1);
src/_scroll.c: //modexClearRegion(mv[1].page, player[0].x, player[0].y-TILEWH, 16, 32, 15);
src/_scroll.c: //PBUFSFUN(mv[1].page, player[0].x, player[0].y-TILEWH, 16, 64, 24, 32, PLAYERBMPDATA);
src/_scroll.c: //PBUFSFUN(mv[0].page, player[0].x, player[0].y-TILEWH, 16, 64, 16, 32, player[0].data);
src/_scroll.c: else modexShowPage(mv[0].page);//!(gvar.video.p)
src/_scroll.c: shinku_fps_indicator_page = 0; // we're on page 1 now, shinku(). follow along please or it will not be visible.
src/_scroll.c:// modexClearRegion(mv[2].page, 0, 0, mv[2].page->width, mv[2].page->height, 47);
src/_scroll.c:// modexClearRegion(mv[3].page, 0, 0, mv[3].page->width, mv[3].page->height, 45);
src/_scroll.c:// {
src/_scroll.c:// unsigned int k,j,o;
src/_scroll.c:// /* fill screen with a distinctive pattern */
src/_scroll.c:// for (k=0;k < vga_state.vga_width;k++) {
src/_scroll.c:// o = k >> 2;
src/_scroll.c:// vga_write_sequencer(0x02/*map mask*/,1 << (k&3));
src/_scroll.c:// for (j=0;j < vga_state.vga_height;j++,o += vga_state.vga_stride)
src/_scroll.c:// vga_state.vga_graphics_ram[o] = (k^j)&15; // VRL samples put all colors in first 15!
src/_scroll.c:// }
src/_scroll.c:// }
src/_scroll.c: //top left corner & bottem right corner of map veiw be set as map edge trigger since maps are actually square
src/_scroll.c: //to stop scrolling and have the player position data move to the edge of the screen with respect to the direction
src/_scroll.c: //when player[0].tx or player[0].ty == 0 or player[0].tx == 20 or player[0].ty == 15 then stop because that is edge of map and you do not want to walk of the map
src/_scroll.c: //player movement
src/_scroll.c: //printf(" player[0].q: %d", player[0].q); printf(" player[0].d: %d\n", player[0].d);
src/_scroll.c: //the scripting stuff....
src/_scroll.c: //if(((player[0].triggerx == TRIGGX && player[0].triggery == TRIGGY) && IN_KeyDown(0x1C))||(player[0].tx == 5 && player[0].ty == 5))
src/_scroll.c: //debugging binds!
src/_scroll.c: } //p
src/_scroll.c:// paloffset=0; modexPalBlack(); modexPalUpdate(player[0].data, &paloffset, 0, 0);
src/_scroll.c:// printf("1paloffset = %d\n", paloffset/3);
src/_scroll.c:// modexPalUpdate(map.tiles->data, &paloffset, 0, 0);
src/_scroll.c:// printf("2paloffset = %d\n", paloffset/3);
src/_scroll.c:// modexpdump(mv[0].page); modexpdump(mv[1].page);
src/_scroll.c: //pan switch
src/_scroll.c: if(IN_KeyDown(88)){panswitch=!panswitch; IN_UserInput(1,1);} //f12
src/_scroll.c: if(IN_KeyDown(87)) //f11
src/_scroll.c:// VGAmodeX(0, 0, &gvar);
src/_scroll.c:// IN_Shutdown();
src/_scroll.c:// __asm
src/_scroll.c:// {
src/_scroll.c:// mov ah,31h
src/_scroll.c:// int 21h
src/_scroll.c:// }
src/_scroll.c: if(IN_KeyDown(68)) //f10
src/_scroll.c: if(IN_KeyDown(67)) //f9
src/_scroll.c: //IN_UserInput(1,1);
src/_scroll.c: if(IN_KeyDown(66)) //f8
src/_scroll.c:// modexDrawSprite(mv[0].page, 16, 16, p);
src/_scroll.c:// modexDrawSprite(mv[0].page, 32+48, 16, (player[0].data));
src/_scroll.c: //TODO fmemtest into page
src/_scroll.c: /*if(IN_KeyDown(4+1)) //4
src/_scroll.c: //9
src/_scroll.c: //if(IN_KeyDown(11)){ modexPalOverscan(15); }
src/_scroll.c: if((player[0].q==1) && !(player[0].x%TILEWH==0 && player[0].y%TILEWH==0)) break; //incase things go out of sync!
src/_scroll.c: //if(player[0].hp==0) printf("%d wwww\n", player[0].y+8);
src/_scroll.c: //else printf("\nplayer[0].y: %d\n", player[0].y);
src/_scroll.c:// printf("palette offset: %d\n", paloffset/3);
src/_scroll.c://++++ printf("Total used: %zu\n", oldfreemem-GetFreeSize());
src/_scroll.c://++++ printf("Total free: %zu\n", GetFreeSize());
src/_scroll.c://not used now printf("temporary player sprite 0: http://www.pixiv.net/member_illust.php?mode=medium&illust_id=45556867\n");
src/_scroll.c://not used now printf("temporary player sprite 1: http://www.pixiv.net/member_illust.php?mode=medium&illust_id=44606385\n");
src/_scroll.c: //printf("mv[%u].tx: %d", pan.pn, mv[pan.pn].tx); printf(" mv[%u].ty: %d ", pan.pn, mv[pan.pn].ty);
src/_scroll.c: //0000printf("\ngvar.video.tickclk=%f\n", gvar.video.tickclk);
src/_scroll.c: //0000printf("gvar.video.clk=%f", gvar.video.clk);
src/_scroll.c: //printf("map.width=%d map.height=%d map.data[0]=%d\n", mv[0].map->width, mv[0].map->height, mv[0].map->data[0]);
src/scroll.c: * along with this program. If not, see , or
src/scroll.c://#define FADE
src/scroll.c:#define MODEX //this is for mode x initiating
src/scroll.c://word far *clock= (word far*) 0x046C; /* 18.2hz clock */
src/scroll.c://bitmap_t *p;
src/scroll.c://word pn=0; //i forgot ww
src/scroll.c://debugswitches
src/scroll.c://extern boolean pageflipflop=1;
src/scroll.c: //static int persist_aniframe = 0; /* gonna be increased to 1 before being used, so 0 is ok for default */
src/scroll.c: //map_view_db_t pgid[4];
src/scroll.c://#ifdef FADE
src/scroll.c: //static word paloffset=0;
src/scroll.c://#endif
src/scroll.c: //byte *mesg=malloc(sizeof(dword));
src/scroll.c: // DOSLIB: check our environment
src/scroll.c: // DOSLIB: what CPU are we using?
src/scroll.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/scroll.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/scroll.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/scroll.c: // the CPU to carry out tasks. --J.C.
src/scroll.c: // DOSLIB: check for VGA
src/scroll.c: // hardware must be VGA or higher!
src/scroll.c: _DEBUG("Serial debug output started\n"); // NTS: All serial output must end messages with newline, or DOSBox-X will not emit text to log
src/scroll.c: //mappalptr = map.tiles->btdata->palette;
src/scroll.c: player[0].data = malloc(48*128); //TODO use exmm
src/scroll.c: *player[0].data = bitmapLoadPcx("data/chikyuu.pcx"); // load sprite
src/scroll.c:////++++ (player[0].data) = *planar_buf_from_bitmap(&p);
src/scroll.c: //IN_Default(1,&player,ctrl_Joystick);
src/scroll.c:// printf("%dx%d\n", gvar.video.page[0].sw, gvar.video.page[0].sh);
src/scroll.c: modexPalBlack(); //reset the palette~
src/scroll.c:// printf("Total used @ before palette initiation: %zu\n", oldfreemem-GetFreeSize());
src/scroll.c://++++ player[0].data.offset=(paloffset/3);
src/scroll.c://++++ modexPalUpdate1(&player[0].data, &paloffset, 0, 0);
src/scroll.c://++++0000 modexPalUpdate1(map.tiles->btdata->palette);
src/scroll.c: //printf(" %d\n", sizeof(ptmp->data));
src/scroll.c: //printf("1: %d\n", paloffset);
src/scroll.c://++++ map.tiles->data->offset=(paloffset/3);
src/scroll.c: //XTmodexPalUpdate(map.tiles->data, &paloffset, 0, 0);
src/scroll.c:// printf("\n====\n");
src/scroll.c:// printf("0 paloffset= %d\n", paloffset/3);
src/scroll.c:// printf("====\n\n");
src/scroll.c: modexPalBlack(); //so player will not see loadings~
src/scroll.c: //TODO: LOAD map data and position the map in the middle of the screen if smaller then screen
src/scroll.c: //_fmemcpy(mv[1].page->data, mv[0].page->data, mv[0].page->pagesize);
src/scroll.c: //TODO: put player in starting position of spot
src/scroll.c: //default player position on the viewable map
src/scroll.c: IN_initplayer(&player);//, 0);
src/scroll.c: //IN_initplayer(&player, 1);
src/scroll.c: //modexClearRegion(mv[1].page, player[0].x, player[0].y-TILEWH, 16, 32, 15);
src/scroll.c: //PBUFSFUN(mv[1].page, player[0].x, player[0].y-TILEWH, 16, 64, 24, 32, PLAYERBMPDATA);
src/scroll.c: else modexShowPage(mv[0].page);//!(gvar.video.p)
src/scroll.c: shinku_fps_indicator_page = 0; // we're on page 1 now, shinku(). follow along please or it will not be visible.
src/scroll.c:// modexClearRegion(mv[2].page, 0, 0, mv[2].page->width, mv[2].page->height, 47);
src/scroll.c:// modexClearRegion(mv[3].page, 0, 0, mv[3].page->width, mv[3].page->height, 45);
src/scroll.c:// {
src/scroll.c:// unsigned int k,j,o;
src/scroll.c:// /* fill screen with a distinctive pattern */
src/scroll.c:// for (k=0;k < vga_state.vga_width;k++) {
src/scroll.c:// o = k >> 2;
src/scroll.c:// vga_write_sequencer(0x02/*map mask*/,1 << (k&3));
src/scroll.c:// for (j=0;j < vga_state.vga_height;j++,o += vga_state.vga_stride)
src/scroll.c:// vga_state.vga_graphics_ram[o] = (k^j)&15; // VRL samples put all colors in first 15!
src/scroll.c:// }
src/scroll.c:// }
src/scroll.c: //top left corner & bottem right corner of map veiw be set as map edge trigger since maps are actually square
src/scroll.c: //to stop scrolling and have the player position data move to the edge of the screen with respect to the direction
src/scroll.c: //when player[0].tx or player[0].ty == 0 or player[0].tx == 20 or player[0].ty == 15 then stop because that is edge of map and you do not want to walk of the map
src/scroll.c: //player movement
src/scroll.c: //printf(" player[0].q: %d", player[0].q); printf(" player[0].d: %d\n", player[0].d);
src/scroll.c: //the scripting stuff....
src/scroll.c: //if(((player[0].triggerx == TRIGGX && player[0].triggery == TRIGGY) && IN_KeyDown(0x1C))||(player[0].tx == 5 && player[0].ty == 5))
src/scroll.c: //debugging binds!
src/scroll.c: } //p
src/scroll.c: //pan switch
src/scroll.c: if(IN_KeyDown(88)){panswitch=!panswitch; IN_UserInput(1,1);} //f12
src/scroll.c: if(IN_KeyDown(87)) //f11
src/scroll.c:// VGAmodeX(0, 0, &gvar);
src/scroll.c:// IN_Shutdown();
src/scroll.c:// __asm
src/scroll.c:// {
src/scroll.c:// mov ah,31h
src/scroll.c:// int 21h
src/scroll.c:// }
src/scroll.c: if(IN_KeyDown(68)) //f10
src/scroll.c: if(IN_KeyDown(67)) //f9
src/scroll.c: //IN_UserInput(1,1);
src/scroll.c: if(IN_KeyDown(66)) //f8
src/scroll.c:// modexDrawSprite(mv[0].page, 16, 16, p);
src/scroll.c: //TODO fmemtest into page
src/scroll.c: /*if(IN_KeyDown(4+1)) //4
src/scroll.c: //9
src/scroll.c: //if(IN_KeyDown(11)){ modexPalOverscan(15); }
src/scroll.c: if((player[0].q==1) && !(player[0].x%TILEWH==0 && player[0].y%TILEWH==0)) break; //incase things go out of sync!
src/scroll.c: //if(player[0].hp==0) printf("%d wwww\n", player[0].y+8);
src/scroll.c: //else printf("\nplayer[0].y: %d\n", player[0].y);
src/scroll.c:// printf("palette offset: %d\n", paloffset/3);
src/scroll.c://++++ printf("Total used: %zu\n", oldfreemem-GetFreeSize());
src/scroll.c://++++ printf("Total free: %zu\n", GetFreeSize());
src/scroll.c://not used now printf("temporary player sprite 0: http://www.pixiv.net/member_illust.php?mode=medium&illust_id=45556867\n");
src/scroll.c://not used now printf("temporary player sprite 1: http://www.pixiv.net/member_illust.php?mode=medium&illust_id=44606385\n");
src/scroll.c: //printf("mv[%u].tx: %d", pan.pn, mv[pan.pn].tx); printf(" mv[%u].ty: %d ", pan.pn, mv[pan.pn].ty);
src/scroll.c: //0000printf("\ngvar.video.tickclk=%f\n", gvar.video.tickclk);
src/scroll.c: //0000printf("gvar.video.clk=%f", gvar.video.clk);
src/scroll.c: //printf("map.width=%d map.height=%d map.data[0]=%d\n", mv[0].map->width, mv[0].map->height, mv[0].map->data[0]);
src/sountest.c: * along with this program. If not, see , or
src/sountest.c://#include "src/lib/16_snd.h"
src/sountest.c:// static FMInstrument testInst =
src/sountest.c://{
src/sountest.c://0x00, 0x01, /* modulator frequency multiple... 0x20 */
src/sountest.c://0x00, 0x00, /* modulator frequency level... 0x40 */
src/sountest.c://0xF0, 0xF0, /* modulator attack/decay... 0x60 */
src/sountest.c://0x73, 0x73, /* modulator sustain/release... 0x80 */
src/sountest.c://0x03, 0x00, /* output waveform distortion 0xE0 */
src/sountest.c://0x36, /* feedback algorithm and strength 0xC0 */
src/sountest.c://};
src/sountest.c: //FMReset();
src/sountest.c: //FMSetVoice(0, &testInst);
src/sountest.c:// vga_bios_set_80x50_text();
src/sountest.c: //FMKeyOn(0, 0x106, 4);
src/sountest.c: //FMKeyOff(0);
src/test0.c:// w = _nmalloc(sizeof(unsigned));
src/test2.c: * along with this program. If not, see , or
src/test2.c://#include "src/lib/bitmap.h"
src/test2.c://---- planar_buf_t *p;
src/test2.c: //byte color;
src/test2.c:// file = fopen("ptmp0.pcx", "wb");
src/test2.c: //fwrite(p, 1, p->width*p->height, file);
src/test2.c: //fclose(file);
src/test.c: * along with this program. If not, see , or
src/test.c: //argument
src/test.c: // DOSLIB: check our environment
src/test.c: // DOSLIB: what CPU are we using?
src/test.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/test.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/test.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/test.c: // the CPU to carry out tasks. --J.C.
src/test.c: // DOSLIB: check for VGA
src/test.c: // hardware must be VGA or higher!
src/test.c: _DEBUG("Serial debug output started\n"); // NTS: All serial output must end messages with newline, or DOSBox-X will not emit text to log
src/test.c: //modexPalOverscan(44+1);
src/test.c:// gvar.video.page[0]=modexDefaultPage(&gvar.video.page[0]);
src/test.c:// gvar.video.page[1] = modexNextPage(&gvar.video.page[0]);
src/test.c: // go right
src/test.c: // go left
src/test.c: // go up
src/test.c: // go down
src/test.c:// if(IN_KeyDown(6))
src/test.c:// {
src/test.c:// modexClearRegion(&gvar.video.page[1], gvar.video.page[1].sw, 16, 8, 4, 45);
src/test.c:// }
src/test.c:// if(IN_KeyDown(4+1)){
src/test.c:// modexClearRegion(&gvar.video.page[1], 16, 16, gvar.video.page[1].sw, gvar.video.page[1].sh, 128);
src/test.c:// modexClearRegion(&gvar.video.page[1], 32, 32, gvar.video.page[1].sw-32, gvar.video.page[1].sh-32, 42);
src/test.c:// modexClearRegion(&gvar.video.page[1], 48, 48, gvar.video.page[1].sw-64, gvar.video.page[1].sh-64, 128);
src/test.c:// }
src/test.c: //}
src/test.c:// if(i>PAL_SIZE) i=0;
src/test.c: }//9
src/test.c: }//p
src/testemm0.c://#include "src/lib/doslib/cpu.h"
src/testemm0.c://#include
src/testemm0.c:// printf("Allocating EMM pages (1.6MB): ");
src/testemm0.c: //h2 = emm_alloc_pages(0x19999AUL >> 14UL);
src/testemm0.c: //printf("Allocating EMM pages (12MB): ");
src/testemm0.c: //h3 = emm_alloc_pages(0xC00000UL >> 14UL);
src/testemm.c://#include "src/lib/doslib/cpu.h"
src/testemm.c://#include
src/tesuto.c: vga_enable_256color_modex(); // VGA mode X
src/tesuto.c: vga_state.vga_width = 320; // VGA lib currently does not update this
src/tesuto.c: vga_state.vga_height = 240; // VGA lib currently does not update this
src/tesuto.c:#if 1 // 320x240 test mode: this is how Project 16 is using our code, enable for test case
src/tesuto.c: // 320x240 mode 60Hz
src/tesuto.c: vga_state.vga_height = 240; // VGA lib currently does not update this
src/tesuto.c: vga_state.vga_graphics_ram[o] = (i^j)&15; // VRL samples put all colors in first 15!
src/tesuto.c: //while (getch() != 13);
src/tesuto.c: unsigned int overdraw = 1; // how many pixels to "overdraw" so that moving sprites with edge pixels don't leave streaks.
src/tesuto.c: // if the sprite's edge pixels are clear anyway, you can set this to 0.
src/tesuto.c: omemptr = vga_state.vga_graphics_ram; // save original mem ptr
src/tesuto.c: vga_state.vga_graphics_ram[o] = (i^j)&15; // VRL samples put all colors in first 15!
src/tesuto.c: o = offscreen_ofs; // source offscreen
src/tesuto.c: o2 = (ry * vga_state.vga_stride) + (rx >> 2); // dest visible (original stride)
src/tesuto.c: unsigned int overdraw = 1; // how many pixels to "overdraw" so that moving sprites with edge pixels don't leave streaks.
src/tesuto.c: // if the sprite's edge pixels are clear anyway, you can set this to 0.
src/tesuto.c: vga_state.vga_graphics_ram[o] = (i^j)&15; // VRL samples put all colors in first 15!
src/tesuto.c: omemptr = vga_state.vga_graphics_ram; // save original mem ptr
src/tesuto.c: o = pattern_ofs + (ry * vga_state.vga_stride) + (rx >> 2); // source offscreen
src/tesuto.c: o = offscreen_ofs; // source offscreen
src/tesuto.c: o2 = (ry * vga_state.vga_stride) + (rx >> 2); // dest visible (original stride)
src/tesuto.c: dstart = (vga_state.vga_height - dh) / 2; // center the squash effect on screen, otherwise it would squash to top of screen
src/tesuto.h://VGA_RAM_PTR vga_graphics_ram = (VGA_RAM_PTR)MK_FP(0xA000,0x0000);
src/tesuto.h://unsigned char vga_stride = 80; // 80 x 4 = 320 for 320-pixel wide modes
src/tsthimem.c://#include "src/lib/doslib/cpu.h"
src/tsthimem.c://#include doswin.h>
src/vgacamm.c: * along with this program. If not, see , or
src/vgacamm.c: // DOSLIB: check our environment
src/vgacamm.c: // DOSLIB: what CPU are we using?
src/vgacamm.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/vgacamm.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/vgacamm.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/vgacamm.c: // the CPU to carry out tasks. --J.C.
src/vgacamm.c: // DOSLIB: check for VGA
src/vgacamm.c: // hardware must be VGA or higher!
src/vgacamm.c: //
src/vgacamm.c: //
src/vgacamm.c: //printf("CPU to VGA: %f\n", t1);
src/vgacamm.c: //printf("VGA to VGA: %f\n", t2);
src/vgacamm.c:// printf("Num %d", num_of_vrl);
src/vgmtest.c: * along with this program. If not, see , or
src/vgmtest.c://#include "src/lib/doslib/adlib.h"
src/vgmtest.c: //ym3812_w(0, 0, reg);
src/vgmtest.c: //ym3812_w(0, 1, data);
src/vgmtest.c: //return ym3812_r(0, 0);
src/vgmtest.c: //++++global_game_variables_t gvar;
src/vgmtest.c: //while(!kbhit())
src/vrstest.c: * along with this program. If not, see , or
src/vrstest.c://#include "src/lib/16_head.h"
src/vrstest.c: //__segment sega;
src/vrstest.c: //vrl1_vgax_offset_t * off, *off1;
src/vrstest.c: // DOSLIB: check our environment
src/vrstest.c: // DOSLIB: what CPU are we using?
src/vrstest.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/vrstest.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/vrstest.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/vrstest.c: // the CPU to carry out tasks. --J.C.
src/vrstest.c: // DOSLIB: check for VGA
src/vrstest.c: // hardware must be VGA or higher!
src/vrstest.c: //gvar.video.page[0]=modexDefaultPage(&gvar.video.page[0]);
src/vrstest.c: // What should be done by read_vrs:
src/vrstest.c: //sega = (mm.bufferseg);
src/vrstest.c: // Insert sanity cheks later
src/vrstest.c: // Allocate memory for vrl line offsets table
src/vrstest.c: // Calculate line offsets for each vrl
src/vrstest.c: // Calc. vrl size as (next_offset - curr_offset)
src/vrstest.c: // If it's the last vrl, size is (next_vrs_struct_offset - curr_offset)
src/vrstest.c: //read_vrs(&gvar, "data/spri/chikyuu.vrs", &vrs);
src/vrstest.c:// Uncomment to see broken sprites
src/vrstest.c: //MM_FreePtr(&((void __based(sega)*)spri.spritesheet->buffer), &mm);
src/vrstest.c: //printf("CPU to VGA: %f\n", t1);
src/vrstest.c: //printf("VGA to VGA: %f\n", t2);
src/vrstest.c://0000 printf("gvar.video.page[0].width: %u\n", gvar.video.page[0].width);
src/vrstest.c://0000 printf("gvar.video.page[0].height: %u\n", gvar.video.page[0].height);
src/zcroll.c: * along with this program. If not, see , or
src/zcroll.c://debugswitches
src/zcroll.c://extern boolean pageflipflop=1;
src/zcroll.c://static int persist_aniframe = 0; /* gonna be increased to 1 before being used, so 0 is ok for default */
src/zcroll.c://map_view_db_t pgid[4];
src/zcroll.c://#ifdef FADE
src/zcroll.c://#endif
src/zcroll.c: // OK, this one takes hellova time and needs to be done in farmalloc or MM_...
src/zcroll.c: // create the map
src/zcroll.c://goto pee;
src/zcroll.c: // data
src/zcroll.c: // input!
src/zcroll.c: // save the palette
src/zcroll.c: modexPalBlack(); //reset the palette~
src/zcroll.c: modexPalBlack(); //so player will not see loadings~
src/zcroll.c: // setup camera and screen~
src/zcroll.c: // set up paging
src/zcroll.c: //TODO: LOAD map data and position the map in the middle of the screen if smaller then screen
src/zcroll.c: //_fmemcpy(mv[1].page->data, mv->page->data, mv->page->pagesize);
src/zcroll.c: //TODO: put player in starting position of spot
src/zcroll.c: //default player position on the viewable map
src/zcroll.c: //IN_initplayer(&player, 1);
src/zcroll.c:// #ifndef SPRITE
src/zcroll.c:// modexClearRegion(mv->page, player->x, player->y-TILEWH, 16, 32, 15);
src/zcroll.c:// //modexClearRegion(mv[1].page, player->x, player->y-TILEWH, 16, 32, 15);
src/zcroll.c:// #else
src/zcroll.c:// //PBUFSFUN(mv[1].page, player->x, player->y-TILEWH, 16, 64, 24, 32, PLAYERBMPDATA);
src/zcroll.c:// // PBUFSFUN(mv->page, player->x, player->y-TILEWH, 16, 64, 16, 32, player->data);
src/zcroll.c: //animate_spri(&(player->ent->spri));
src/zcroll.c:// #endif
src/zcroll.c: modexShowPage(mv->page);//!(gvar.video.p)
src/zcroll.c: shinku_fps_indicator_page = 0; // we're on page 1 now, shinku(). follow along please or it will not be visible.
src/zcroll.c: // buffer pages
src/zcroll.c:// modexClearRegion(mv[2].page, 0, 0, mv[2].page->width, mv[2].page->height, 47);
src/zcroll.c:// modexClearRegion(mv[3].page, 0, 0, mv[3].page->width, mv[3].page->height, 45);
src/zcroll.c:// {
src/zcroll.c:// unsigned int k,j,o;
src/zcroll.c:// // fill screen with a distinctive pattern
src/zcroll.c:// for (k=0;k < vga_state.vga_width;k++) {
src/zcroll.c:// o = k >> 2;
src/zcroll.c:// vga_write_sequencer(0x02/*map mask*/,1 << (k&3));
src/zcroll.c:// for (j=0;j < vga_state.vga_height;j++,o += vga_state.vga_stride)
src/zcroll.c:// vga_state.vga_graphics_ram[o] = (k^j)&15; // VRL samples put all colors in first 15!
src/zcroll.c:// }
src/zcroll.c:// }
src/zcroll.c:// modexFadeOn(4, gpal);*/
src/zcroll.c: //top left corner & bottem right corner of map veiw be set as map edge trigger since maps are actually square
src/zcroll.c: //to stop scrolling and have the player position data move to the edge of the screen with respect to the direction
src/zcroll.c: //when player->tx or player->ty == 0 or player->tx == 20 or player->ty == 15 then stop because that is edge of map and you do not want to walk of the map
src/zcroll.c: //player movement
src/zcroll.c: //the scripting stuff....
src/zcroll.c:*/ //debugging binds!
src/zcroll.c: } //p
src/zcroll.c: //pan switch
src/zcroll.c: if(IN_KeyDown(88)){panswitch=!panswitch; IN_UserInput(1,1);} //f12
src/zcroll.c: if(IN_KeyDown(87)) //f11
src/zcroll.c: if(IN_KeyDown(68)) //f10
src/zcroll.c: if(IN_KeyDown(67)) //f9
src/zcroll.c: if(IN_KeyDown(66)) //f8
src/zcroll.c: // modexDrawSprite(mv->page, 16, 16, p);
src/zcroll.c: //TODO fmemtest into page
src/zcroll.c: /*if(IN_KeyDown(4+1)) //4
src/zcroll.c: //9
src/zcroll.c: //if(IN_KeyDown(11)){ modexPalOverscan(15); }
src/zcroll.c: if((player->q==1) && !(player->x%TILEWH==0 && player->y%TILEWH==0)) break; //incase things go out of sync!
src/zcroll.c://pee:
src/zcroll.c: //if(player->hp==0) printf("%d wwww\n", player->y+8);
src/zcroll.c: //else printf("\nplayer->y: %d\n", player->y);
src/zcroll.c: //printf("mv[%u].tx: %d", pan.pn, mv[pan.pn].tx); printf(" mv[%u].ty: %d ", pan.pn, mv[pan.pn].ty);
src/zcroll.c: //0000printf("\ngvar.video.tickclk=%f\n", gvar.video.tickclk);
src/zcroll.c: //0000printf("gvar.video.clk=%f", gvar.video.clk);
src/zcroll.c: //printf("map.width=%d map.height=%d map.data[0]=%d\n", mv->map->width, mv->map->height, mv->map->data[0]);
src/lib/16_ca.c:// ID_CA.C
src/lib/16_ca.c://#define THREEBYTEGRSTARTS
src/lib/16_ca.c://https://github.com/open-watcom/open-watcom-v2/issues/279#issuecomment-244587566 for _seg
src/lib/16_ca.c: word bit0,bit1; // 0-255 is a character, > is a pointer to a node
src/lib/16_ca.c:long _seg *grstarts; // array of offsets in egagraph, -1 for sparse
src/lib/16_ca.c:long _seg *audiostarts; // array of offsets in audio / audiot
src/lib/16_ca.c:int grhandle; // handle to EGAGRAPH
src/lib/16_ca.c:int maphandle; // handle to MAPTEMP / GAMEMAPS
src/lib/16_ca.c:int audiohandle; // handle to AUDIOT / AUDIO
src/lib/16_ca.c://void CAL_CarmackExpand (unsigned far *source, unsigned far *dest,unsigned length);
src/lib/16_ca.c://#define GRFILEPOS(c) (*(long far *)(((byte far *)grstarts)+(c)*3)&0xffffff)
src/lib/16_ca.c: //dword fat=0;
src/lib/16_ca.c: //word segm=0;
src/lib/16_ca.c: //segm=(length%0xfffflu)-1;
src/lib/16_ca.c: //fat=segm*0xfffflu;
src/lib/16_ca.c: //length-=fat;
src/lib/16_ca.c: return 0;//TODO: EXPAND!!!
src/lib/16_ca.c: //if(!fat&&!segm)
src/lib/16_ca.c: //{
src/lib/16_ca.c: mov ah,0x3f // READ w/handle
src/lib/16_ca.c:// errno = EINVFMT; // user manager knows this is bad read
src/lib/16_ca.c: //dword fat=0;
src/lib/16_ca.c: //word segm=0;
src/lib/16_ca.c: //segm=(length%0xfffflu)-1;
src/lib/16_ca.c: //fat=segm*0xfffflu;
src/lib/16_ca.c: //length-=fat;
src/lib/16_ca.c: //if(!fat&&!segm)
src/lib/16_ca.c: //{
src/lib/16_ca.c: mov ah,0x40 // WRITE w/handle
src/lib/16_ca.c:// errno = ENOMEM; // user manager knows this is bad write
src/lib/16_ca.c: //long size;
src/lib/16_ca.c: //sdword size;
src/lib/16_ca.c: //long size;
src/lib/16_ca.c: //long size;
src/lib/16_ca.c:// unsigned bit,byte,node,code;
src/lib/16_ca.c:// huffnode *nodeon;
src/lib/16_ca.c: headptr = hufftable+254; // head node is allways node 254
src/lib/16_ca.c: source++; // normalize
src/lib/16_ca.c://
src/lib/16_ca.c:// ds:si source
src/lib/16_ca.c:// es:di dest
src/lib/16_ca.c:// ss:bx node pointer
src/lib/16_ca.c://
src/lib/16_ca.c://--------------------------
src/lib/16_ca.c:// expand less than 64k of data
src/lib/16_ca.c://--------------------------
src/lib/16_ca.c: mov ch,[si] // load first byte
src/lib/16_ca.c: test ch,cl // bit set?
src/lib/16_ca.c: mov dx,[ss:bx] // take bit0 path from node
src/lib/16_ca.c: shl cl,1 // advance to next bit position
src/lib/16_ca.c: mov dx,[ss:bx+2] // take bit1 path
src/lib/16_ca.c: shl cl,1 // advance to next bit position
src/lib/16_ca.c: mov ch,[si] // load next byte
src/lib/16_ca.c: mov cl,1 // back to first bit
src/lib/16_ca.c: or dh,dh // if dx<256 its a byte, else move node
src/lib/16_ca.c: mov bx,dx // next node = (huffnode *)code
src/lib/16_ca.c: inc di // write a decopmpressed byte out
src/lib/16_ca.c: mov bx,[word ptr headptr] // back to the head node for next bit
src/lib/16_ca.c: cmp di,ax // done?
src/lib/16_ca.c://--------------------------
src/lib/16_ca.c:// expand more than 64k of data
src/lib/16_ca.c://--------------------------
src/lib/16_ca.c: lodsb // load first byte
src/lib/16_ca.c: test al,cl // bit set?
src/lib/16_ca.c: mov dx,[ss:bx] // take bit0 path from node
src/lib/16_ca.c: mov dx,[ss:bx+2] // take bit1 path
src/lib/16_ca.c: shl cl,1 // advance to next bit position
src/lib/16_ca.c: cmp si,0x10 // normalize ds:si
src/lib/16_ca.c: mov cl,1 // back to first bit
src/lib/16_ca.c: or dh,dh // if dx<256 its a byte, else move node
src/lib/16_ca.c: mov bx,dx // next node = (huffnode *)code
src/lib/16_ca.c: inc di // write a decopmpressed byte out
src/lib/16_ca.c: mov bx,[word ptr headptr] // back to the head node for next bit
src/lib/16_ca.c: cmp di,0x10 // normalize es:di
src/lib/16_ca.c: jns expand // when length = ffff ffff, done
src/lib/16_ca.c: { // have to insert a word containing the tag byte
src/lib/16_ca.c: { // have to insert a word containing the tag byte
src/lib/16_ca.c://
src/lib/16_ca.c:// compress it
src/lib/16_ca.c://
src/lib/16_ca.c: //
src/lib/16_ca.c: // send a tag / count / value string
src/lib/16_ca.c: //
src/lib/16_ca.c: //
src/lib/16_ca.c: // send word without compressing
src/lib/16_ca.c: //
src/lib/16_ca.c:// unsigned value,count,i;
src/lib/16_ca.c://
src/lib/16_ca.c:// expand it
src/lib/16_ca.c://
src/lib/16_ca.c: //
src/lib/16_ca.c: // uncompressed
src/lib/16_ca.c: //
src/lib/16_ca.c: //
src/lib/16_ca.c: // compressed string
src/lib/16_ca.c: //
src/lib/16_ca.c://
src/lib/16_ca.c:// ax = source value
src/lib/16_ca.c:// bx = tag value
src/lib/16_ca.c:// cx = repeat counts
src/lib/16_ca.c:// dx = scratch
src/lib/16_ca.c://
src/lib/16_ca.c:// NOTE: A repeat count that produces 0xfff0 bytes can blow this!
src/lib/16_ca.c://
src/lib/16_ca.c: mov cx,ax // repeat count
src/lib/16_ca.c: lodsw // repeat value
src/lib/16_ca.c: cmp si,0x10 // normalize ds:si
src/lib/16_ca.c: cmp di,0x10 // normalize es:di
src/lib/16_ca.c:////++++ enable!
src/lib/16_ca.c://
src/lib/16_ca.c:// load ???dict.ext (huffman dictionary for graphics files)
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// load the data offsets from ???head.ext
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// Open the graphics file, leaving it open until the game is finished
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// load the pic and sprite headers into the arrays in the data segment
src/lib/16_ca.c://
src/lib/16_ca.c: CAL_GetGrChunkLength(STRUCTPIC); // position file pointer
src/lib/16_ca.c: CAL_GetGrChunkLength(STRUCTPICM); // position file pointer
src/lib/16_ca.c: CAL_GetGrChunkLength(STRUCTSPRITE); // position file pointer
src/lib/16_ca.c://==========================================================================
src/lib/16_ca.c:// int handle;
src/lib/16_ca.c:// long length;
src/lib/16_ca.c://
src/lib/16_ca.c:// load maphead.ext (offsets and tileinfo for map file)
src/lib/16_ca.c://
src/lib/16_ca.c:// #ifndef MAPHEADERLINKED
src/lib/16_ca.c:// if ((handle = open("MAPHEAD."EXT,
src/lib/16_ca.c:// O_RDONLY | O_BINARY, S_IREAD)) == -1)
src/lib/16_ca.c:// printf("Can't open MAPHEAD."EXT"!");
src/lib/16_ca.c:// length = filelength(handle);
src/lib/16_ca.c:// MM_GetPtr (&(memptr)tinf,length);
src/lib/16_ca.c:// CA_FarRead(handle, tinf, length);
src/lib/16_ca.c:// close(handle);
src/lib/16_ca.c:// //#else
src/lib/16_ca.c://
src/lib/16_ca.c:// tinf = (byte _seg *)FP_SEG(&maphead);
src/lib/16_ca.c://
src/lib/16_ca.c:// #endif
src/lib/16_ca.c://
src/lib/16_ca.c:// open the data file
src/lib/16_ca.c://
src/lib/16_ca.c://TODO: multiple files
src/lib/16_ca.c:// #ifdef MAPHEADERLINKED
src/lib/16_ca.c:// if ((maphandle = open("GAMEMAPS."EXT,
src/lib/16_ca.c:// O_RDONLY | O_BINARY, S_IREAD)) == -1)
src/lib/16_ca.c:// Quit ("Can't open GAMEMAPS."EXT"!");
src/lib/16_ca.c:// //#else
src/lib/16_ca.c:// if ((maphandle = open("MAPTEMP."EXT,
src/lib/16_ca.c:// O_RDONLY | O_BINARY, S_IREAD)) == -1)
src/lib/16_ca.c:// Quit ("Can't open MAPTEMP."EXT"!");
src/lib/16_ca.c:// #endif
src/lib/16_ca.c://==========================================================================
src/lib/16_ca.c://
src/lib/16_ca.c:// load maphead.ext (offsets and tileinfo for map file)
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// open the data file
src/lib/16_ca.c://
src/lib/16_ca.c://==========================================================================
src/lib/16_ca.c:#endif//profile
src/lib/16_ca.c://==========================================================================
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c: return; // allready in memory
src/lib/16_ca.c:// MDM begin - (GAMERS EDGE)
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// MDM end
src/lib/16_ca.c://
src/lib/16_ca.c:// load the chunk into a buffer, either the miscbuffer if it fits, or allocate
src/lib/16_ca.c:// a larger buffer
src/lib/16_ca.c://
src/lib/16_ca.c: source += 4; // skip over length
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c: MM_SetPurge (&(memptr)audiosegs[start],3); // make purgable
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://++++#if GRMODE == EGAGR
src/lib/16_ca.c: sheight = height; // because we are going to reassign bp
src/lib/16_ca.c:asm mov ds,ax // source and dest are in same segment, and all local
src/lib/16_ca.c:asm mov bp,WORD PTR [shifttabletable+bp] // bp holds pointer to shift table
src/lib/16_ca.c://
src/lib/16_ca.c:// table shift the mask
src/lib/16_ca.c://
src/lib/16_ca.c:asm mov BYTE PTR [di],255 // 0xff first byte
src/lib/16_ca.c:asm mov al,[bx] // source
src/lib/16_ca.c:asm inc bx // next source byte
src/lib/16_ca.c:asm mov ax,[bp+si] // table shift into two bytes
src/lib/16_ca.c:asm and [di],al // and with first byte
src/lib/16_ca.c:asm mov [di],ah // replace next byte
src/lib/16_ca.c:asm inc di // the last shifted byte has 1s in it
src/lib/16_ca.c://
src/lib/16_ca.c:// table shift the data
src/lib/16_ca.c://
src/lib/16_ca.c:asm shl dx,1 // four planes of data
src/lib/16_ca.c:asm mov BYTE PTR [di],0 // 0 first byte
src/lib/16_ca.c:asm mov al,[bx] // source
src/lib/16_ca.c:asm inc bx // next source byte
src/lib/16_ca.c:asm mov ax,[bp+si] // table shift into two bytes
src/lib/16_ca.c:asm or [di],al // or with first byte
src/lib/16_ca.c:asm mov [di],ah // replace next byte
src/lib/16_ca.c:asm inc di // the last shifted byte has 0s in it
src/lib/16_ca.c://
src/lib/16_ca.c:// done
src/lib/16_ca.c://
src/lib/16_ca.c:asm mov ax,ss // restore data segment
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://
src/lib/16_ca.c:// CGA has no pel panning, so shifts are never needed
src/lib/16_ca.c://
src/lib/16_ca.c: dest->sourceoffset[0] = MAXSHIFTS*6; // start data after 3 unsigned tables
src/lib/16_ca.c://
src/lib/16_ca.c:// expand the unshifted shape
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// calculate sizes
src/lib/16_ca.c://
src/lib/16_ca.c: shiftstarts[0] = MAXSHIFTS*6; // start data after 3 unsigned tables
src/lib/16_ca.c: shiftstarts[1] = shiftstarts[0] + smallplane*5; // 5 planes in a sprite
src/lib/16_ca.c: shiftstarts[4] = shiftstarts[3] + bigplane*5; // nothing ever put here
src/lib/16_ca.c://
src/lib/16_ca.c:// expand the unshifted shape
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// make the shifts!
src/lib/16_ca.c://
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c: //
src/lib/16_ca.c: // expanded sizes of tile8/16/32 are implicit
src/lib/16_ca.c: //
src/lib/16_ca.c: if (chunkvideo.grneeded[chunk] |= ca_levelbit; // make sure it doesn't get removed
src/lib/16_ca.c: return; // allready in memory
src/lib/16_ca.c:// MDM begin - (GAMERS EDGE)
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// MDM end
src/lib/16_ca.c://
src/lib/16_ca.c:// load the chunk into a buffer, either the miscbuffer if it fits, or allocate
src/lib/16_ca.c:// a larger buffer
src/lib/16_ca.c://
src/lib/16_ca.c: if (pos<0) // $FFFFFFFF start is a sparse tile
src/lib/16_ca.c: while (GRFILEPOS(next) == -1) // skip past any sparse tiles
src/lib/16_ca.c://==========================================================================
src/lib/16_ca.c://
src/lib/16_ca.c:// free up memory from last map
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// load map header
src/lib/16_ca.c:// The header will be cached if it is still around
src/lib/16_ca.c://
src/lib/16_ca.c: //pos = ((mapfiletype _seg *)tinf)->headeroffsets[mapnum];
src/lib/16_ca.c: if (pos<0) // $FFFFFFFF start is a sparse map
src/lib/16_ca.c://
src/lib/16_ca.c:// load the planes in
src/lib/16_ca.c:// If a plane's pointer still exists it will be overwritten (levels are
src/lib/16_ca.c:// allways reloaded, never cached)
src/lib/16_ca.c://
src/lib/16_ca.c: continue; // the plane is not used in this game
src/lib/16_ca.c: //
src/lib/16_ca.c: // unhuffman, then unRLEW
src/lib/16_ca.c: // The huffman'd chunk has a two byte expanded length first
src/lib/16_ca.c: // The resulting RLEW chunk also does, even though it's not really
src/lib/16_ca.c: // needed
src/lib/16_ca.c: //
src/lib/16_ca.c: //
src/lib/16_ca.c: // unRLEW, skipping expanded length
src/lib/16_ca.c: //
src/lib/16_ca.c:}//*/
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c: ////++++++++++++++++++++++++++++++++++++++++++CA_CacheMarks(NULL);
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://
src/lib/16_ca.c:// free graphics
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// free cursor sprite and background save
src/lib/16_ca.c://
src/lib/16_ca.c: //VW_FreeCursor ();
src/lib/16_ca.c://
src/lib/16_ca.c:// free map headers and map planes
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// free sounds
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// free graphics
src/lib/16_ca.c://
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c://
src/lib/16_ca.c:// draw dialog window (masked tiles 12 - 20 are window borders)
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// draw thermometer bar
src/lib/16_ca.c://
src/lib/16_ca.c: VWB_DrawTile8(thx,thy,0); // CAT3D numbers
src/lib/16_ca.c: thx += 4; // first line location
src/lib/16_ca.c://===========================================================================
src/lib/16_ca.c:*//*
src/lib/16_ca.c: long bufferstart,bufferend; // file position of general buffer
src/lib/16_ca.c://
src/lib/16_ca.c:// go through and make everything not needed purgable
src/lib/16_ca.c://
src/lib/16_ca.c: if (grsegs[i]) // its allready in memory, make
src/lib/16_ca.c: MM_SetPurge(&grsegs[i],0); // sure it stays there!
src/lib/16_ca.c: if (grsegs[i]) // not needed, so make it purgeable
src/lib/16_ca.c: if (!numcache) // nothing to cache!
src/lib/16_ca.c:// MDM begin - (GAMERS EDGE)
src/lib/16_ca.c://
src/lib/16_ca.c://
src/lib/16_ca.c:// MDM end
src/lib/16_ca.c://
src/lib/16_ca.c:// go through and load in anything still needed
src/lib/16_ca.c://
src/lib/16_ca.c: bufferstart = bufferend = 0; // nothing good in buffer now
src/lib/16_ca.c://
src/lib/16_ca.c:// update thermometer
src/lib/16_ca.c://
src/lib/16_ca.c: while (GRFILEPOS(next) == -1) // skip past any sparse tiles
src/lib/16_ca.c: // data is allready in buffer
src/lib/16_ca.c: // load buffer with a new block from disk
src/lib/16_ca.c: // try to get as many of the needed blocks in as possible
src/lib/16_ca.c: while (GRFILEPOS(++next) == -1) // skip past any sparse tiles
src/lib/16_ca.c: next = NUMCHUNKS; // read pos to posend
src/lib/16_ca.c: // big chunk, allocate temporary buffer
src/lib/16_ca.c://
src/lib/16_ca.c:// finish up any thermometer remnants
src/lib/16_ca.c://
src/lib/16_ca.h:// ID_CA.H
src/lib/16_ca.h://===========================================================================
src/lib/16_ca.h://#define NOMAPS
src/lib/16_ca.h://#define NOGRAPHICS
src/lib/16_ca.h://#define NOAUDIO
src/lib/16_ca.h://#define MAPHEADERLINKED
src/lib/16_ca.h://#define GRHEADERLINKED
src/lib/16_ca.h://#define AUDIOHEADERLINKED
src/lib/16_ca.h://#define NUMMAPS 39
src/lib/16_ca.h://#define MAPPLANES 3
src/lib/16_ca.h://++++#define PROFILE//++++
src/lib/16_ca.h://===========================================================================
src/lib/16_ca.h://===========================================================================
src/lib/16_ca.h://extern
src/lib/16_ca.h://
src/lib/16_ca.h:// hooks for custom cache dialogs
src/lib/16_ca.h://
src/lib/16_ca.h://===========================================================================
src/lib/16_ca.h:// just for the score box reshifting
src/lib/16_ca.h://void CAL_ShiftSprite (unsigned segment,unsigned source,unsigned dest,unsigned width, unsigned height, unsigned pixshift, boolean domask);
src/lib/16_ca.h://===========================================================================
src/lib/16_ca.h://void CA_CacheAudioChunk (int chunk);
src/lib/16_ca.h://void CA_LoadAllSounds (void);
src/lib/16_dbg.c:// TODO: Could we also provide a build mode to emit debug to the "Bochs E9 hack?"
src/lib/16_dbg.c: // what does the BIOS say the serial ports are?
src/lib/16_dbg.c: // what about the standard serial ports?
src/lib/16_dbg.c: // pick the first port, which is probably COM1
src/lib/16_dbg.c: if (base_8250_ports == 0) return 0; // FIXME: You know "base_8250_ports" is probably a bad variable name for the max entries in info_8250_port[]
src/lib/16_dbg.c: // init the COM port.
src/lib/16_dbg.c: // in DOSBox-X, the "log" mode will receive our text and print it into the log file
src/lib/16_dbg.c: // on real hardware, our text will likely go over a null modem cable to another PC running a serial terminal program like PuTTY or minicom.
src/lib/16_dbg.c: // if nothing is connected, then the bytes go off into the ether to get lost and life goes on.
src/lib/16_dbg.c: uart_8250_enable_interrupt(_DEBUG_uart,0); // disable interrupts
src/lib/16_dbg.c: uart_8250_set_FIFO(_DEBUG_uart,0x07); // enable FIFO (why not?), also clear xmit/recv FIFO buffers, set threshhold to 1 byte
src/lib/16_dbg.c: uart_8250_set_MCR(_DEBUG_uart,3); // RTS and DTS on
src/lib/16_dbg.c: uart_8250_set_line_control(_DEBUG_uart,UART_8250_LCR_8BIT | UART_8250_LCR_PARITY); // 8 bit 1 stop bit odd parity
src/lib/16_dbg.c: uart_8250_set_baudrate(_DEBUG_uart,uart_8250_baud_to_divisor(_DEBUG_uart,9600)); // 9600 baud
src/lib/16_dbg.c: while (!uart_8250_can_write(_DEBUG_uart)); // wait for the UART to indicate readiness for our output
src/lib/16_dbg.c: uart_8250_write(_DEBUG_uart,(uint8_t)c); // then write it
src/lib/16_dbg.h://#define __DEBUG_PM__
src/lib/16_dbg.h://#define __DEBUG_MM__
src/lib/16_dbg.h: // NOTHING
src/lib/16_dbg.h: // NOTHING
src/lib/16_dbg.h: // NOTHING
src/lib/16_dbg.h:#endif // _SRC_LIB_16_DBG
src/lib/16_enti.h: int x; // exact position on the viewable map
src/lib/16_enti.h: int y; // exact position on the viewable map
src/lib/16_enti.h: int tx; // tile position on the viewable map
src/lib/16_enti.h: int ty; // tile position on the viewable map
src/lib/16_enti.h: int triggerx; // trigger box tile position on the viewable map
src/lib/16_enti.h: int triggery; // trigger box tile position on the viewable map
src/lib/16_enti.h: byte d; // direction the NPC faces
src/lib/16_enti.h: struct sprite *spri; // sprite used by NPC
src/lib/16_enti.h: sword hp; // hitpoints of the NPC
src/lib/16_enti.h: byte near pdir; // previous direction~
src/lib/16_enti.h: word speed; // NPC's speed
src/lib/16_enti.h: word spt; // speed per tile
src/lib/16_hc.c: * along with this program. If not, see , or
src/lib/16_hc.c: // allocate based heap
src/lib/16_hc.c: //exit( 1 );
src/lib/16_hc.c: //near
src/lib/16_hc.c: //far
src/lib/16_hc.c: //printf("OK - end of heap\n");
src/lib/16_hc.c: //printf("OK - heap is empty\n");
src/lib/16_hc.h: * along with this program. If not, see , or
src/lib/16_hc.h://void __based(__self)* LargestBasedFreeBlock(size_t* Size);
src/lib/16_hc.h://size_t _basedcoreleft(void);
src/lib/16_head.c: * along with this program. If not, see , or
src/lib/16_head.c: if(strlen(str)<=4) strcat(strc," "); //printf("%u\n", strlen(str));
src/lib/16_head.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_head.c://
src/lib/16_head.c:// US_CheckParm() - checks to see if a string matches one of a set of
src/lib/16_head.c:// strings. The check is case insensitive. The routine returns the
src/lib/16_head.c:// index of the string that matched, or -1 if no matches were found
src/lib/16_head.c://
src/lib/16_head.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_head.c: while (!isalpha(*parm)) // Skip non-alphas
src/lib/16_head.c://===========================================================================
src/lib/16_head.c: //ClearMemory ();
src/lib/16_head.c: //WriteConfig ();
src/lib/16_head.c: //CA_CacheGrChunk (ERRORSCREEN);
src/lib/16_head.c: //screen = grsegs[ERRORSCREEN];
src/lib/16_head.c: //ShutdownId ();
src/lib/16_head.c: //IN_Shutdown();
src/lib/16_head.c: //modexLeave();
src/lib/16_head.c: //movedata ((unsigned)screen,7,0xb800,0,7*160);
src/lib/16_head.c: //gotoxy (10,4);
src/lib/16_head.c: //gotoxy (1,8);
src/lib/16_head.c: //clrscr();
src/lib/16_head.c: //#ifndef JAPAN
src/lib/16_head.c: //gotoxy(1,24);
src/lib/16_head.c: //#endif
src/lib/16_head.c://asm mov bh,0
src/lib/16_head.c://asm mov dh,23 // row
src/lib/16_head.c://asm mov dl,0 // collumn
src/lib/16_head.c://asm mov ah,2
src/lib/16_head.c://asm int 0x10
src/lib/16_head.c://===========================================================================
src/lib/16_head.c: case 0: //up
src/lib/16_head.c: case 4: //down
src/lib/16_head.c: case 1: //left
src/lib/16_head.c: case 3: //right
src/lib/16_head.c: default: //null
src/lib/16_head.h: * along with this program. If not, see , or
src/lib/16_head.h:#include // just for wait
src/lib/16_head.h:#include // just for wait
src/lib/16_head.h:#include //16_vrs.h
src/lib/16_head.h://here temperarly
src/lib/16_head.h:#define KEY_DASH (0x0C) // -_
src/lib/16_head.h:#define KEY_EQUAL (0x0D) // =+
src/lib/16_head.h:#define KEY_LBRACKET (0x1A) // [{
src/lib/16_head.h:#define KEY_RBRACKET (0x1B) // ]}
src/lib/16_head.h:#define KEY_SEMICOLON (0x27) // ;:
src/lib/16_head.h:#define KEY_RQUOTE (0x28) // '"
src/lib/16_head.h:#define KEY_LQUOTE (0x29) // `~
src/lib/16_head.h:#define KEY_PERIOD (0x33) // .>
src/lib/16_head.h:#define KEY_COMMA (0x34) // ,<
src/lib/16_head.h:#define KEY_SLASH (0x35) // /?
src/lib/16_head.h:#define KEY_BACKSLASH (0x2B) // \|
src/lib/16_head.h://static word far* clockw= (word far*) 0x046C; /* 18.2hz clock */
src/lib/16_head.h:extern int profilehandle,debughandle; //make it into game global
src/lib/16_head.h://#define OLD16_VL
src/lib/16_in.c://
src/lib/16_in.c:// ID Engine
src/lib/16_in.c:// ID_IN.c - Input Manager
src/lib/16_in.c:// v1.0d1w
src/lib/16_in.c:// By Jason Blochowiak
src/lib/16_in.c:// Open Watcom port by sparky4
src/lib/16_in.c://
src/lib/16_in.c://
src/lib/16_in.c:// This module handles dealing with the various input devices
src/lib/16_in.c://
src/lib/16_in.c:// Depends on: Memory Mgr (for demo recording), Sound Mgr (for timing stuff),
src/lib/16_in.c:// User Mgr (for command line parms)
src/lib/16_in.c://
src/lib/16_in.c:// Globals:
src/lib/16_in.c:// LastScan - The keyboard scan code of the last key pressed
src/lib/16_in.c:// LastASCII - The ASCII value of the last key pressed
src/lib/16_in.c:// DEBUG - there are more globals
src/lib/16_in.c://
src/lib/16_in.c://extern inconfig inpu;
src/lib/16_in.c://inpu.KbdDefs = {0x1d,0x38,/*0x47,*/0x48,/*0x49,*/0x4b,0x4d,/*0x4f,*/0x50/*,0x51*/};
src/lib/16_in.c:static byte far ASCIINames[] = // Unshifted ASCII for scan codes
src/lib/16_in.c:// 0 1 2 3 4 5 6 7 8 9 A B C D E F
src/lib/16_in.c: 0 ,27 ,'1','2','3','4','5','6','7','8','9','0','-','=',8 ,9 , // 0
src/lib/16_in.c: 'q','w','e','r','t','y','u','i','o','p','[',']',13 ,0 ,'a','s', // 1
src/lib/16_in.c: 'd','f','g','h','j','k','l',';',39 ,'`',0 ,92 ,'z','x','c','v', // 2
src/lib/16_in.c: 'b','n','m',',','.','/',0 ,'*',0 ,' ',0 ,0 ,0 ,0 ,0 ,0 , // 3
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,'7','8','9','-','4','5','6','+','1', // 4
src/lib/16_in.c: '2','3','0',127,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 5
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 6
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 // 7
src/lib/16_in.c: far ShiftNames[] = // Shifted ASCII for scan codes
src/lib/16_in.c:// 0 1 2 3 4 5 6 7 8 9 A B C D E F
src/lib/16_in.c: 0 ,27 ,'!','@','#','$','%','^','&','*','(',')','_','+',8 ,9 , // 0
src/lib/16_in.c: 'Q','W','E','R','T','Y','U','I','O','P','{','}',13 ,0 ,'A','S', // 1
src/lib/16_in.c: 'D','F','G','H','J','K','L',':',34 ,'~',0 ,'|','Z','X','C','V', // 2
src/lib/16_in.c: 'B','N','M','<','>','?',0 ,'*',0 ,' ',0 ,0 ,0 ,0 ,0 ,0 , // 3
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,'7','8','9','-','4','5','6','+','1', // 4
src/lib/16_in.c: '2','3','0',127,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 5
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 6
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 // 7
src/lib/16_in.c: far SpecialNames[] = // ASCII for 0xe0 prefixed codes
src/lib/16_in.c:// 0 1 2 3 4 5 6 7 8 9 A B C D E F
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 0
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,13 ,0 ,0 ,0 , // 1
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 2
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,'/',0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 3
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 4
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 5
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 , // 6
src/lib/16_in.c: 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 // 7
src/lib/16_in.c: *ScanNames[] = // Scan code names with single chars
src/lib/16_in.c: }, // DEBUG - consolidate these
src/lib/16_in.c: far ExtScanCodes[] = // Scan codes with >1 char names
src/lib/16_in.c: *ExtScanNames[] = // Names corresponding to ExtScanCodes
src/lib/16_in.c:static Direction DirTable[] = // Quick lookup for total direction
src/lib/16_in.c: //dir_Nortinest,
src/lib/16_in.c: //dir_NorthEast,
src/lib/16_in.c: //dir_Soutinest,
src/lib/16_in.c: //,dir_SouthEast
src/lib/16_in.c:// Internal routines
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_KeyService() - Handles a keyboard interrupt (key up/down)
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: k = inp(0x60); // Get the scan code
src/lib/16_in.c: // Tell the XT keyboard controller to clear the key
src/lib/16_in.c: if (k == 0xe0) // Special key prefix
src/lib/16_in.c: else if (k == 0xe1) // Handle Pause key
src/lib/16_in.c: if (k & 0x80) // Break code
src/lib/16_in.c:// DEBUG - handle special keys: ctl-alt-delete, print scrn
src/lib/16_in.c: else // Make code
src/lib/16_in.c: // DEBUG - make caps lock light work
src/lib/16_in.c: if (inpu.Keyboard[sc_LShift] || inpu.Keyboard[sc_RShift]) // If shifted
src/lib/16_in.c: //union REGS CPURegs;
src/lib/16_in.c: //x = CPURegs.x.ax;
src/lib/16_in.c: //int86(MouseInt,&CPURegs,&CPURegs);
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_GetMouseDelta() - Gets the amount that the mouse has moved from the
src/lib/16_in.c:// mouse driver
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_GetMouseButtons() - Gets the status of the mouse buttons from the
src/lib/16_in.c:// mouse driver
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_GetJoyAbs() - Reads the absolute position of the specified joystick
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: xs = joy? 2 : 0; // Find shift value for x axis
src/lib/16_in.c: xb = 1 << xs; // Use shift value to get x bit mask
src/lib/16_in.c: ys = joy? 3 : 1; // Do the same for y axis
src/lib/16_in.c:// Read the absolute joystick values
src/lib/16_in.c: pushf // Save some registers
src/lib/16_in.c: cli // Make sure an interrupt doesn't screw the timings
src/lib/16_in.c: out dx,al // Clear the resistors
src/lib/16_in.c: mov ah,[xb] // Get masks into registers
src/lib/16_in.c: xor si,si // Clear count registers
src/lib/16_in.c: xor bh,bh // Clear high byte of bx for later
src/lib/16_in.c: push bp // Don't mess up stack frame
src/lib/16_in.c: in al,dx // Get bits indicating whether all are finished
src/lib/16_in.c: dec bp // Check bounding register
src/lib/16_in.c: jz done // We have a silly value - abort
src/lib/16_in.c: mov bl,al // Duplicate the bits
src/lib/16_in.c: and bl,ah // Mask off useless bits (in [xb])
src/lib/16_in.c: add si,bx // Possibly increment count register
src/lib/16_in.c: mov cl,bl // Save for testing later
src/lib/16_in.c: and bl,ch // [yb]
src/lib/16_in.c: jnz loo // If both bits were 0, drop out
src/lib/16_in.c: mov cl,[xs] // Get the number of bits to shift
src/lib/16_in.c: shr si,cl // and shift the count that many times
src/lib/16_in.c: mov [x],si // Store the values into the variables
src/lib/16_in.c: popf // Restore the registers
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_GetJoyDelta() - Returns the relative movement of the specified
src/lib/16_in.c:// joystick (from +/-127, scaled adaptively)
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_GetJoyButtons() - Returns the button status of the specified
src/lib/16_in.c:// joystick
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: result = inp(0x201); // Get all the joystick buttons
src/lib/16_in.c: result >>= joy? 6 : 4; // Shift into bits 0-1
src/lib/16_in.c: result &= 3; // Mask off the useless bits
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_GetJoyButtonsDB() - Returns the de-bounced button status of the
src/lib/16_in.c:// specified joystick
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_StartKbd() - Sets up my keyboard stuff for use
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: INL_KeyHook = 0; // Clear key hook
src/lib/16_in.c: //_dos_setvect(KeyInt,INL_KeyService);
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_ShutKbd() - Restores keyboard control to the BIOS
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: pokeb(0x40,0x17,peekb(0x40,0x17) & 0xfaf0); // Clear ctrl/alt/shift flags
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_StartMouse() - Detects and sets up the mouse
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_ShutMouse() - Cleans up after the mouse
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_SetJoyScale() - Sets up scaling values for the specified joystick
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_SetupJoy() - Sets up thresholding values and calls INL_SetJoyScale()
src/lib/16_in.c:// to set up scaling values
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_StartJoy() - Detects & auto-configures the specified joystick
src/lib/16_in.c:// The auto-config assumes the joystick is centered
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_ShutJoy() - Cleans up the joystick stuff
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:// Public routines
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_Startup() - Starts up the Input Mgr
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_Default() - Sets up default conditions for the Input Mgr
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: //int i;
src/lib/16_in.c: //in.KbdDefs[0].upleft = 0x47;
src/lib/16_in.c: //in.KbdDefs[0].upright = 0x49;
src/lib/16_in.c: //in.KbdDefs[0].downleft = 0x4f;
src/lib/16_in.c: //in.KbdDefs[0].downright = 0x51;
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_Shutdown() - Shuts down the Input Mgr
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_SetKeyHook() - Sets the routine that gets called by INL_KeyService()
src/lib/16_in.c:// everytime a real make/break code gets hit
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_ClearKeyDown() - Clears the keyboard array
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: //int i;
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// INL_AdjustCursor() - Internal routine of common code from IN_ReadCursor()
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_ReadCursor() - Reads the input devices and fills in the cursor info
src/lib/16_in.c:// struct
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_ReadControl() - Reads the device associated with the specified
src/lib/16_in.c:// player and fills in the control info struct
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://TODO: make this into a function that the joystick AND keyboard can use wwww
src/lib/16_in.c: if(DIRECTIONIFELSE)//(player->info.dir == 2)
src/lib/16_in.c: }else{ //2 keys pressed
src/lib/16_in.c: if((inpu.Keyboard[def->left] && !inpu.Keyboard[def->right])){ dir = DirTable[1]; }//mx = motion_Left; }
src/lib/16_in.c: else if((inpu.Keyboard[def->right] && !inpu.Keyboard[def->left])){ dir = DirTable[3]; }//mx = motion_Right; }
src/lib/16_in.c: if((inpu.Keyboard[def->up] && !inpu.Keyboard[def->down])){ dir = DirTable[0]; }//my = motion_Up; }
src/lib/16_in.c: else if((inpu.Keyboard[def->down] && !inpu.Keyboard[def->up])){ dir = DirTable[4]; }//my = motion_Down; }
src/lib/16_in.c: //if(dbg_testcontrolnoisy > 0){ printf("dir=%c ", dirchar(dir)); printf("pdir=%c ", dirchar(player->pdir)); }
src/lib/16_in.c: //input from player
src/lib/16_in.c: dx = mx;// * 127;
src/lib/16_in.c: dy = my;// * 127;
src/lib/16_in.c:// player->info.dir = DirTable[((my + 1) * 3) + (mx + 1)];
src/lib/16_in.c: // Pack the control info into a byte
src/lib/16_in.c: //printf("b1=%u b2=%u b3=%u b4=%u ", player->info.button0, player->info.button1, player->info.button2, player->info.button3);
src/lib/16_in.c: //printf("q=%d ", player->q);
src/lib/16_in.c: //printf("cpee=%c ", dirchar(conpee));
src/lib/16_in.c: //else if(!realdelta) printf("%c%d %c%d %c%d %c%d", dirchar(0), inpu.Keyboard[def->up], dirchar(4), inpu.Keyboard[def->down], dirchar(1), inpu.Keyboard[def->left], dirchar(3), inpu.Keyboard[def->right]);
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_SetControlType() - Sets the control type to be used by the specified
src/lib/16_in.c:// player
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c: // DEBUG - check that requested type is present?
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_StartDemoRecord() - Starts the demo recording, using a buffer the
src/lib/16_in.c:// size passed. Returns if the buffer allocation was successful
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_StartDemoPlayback() - Plays back the demo pointed to of the given size
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_StopDemo() - Turns off demo mode
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_FreeDemoBuffer() - Frees the demo buffer, if it's been allocated
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_GetScanName() - Returns a string containing the name of the
src/lib/16_in.c:// specified scan code
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_WaitForKey() - Waits for a scan code, then clears LastScan and
src/lib/16_in.c:// returns the scan code
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_WaitForASCII() - Waits for an ASCII char, then clears LastASCII and
src/lib/16_in.c:// returns the ASCII value
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_AckBack() - Waits for either an ASCII keypress or a button press
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_Ack() - Clears user input & then calls IN_AckBack()
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_IsUserInput() - Returns true if a key has been pressed or a button
src/lib/16_in.c:// is down
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c://
src/lib/16_in.c:// IN_UserInput() - Waits for the specified delay time (in ticks) or the
src/lib/16_in.c:// user pressing a key or a mouse button. If the clear flag is set, it
src/lib/16_in.c:// then either clears the key or waits for the user to let the mouse
src/lib/16_in.c:// button up.
src/lib/16_in.c://
src/lib/16_in.c:///////////////////////////////////////////////////////////////////////////
src/lib/16_in.c:// if(dbg_testkeyin > 0) printf("%u\n", inpu.Keyboard[kee]);
src/lib/16_in.c://init player!
src/lib/16_in.c: player->spt=(TILEWH/(player->speed)); //speed per tile wwww
src/lib/16_in.h://
src/lib/16_in.h:// ID Engine
src/lib/16_in.h:// ID_IN.h - Header file for Input Manager
src/lib/16_in.h:// v1.0d1w
src/lib/16_in.h:// By Jason Blochowiak
src/lib/16_in.h:// Open Watcom port by sparky4
src/lib/16_in.h://
src/lib/16_in.h:#ifdef __WATCOMC__ //borland C BCEXMM.EXE
src/lib/16_in.h://#include "src/lib/bitmap.h" //old format
src/lib/16_in.h://if else for gfxtesting and direction
src/lib/16_in.h://player[pn].d == 2 ||
src/lib/16_in.h://player[pn].d != 2 ||
src/lib/16_in.h:#define DIRECTIONIFELSE (player->info.dir == 2)//(player[pn].info.dir == 2)
src/lib/16_in.h://#define NDIRECTIONIFELSE (player->info.dir != 2)//(player[pn].info.dir != 2)
src/lib/16_in.h:#define KeyInt 9 // The keyboard ISR number
src/lib/16_in.h:// Stuff for the joystick
src/lib/16_in.h:// Stuff for the mouse
src/lib/16_in.h: //ctrl_None, // MDM (GAMERS EDGE) - added
src/lib/16_in.h: dir_North,//dir_NorthEast,
src/lib/16_in.h: dir_West,//dir_Nortinest,
src/lib/16_in.h: dir_East,//,dir_SouthEast,
src/lib/16_in.h: dir_South,//dir_Soutinest,
src/lib/16_in.h: //upleft,
src/lib/16_in.h: //upright,
src/lib/16_in.h: //downleft,
src/lib/16_in.h: //,downright
src/lib/16_in.h: int x; //player exact position on the viewable map
src/lib/16_in.h: int y; //player exact position on the viewable map
src/lib/16_in.h: int tx; //player tile position on the viewable map
src/lib/16_in.h: int ty; //player tile position on the viewable map
src/lib/16_in.h: int triggerx; //player's trigger box tile position on the viewable map
src/lib/16_in.h: int triggery; //player's trigger box tile position on the viewable map
src/lib/16_in.h: int sheetsetx; //NOT USED YET! player sprite sheet set on the image x
src/lib/16_in.h: int sheetsety; //NOT USED YET! player sprite sheet set on the image y
src/lib/16_in.h: byte d; //direction to render sprite!! wwww
src/lib/16_in.h: byte q; //loop variable for anumation and locking the playing to compleate the animation cycle to prevent issues with misalignment www
src/lib/16_in.h: byte near pdir; //previous direction~
src/lib/16_in.h: //byte near kd[2]; //array of arrow key pressed
src/lib/16_in.h: word speed; //player speed!
src/lib/16_in.h: word spt; //speed per tile
src/lib/16_in.h://0000 planar_buf_t huge *data; //supposively the sprite sheet data
src/lib/16_in.h:// planar_buf_t data; //supposively the sprite sheet data
src/lib/16_in.h:////0000----
src/lib/16_in.h: struct sprite *spri; //supposively the sprite sheet data
src/lib/16_in.h: bitmap_t *data; //supposively the sprite sheet data//old format
src/lib/16_in.h: sword hp; //hitpoints of the player
src/lib/16_in.h:// Internal routines
src/lib/16_in.h://static void INL_GetMouseDelta(int *x,int *y);
src/lib/16_in.h://static word INL_GetMouseButtons(void);
src/lib/16_in.h://static void INL_GetJoyDelta(word joy,int *dx,int *dy,boolean adaptive);
src/lib/16_in.h://static word INL_GetJoyButtons(word joy);
src/lib/16_in.h://static void INL_StartKbd(void);
src/lib/16_in.h://static void INL_ShutKbd(void);
src/lib/16_in.h://static boolean INL_StartMouse(void);
src/lib/16_in.h://static void INL_ShutMouse(void);
src/lib/16_in.h://static void INL_SetJoyScale(word joy);
src/lib/16_in.h://static boolean INL_StartJoy(word joy);
src/lib/16_in.h://static void INL_ShutJoy(word joy);
src/lib/16_in.h://static void INL_AdjustCursor(CursorInfo *info,word buttons,int dx,int dy);
src/lib/16_map.c: * along with this program. If not, see , or
src/lib/16_map.c:// Ideally, preprocess json during compilation and read serialized data
src/lib/16_map.c: //char *s;
src/lib/16_map.c: //fix this to be far~
src/lib/16_map.c: //Fix to load tileset specified.
src/lib/16_map.c: //And move to vrs, probably
src/lib/16_map.c: //bp = bitmapLoadPcx("data/ed.pcx");
src/lib/16_map.h: * along with this program. If not, see , or
src/lib/16_map.h://#include "stdio.h" included in 16_head.h
src/lib/16_map.h://#include "stdlib.h" included in 16_head.h
src/lib/16_map.h://TODO: 16_mm and 16_ca must handle this
src/lib/16_map.h: bitmap_t huge *btdata; //old
src/lib/16_map.h: planar_buf_t huge *data; //old
src/lib/16_map.h: boolean debug_text; //show the value of the tile! wwww
src/lib/16_map.h://TODO: 16_mm and 16_ca must handle this
src/lib/16_map.h://TODO: add variables from 16_ca
src/lib/16_map.h: //long planestart[3];
src/lib/16_map.h: //unsigned planelength[3];
src/lib/16_map.h: byte * huge *data; //TODO: 16_mm and 16_ca must handle this
src/lib/16_map.h: tiles_t **tiles; //TODO: 16_mm and 16_ca must handle this
src/lib/16_map.h: unsigned int width, height; //this has to be positive
src/lib/16_mm.c:// NEWMM.C
src/lib/16_mm.c:void (* XMSaddr) (void); // far pointer to XMS driver
src/lib/16_mm.c: static char emmname[] = "EMMXXXX0"; //fix by andrius4669
src/lib/16_mm.c: mov dx,OFFSET emmname //fix by andrius4669
src/lib/16_mm.c: int 0x21 // try to open EMMXXXX0 device
src/lib/16_mm.c: int 0x21 // get device info
src/lib/16_mm.c: int 0x21 // get status
src/lib/16_mm.c: int 0x21 // close handle
src/lib/16_mm.c: //
src/lib/16_mm.c: // EMS is good
src/lib/16_mm.c: //
src/lib/16_mm.c: //
src/lib/16_mm.c: // EMS is bad
src/lib/16_mm.c: //
src/lib/16_mm.c: //byte EMS_status;
src/lib/16_mm.c: int EMS_INT // make sure EMS hardware is present
src/lib/16_mm.c: //mov [EMS_status],ah
src/lib/16_mm.c: mov [EMSVer],ax // set EMSVer
src/lib/16_mm.c: cmp al,0x32 // only work on ems 3.2 or greater
src/lib/16_mm.c: int EMS_INT // find the page frame address
src/lib/16_mm.c: int EMS_INT // find out how much EMS is there
src/lib/16_mm.c: jz noEMS // no EMS at all to allocate
src/lib/16_mm.c: //EXPAND DONG!!!!
src/lib/16_mm.c: jle getpages // there is only 1,2,3,or 4 pages
src/lib/16_mm.c: mov bx,4 // we can't use more than 4 pages
src/lib/16_mm.c: mov ah,EMS_ALLOCPAGES // allocate up to 64k of EMS
src/lib/16_mm.c: Quit("MML_ShutdownEMS: Error freeing EMS!\n"); //++++ add something
src/lib/16_mm.c: mov bx,[i] // logical page
src/lib/16_mm.c: mov al,bl // physical page
src/lib/16_mm.c: mov dx,[EMSHandle] // handle
src/lib/16_mm.c://SUB EMS.MapXPages (PhysicalStart, LogicalStart, NumPages, Handle)
src/lib/16_mm.c: //Maps up to 4 logical EMS pages to physical pages in the page frame, where:
src/lib/16_mm.c: //PhysicalStart = Physical page first logical page is mapped to
src/lib/16_mm.c: //LogicalStart = First logical page to map
src/lib/16_mm.c: //NumPages = Number of pages to map (1 to 4)
src/lib/16_mm.c: //Handle = EMS handle logical pages are allocated to
src/lib/16_mm.c: /*//Create a buffer containing the page information
src/lib/16_mm.c:// FOR x = 0 TO NumPages - 1
src/lib/16_mm.c:// MapInfo$ = MapInfo$ + MKI$(LogicalStart + x) + MKI$(PhysicalStart + x)
src/lib/16_mm.c:// NEXT*/
src/lib/16_mm.c:// Regs.ax = 0x5000 //Map the pages in the buffer
src/lib/16_mm.c:// Regs.cx = NumPages //to the pageframe
src/lib/16_mm.c:// Regs.dx = Handle
src/lib/16_mm.c:// Regs.ds = VARSEG(MapInfo$)
src/lib/16_mm.c:// Regs.si = SADD(MapInfo$)
src/lib/16_mm.c:// InterruptX 0x67, Regs, Regs
src/lib/16_mm.c:// EMS.Error = (Regs.ax AND 0xFF00&) \ 0x100 //Store the status code
src/lib/16_mm.c://END SUB
src/lib/16_mm.c: mov cx,[i] // logical page
src/lib/16_mm.c: mov al,bl // physical page
src/lib/16_mm.c: mov dx,[EMSHandle] // handle
src/lib/16_mm.c: //strcpy(str,"MM_MapXEMS: EMS error 0x");
src/lib/16_mm.c: //itoa(err,str2,16);
src/lib/16_mm.c: //printf("%s%x\n",str, err);
src/lib/16_mm.c: //printf("FACK! %x\n", err);
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //numUMBs = 0;
src/lib/16_mm.c: int 0x2f // query status of installed diver
src/lib/16_mm.c: mov [WORD PTR XMSaddr+2],es // function pointer to XMS driver
src/lib/16_mm.c: mov dx,0xffff // try for largest block possible
src/lib/16_mm.c: //mov ax,dx // Set available Kbytes.
src/lib/16_mm.c: cmp bl,0xb0 // error: smaller UMB is available
src/lib/16_mm.c: call [DWORD PTR XMSaddr] // DX holds largest available UMB
src/lib/16_mm.c: jz done // another error...
src/lib/16_mm.c:// printf("base=%u ", base); printf("size=%u\n", size);
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan,huge *last;
src/lib/16_mm.c: gvar->mm.mmrover = gvar->mm.mmhead; // reset rover to start of memory
src/lib/16_mm.c://
src/lib/16_mm.c:// search for the block that contains the range of segments
src/lib/16_mm.c://
src/lib/16_mm.c://
src/lib/16_mm.c:// take the given range out of the block
src/lib/16_mm.c://
src/lib/16_mm.c: //++++emsver stuff!
src/lib/16_mm.c: if(segm>1)/// || extra>=0x10000lu)
src/lib/16_mm.c: //if(extra>0xfffflu)
src/lib/16_mm.c: //MML_UseSpace(segstart, seglength, gvar);
src/lib/16_mm.c: //}
src/lib/16_mm.c://++++todo: linked list of segment!
src/lib/16_mm.c: last->next = scan->next; // unlink block
src/lib/16_mm.c: scan->length = segstart-scan->start; // shorten block
src/lib/16_mm.c: }//else if(segm>0) goto segu;
src/lib/16_mm.c: //word segm=1;
src/lib/16_mm.c: gvar->mm.mmrover = gvar->mm.mmhead; // reset rover to start of memory
src/lib/16_mm.c://
src/lib/16_mm.c:// search for the block that contains the range of segments
src/lib/16_mm.c://
src/lib/16_mm.c://
src/lib/16_mm.c:// find out how many blocks it spans!
src/lib/16_mm.c://
src/lib/16_mm.c: //printf(" seglen=%lu\n", segmlen);
src/lib/16_mm.c://
src/lib/16_mm.c:// take the given range out of the block
src/lib/16_mm.c://
src/lib/16_mm.c: //return;
src/lib/16_mm.c: last->next = scan->next; // unlink block
src/lib/16_mm.c: scan->length = segstart-scan->start; // shorten block
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan,huge *last;
src/lib/16_mm.c: mmblocktype __far *scan;//,far *last;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //dword length,seglength;
src/lib/16_mm.c: //huge void huge *start;
src/lib/16_mm.c: word segstart;//,endfree;
src/lib/16_mm.c: //memptr *peeonself;
src/lib/16_mm.c://
src/lib/16_mm.c:// set up the linked list (everything in the free list;
src/lib/16_mm.c://
src/lib/16_mm.c://
src/lib/16_mm.c:// locked block of all memory until we punch out free space
src/lib/16_mm.c://
src/lib/16_mm.c: gvar->mm.mmhead = gvar->mm.mmnew; // this will allways be the first node
src/lib/16_mm.c: //gvar->mm.mmnew->useptr = peeonself;
src/lib/16_mm.c: //printf(" %x\n", peeonself);
src/lib/16_mm.c: //printf(" %x\n", *peeonself);
src/lib/16_mm.c://
src/lib/16_mm.c:// get all available near conventional memory segments
src/lib/16_mm.c://
src/lib/16_mm.c: length=(dword)_memavl();//(dword)GetFreeSize();
src/lib/16_mm.c: //huge start = (void huge *)(gvar->mm.nearheap = _nmalloc(length));
src/lib/16_mm.c: //huge start = (void huge *)(gvar->mm.nearheap = malloc(length));
src/lib/16_mm.c: seglength = length / 16; // now in paragraphs
src/lib/16_mm.c: //printf("start=%Fp segstart=%x seglen=%lu len=%lu\n", start, segstart, seglength, length);
src/lib/16_mm.c://
src/lib/16_mm.c:// get all available far conventional memory segments
src/lib/16_mm.c://
src/lib/16_mm.c: //printf("_FARCORELEFT %lu\n", _FCORELEFT);
src/lib/16_mm.c: length=_FCORELEFT;//_fcoreleft();//(dword)GetFarFreeSize();//0xffffUL*4UL;
src/lib/16_mm.c: length=farcoreleft();//_fcoreleft();//(dword)GetFarFreeSize();//0xffffUL*4UL;
src/lib/16_mm.c: //start = gvar->mm.farheap = halloc(length, 1);
src/lib/16_mm.c: seglength = length / 16; // now in paragraphs
src/lib/16_mm.c: //printf("start=%Fp segstart=%x seglen=%lu len=%lu\n", start, segstart, seglength, length);
src/lib/16_mm.c://
src/lib/16_mm.c:// detect EMS and allocate up to 64K at page frame
src/lib/16_mm.c://
src/lib/16_mm.c://goto emsskip; //0000
src/lib/16_mm.c: goto emsskip; // param NOEMS
src/lib/16_mm.c: MML_SetupEMS(gvar); // allocate space
src/lib/16_mm.c: //16_PM: EMS4! AND EMS 3.2 MASSIVE DATA HANDLMENT!
src/lib/16_mm.c: //if(gvar->pm.emm.EMSVer<0x40)
src/lib/16_mm.c: MM_MapEMS(gvar); // map in used pages
src/lib/16_mm.c: //else
src/lib/16_mm.c: //MM_MapXEMS(gvar); // map in used pages
src/lib/16_mm.c://
src/lib/16_mm.c:// detect XMS and get upper memory blocks
src/lib/16_mm.c://
src/lib/16_mm.c:goto xmsskip;//0000
src/lib/16_mm.c: goto xmsskip; // param NOXMS
src/lib/16_mm.c: MML_SetupXMS(gvar); // allocate as many UMBs as possible
src/lib/16_mm.c://
src/lib/16_mm.c:// allocate the misc buffer
src/lib/16_mm.c://
src/lib/16_mm.c: gvar->mm.mmrover = gvar->mm.mmhead; // start looking for space after low block
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: _ffree(gvar->mm.farheap);// printf(" far freed\n");
src/lib/16_mm.c: _nfree(gvar->mm.nearheap);// printf(" near freed\n");
src/lib/16_mm.c: free(gvar->mm.nearheap);// printf(" near freed\n");
src/lib/16_mm.c: if(MML_CheckForEMS()){ MML_ShutdownEMS(gvar); }//printf(" EMS freed\n"); }
src/lib/16_mm.c: if(MML_CheckForXMS()){ MML_ShutdownXMS(gvar); }//printf(" XMS freed\n"); }
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan,huge *lastscan,huge *endscan,huge *purge,huge *next;
src/lib/16_mm.c: needed = (size+15)/16; // convert size from bytes to paragraphs
src/lib/16_mm.c: GETNEWBLOCK; // fill in start and next after a spot is found
src/lib/16_mm.c: //if(gvar->mm.mmnew->useptr==NULL){
src/lib/16_mm.c: //%04x
src/lib/16_mm.c: //exit(-5); }
src/lib/16_mm.c://tryagain:
src/lib/16_mm.c: //
src/lib/16_mm.c: // first search: try to allocate right after the rover, then on up
src/lib/16_mm.c: // second search: search from the head pointer up to the rover
src/lib/16_mm.c: // third search: compress memory, then scan from start
src/lib/16_mm.c: //
src/lib/16_mm.c: // got enough space between the end of lastscan and
src/lib/16_mm.c: // the start of scan, so throw out anything in the middle
src/lib/16_mm.c: // and allocate the new block
src/lib/16_mm.c: //
src/lib/16_mm.c: { // free the purgable block
src/lib/16_mm.c: purge = next; // purge another if not at scan
src/lib/16_mm.c: return; // good allocation!
src/lib/16_mm.c: //
src/lib/16_mm.c: // if this block is purge level zero or locked, skip past it
src/lib/16_mm.c: //
src/lib/16_mm.c: scan=scan->next; // look at next line
src/lib/16_mm.c: //heapdump();
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan,huge *last;
src/lib/16_mm.c: if(baseptr == gvar->mm.mmrover->useptr) // removed the last allocated block
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *start;
src/lib/16_mm.c: //return;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *start;
src/lib/16_mm.c: //return;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan,huge *last,huge *next;
src/lib/16_mm.c: unsigned start,length,source,dest;//++++,oldborder;
src/lib/16_mm.c: //++++int playing;
src/lib/16_mm.c: //
src/lib/16_mm.c: // lock down a currently playing sound
src/lib/16_mm.c: //
src/lib/16_mm.c:// oldborder = bordercolor;
src/lib/16_mm.c:// VW_ColorBorder (15);
src/lib/16_mm.c: last = NULL; // shut up compiler warning
src/lib/16_mm.c: //
src/lib/16_mm.c: // block is locked, so try to pile later blocks right after it
src/lib/16_mm.c: //
src/lib/16_mm.c: //
src/lib/16_mm.c: // throw out the purgable block
src/lib/16_mm.c: //
src/lib/16_mm.c: //MM_FreeBlock(scan, gvar);
src/lib/16_mm.c: //
src/lib/16_mm.c: // push the non purgable block on top of the last moved block
src/lib/16_mm.c: //
src/lib/16_mm.c: scan = scan->next; // go to next block
src/lib/16_mm.c:// VW_ColorBorder (oldborder);
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan;
src/lib/16_mm.c: //word temp;
src/lib/16_mm.c: //word chx,chy;
src/lib/16_mm.c: //dword wwww;
src/lib/16_mm.c: byte scratch[160],scratch0[4096],str[16];//[[[[scratch1[160],
src/lib/16_mm.c: //byte d = '#';
src/lib/16_mm.c://[[[[ VW_SetDefaultColors();
src/lib/16_mm.c://[[[[ VW_SetLineWidth(40);
src/lib/16_mm.c://++++mh temp = bufferofs;
src/lib/16_mm.c://++++mh bufferofs = 0;
src/lib/16_mm.c://[[[[ VW_SetScreen (0,0);
src/lib/16_mm.c: strcpy(scratch0, AAMAGENTA); // dark purple = purgable
src/lib/16_mm.c: strcpy(scratch0, AABLUE); // medium blue = non purgable
src/lib/16_mm.c: strcpy(scratch0, AARED); // red = locked
src/lib/16_mm.c: //modexprint(&page, chx, chy, 1, 0, 24, "\nMM_ShowMemory: Memory block order currupted!\n");
src/lib/16_mm.c://++++ chy = scan->start/320;
src/lib/16_mm.c://++++ chx = scan->start%320;
src/lib/16_mm.c: //modexhlin(page, scan->start, (unsigned)end, chy, color);
src/lib/16_mm.c: //for(chx=scan->start;chx+4>=(word)end;chx+=4)
src/lib/16_mm.c: //{
src/lib/16_mm.c://++++ modexClearRegion(page, chx, chy, 4, 4, color);
src/lib/16_mm.c: //}
src/lib/16_mm.c://++++ VW_Hlin(scan->start,(unsigned)end,0,color);
src/lib/16_mm.c: //printf("+ %u %lu\n", w, scan->length);
src/lib/16_mm.c: //++==++==optional strcat(scratch0, AARESET); strcat(scratch0, AAGREY); strcat(scratch0,"_");
src/lib/16_mm.c://++++ VW_Plot(scan->start,0,15);
src/lib/16_mm.c://++++ modexClearRegion(page, chx, chy, 4, 4, 15);
src/lib/16_mm.c://++++ VW_Hlin(end+1,scan->next->start,0,0); // black = free
src/lib/16_mm.c: //wwww=(dword)(scan->next->start)-(dword)scan->start;
src/lib/16_mm.c: //wwww=(dword)scan->start+(dword)(scan->next->start);
src/lib/16_mm.c: //++==++==optional strcat(scratch0, "\n");
src/lib/16_mm.c: //for(w=(wwww)/80;w<=((end+1)/80);w++)
src/lib/16_mm.c: //for(w=(end+1)/80;w<=((wwww)/80);w++)
src/lib/16_mm.c: //printf("0 %x %u %lu\n", scan->next->start, w, scan->length);
src/lib/16_mm.c: //printf("==================\n");
src/lib/16_mm.c: //printf("w=%u wwww=%lu start=%04x next=%04x end=%lu\n", w/80, wwww/80, scan->start, (scan->next->start), end+1);
src/lib/16_mm.c: //printf("==================\n");
src/lib/16_mm.c: //getch();
src/lib/16_mm.c: }/*else {//if(scan->next->start <= scan->start){
src/lib/16_mm.c: //printf("0 %x %x %u\n", scan->start, w);
src/lib/16_mm.c: //strcat(scratch0,"\n");
src/lib/16_mm.c: //for(chx=scan->next->start;chx+4>=(word)end+1;chx+=4)
src/lib/16_mm.c: //{
src/lib/16_mm.c:// chx+=scan->next->start;
src/lib/16_mm.c:// modexClearRegion(page, chx, chy, 4, 4, 2);
src/lib/16_mm.c: //}
src/lib/16_mm.c: //modexhlin(page, end+1,scan->next->start, chy, 0);
src/lib/16_mm.c://++++ VW_Hlin(x+end+1,x+(scan->next->start-scan->start),y,0); // black = free
src/lib/16_mm.c://modexprint(page, chx, chy, 1, 0, 24, &scratch);
src/lib/16_mm.c://++++chy+=4;
src/lib/16_mm.c://fprintf(stdout, "%s", scratch);
src/lib/16_mm.c: //strcat(scratch1, "&near= %Fp ", &(gvar->mm.nearheap));
src/lib/16_mm.c: //strcat(scratch1, "&far= %Fp", &(gvar->mm.farheap));
src/lib/16_mm.c: //strcat(scratch1, "\n");
src/lib/16_mm.c://++++mh IN_Ack();
src/lib/16_mm.c://**** VW_SetLineWidth(64);
src/lib/16_mm.c://++++mh bufferofs = temp;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan,huge *best;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan;
src/lib/16_mm.c:// return free;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //huge mmblocktype huge *scan;
src/lib/16_mm.c:// return free;
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //printf("mainmem: %lu\n", gvar->mmi.mainmem);
src/lib/16_mm.c: //printf("Total convmem: %lu ", gvar->mmi.mainmem); printf("TotalFree: %lu ", MM_TotalFree(gvar)+gvar->mmi.EMSmem+gvar->mmi.XMSmem+gvar->mmi.XMSmem); printf("TotalUsed: %lu\n", gvar->mmi.mainmem);
src/lib/16_mm.c: //printf(" UnusedMemory: %lu\n", MM_UnusedMemory(gvar));
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.c: //Returns a text string describing the error code in EMS.Error.
src/lib/16_mm.c://==========================================================================
src/lib/16_mm.h:// ID_MM.H
src/lib/16_mm.h://++++mh #include "src/lib/16_in.h"
src/lib/16_mm.h:#ifdef __DEBUG__ // 1 == Debug/Dev ; 0 == Production/final
src/lib/16_mm.h://#define GETNEWBLOCK {if(!(mmnew=mmfree))Quit("MM_GETNEWBLOCK: No free blocks!") ;mmfree=mmfree->next;}
src/lib/16_mm.h:#define SAVENEARHEAP 0x200 // space to leave in data segment
src/lib/16_mm.h:#define SAVEFARHEAP 0//x400 // space to leave in far heap
src/lib/16_mm.h:#define BUFFERSIZE 0x1000 // miscelanious, allways available buffer
src/lib/16_mm.h://moved to typdefst
src/lib/16_mm.h://#define MAXBLOCKS 1024
src/lib/16_mm.h://--------
src/lib/16_mm.h://--------
src/lib/16_mm.h:/*__asm { mov ah,[v]\*///}
src/lib/16_mm.h://==========================================================================
src/lib/16_mm.h://moved to typdefst
src/lib/16_mm.h://==========================================================================
src/lib/16_mm.h:extern void (* XMSaddr) (void); // far pointer to XMS driver
src/lib/16_mm.h://==========================================================================
src/lib/16_mm.h:#define LOCKBIT 0x80 // if set in attributes, block cannot be moved
src/lib/16_mm.h:#define PURGEBITS 3 // 0-3 level, 0= unpurgable, 3= purge first
src/lib/16_mm.h:#define BASEATTRIBUTES 0 // unlocked, non purgable
src/lib/16_mm.h://moved to typedefst
src/lib/16_mm.h://#define MAXUMBS 12
src/lib/16_mm.h:#define MAPPAGES 4//gvar->mm.EMSpagesmapped
src/lib/16_mm.h://moved to typdefst
src/lib/16_mm.h: //word start; dword length;
src/lib/16_mm.h: word blob; //for data larger than 64k
src/lib/16_mm.h: memptr *useptr; // pointer to the segment start
src/lib/16_mm.h: //huge struct mmblockstruct huge *next;
src/lib/16_mm.h: //huge void huge *farheap;
src/lib/16_mm.h: //byte EMS_status;
src/lib/16_mm.h: //dword numUMBs,UMBbase[MAXUMBS];
src/lib/16_mm.h: //huge mmblocktype huge mmblocks[MAXBLOCKS],huge *mmhead,huge *mmfree,huge *mmrover,huge *mmnew;
src/lib/16_mm.h://==========================================================================
src/lib/16_mm.h://byte MML_SetupEMS(mminfo_t *mm);
src/lib/16_mm.h://void MML_ShutdownEMS(mminfo_t *mm);
src/lib/16_mm.h://byte MM_MapXEMS(global_game_variables_t *gvar);
src/lib/16_mm.h://void MML_SetupXMS(mminfo_t *mm, mminfotype *mmi);
src/lib/16_mm.h://void MML_ShutdownXMS(mminfo_t *mm);
src/lib/16_mm.h://void MM_GetNewBlock(mminfo_t *mm);
src/lib/16_mm.h://void MM_FreeBlock(mmblocktype *x, mminfo_t *mm);
src/lib/16_mm.h://==========================================================================
src/lib/16_pm.c: * along with this program. If not, see , or
src/lib/16_pm.c://
src/lib/16_pm.c:// ID_PM.C
src/lib/16_pm.c:// Id Engine's Page Manager v1.0
src/lib/16_pm.c:// Primary coder: Jason Blochowiak
src/lib/16_pm.c://
src/lib/16_pm.c:// Main Mem specific variables
src/lib/16_pm.c: //boolean MainPresent;
src/lib/16_pm.c:// EMS specific variables
src/lib/16_pm.c: //boolean EMSPresent;
src/lib/16_pm.c:// XMS specific variables
src/lib/16_pm.c: //boolean XMSPresent;
src/lib/16_pm.c: //word gvar->pm.xmm.XMSAvail,gvar->pm.xmm.XMSPagesAvail,gvar->pm.xmm.XMSHandle;
src/lib/16_pm.c: dword XMSDriver; //hard to put in gvar
src/lib/16_pm.c: word XMSVer; //hard to put in gvar
src/lib/16_pm.c:// File specific variables
src/lib/16_pm.c:// General usage variables
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// EMS Management code
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_MapEMS() - Maps a logical page to a physical page
src/lib/16_pm.c://
src/lib/16_pm.c: //int i;
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_StartupEMS() - Sets up EMS for Page Mgr's use
src/lib/16_pm.c:// Checks to see if EMS driver is present
src/lib/16_pm.c:// Verifies that EMS hardware is present
src/lib/16_pm.c:// Make sure that EMS version is 3.2 or later
src/lib/16_pm.c:// If there's more than our minimum (2 pages) available, allocate it (up
src/lib/16_pm.c:// to the maximum we need)
src/lib/16_pm.c://
src/lib/16_pm.c: //long size;
src/lib/16_pm.c: static char emmname[] = "EMMXXXX0"; //fix by andrius4669
src/lib/16_pm.c: gvar->pm.emm.EMSPresent = false; // Assume that we'll fail
src/lib/16_pm.c: mov dx,OFFSET emmname //fix by andrius4669
src/lib/16_pm.c: int EMM_INT // try to open EMMXXXX0 device
src/lib/16_pm.c: int EMM_INT // get device info
src/lib/16_pm.c: int EMM_INT // get status
src/lib/16_pm.c: int EMM_INT // close handle
src/lib/16_pm.c: jc error1 // make sure EMS hardware is present
src/lib/16_pm.c: int EMS_INT // only work on EMS 3.2 or greater (silly, but...)
src/lib/16_pm.c: mov [EMSVer],ax // set EMSVer
src/lib/16_pm.c: cmp al,0x32 // only work on ems 3.2 or greater
src/lib/16_pm.c: int EMS_INT // find the page frame address
src/lib/16_pm.c: int EMS_INT // find out how much EMS is there
src/lib/16_pm.c: jz noEMS // no EMS at all to allocate
src/lib/16_pm.c: jl noEMS // Require at least 2 pages (32k)
src/lib/16_pm.c: // Don't hog all available EMS
src/lib/16_pm.c: // Initialize EMS mapping cache
src/lib/16_pm.c: gvar->pm.emm.EMSPresent = true; // We have EMS
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_ShutdownEMS() - If EMS was used, deallocate it
src/lib/16_pm.c://
src/lib/16_pm.c: //return;
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// XMS Management code
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_StartupXMS() - Starts up XMS for the Page Mgr's use
src/lib/16_pm.c:// Checks for presence of an XMS driver
src/lib/16_pm.c:// Makes sure that there's at least a page of XMS available
src/lib/16_pm.c:// Allocates any remaining XMS (rounded down to the nearest page size)
src/lib/16_pm.c://
src/lib/16_pm.c://TODO: translate the _REG into working assembly
src/lib/16_pm.c://#define STARTUPXMSASM
src/lib/16_pm.c: word XMSAvail, XMSHandle;//, XMSVer;
src/lib/16_pm.c: gvar->pm.xmm.XMSPresent = false; // Assume failure
src/lib/16_pm.c: int XMS_INT // Check for presence of XMS driver
src/lib/16_pm.c: int XMS_INT // Get address of XMS driver
src/lib/16_pm.c: mov [WORD PTR XMSDriver+2],es // function pointer to XMS driver
src/lib/16_pm.c: call [DWORD PTR XMSDriver] //; Get XMS Version Number
src/lib/16_pm.c: mov ah,XMS_QUERYFREE // Find out how much XMS is available
src/lib/16_pm.c: or ax,ax // AJR: bugfix 10/8/92
src/lib/16_pm.c: XMS_CALL(XMS_QUERYFREE); // Find out how much XMS is available
src/lib/16_pm.c: if (!_AX) // AJR: bugfix 10/8/92
src/lib/16_pm.c: XMSAvail &= ~(PMPageSizeKB - 1); // Round off to nearest page size
src/lib/16_pm.c: if (XMSAvail < (PMPageSizeKB * 2)) // Need at least 2 pages
src/lib/16_pm.c: mov ah,XMS_ALLOC // And do the allocation
src/lib/16_pm.c: or ax,ax // AJR: bugfix 10/8/92
src/lib/16_pm.c: XMS_CALL(XMS_ALLOC); // And do the allocation
src/lib/16_pm.c: if (!_AX) // AJR: bugfix 10/8/92
src/lib/16_pm.c: //gvar->pm.xmm.XMSVer = XMSVer;
src/lib/16_pm.c: //printf("XMSHandle\n");
src/lib/16_pm.c: //printf(" 1=%u 2=%u 3=%u 4=%u\n", XMSHandle1, XMSHandle2, XMSHandle3, XMSHandle4);
src/lib/16_pm.c: //printf(" 2=%u ", XMSHandle);
src/lib/16_pm.c: //printf(" %u", gvar->pm.xmm.XMSHandle);
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_XMSCopy() - Copies a main/EMS page to or from XMS
src/lib/16_pm.c:// Will round an odd-length request up to the next even value
src/lib/16_pm.c://
src/lib/16_pm.c: //return;
src/lib/16_pm.c: //return;
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_CopyToXMS() - Copies the specified number of bytes from the real mode
src/lib/16_pm.c:// segment address to the specified XMS page
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_CopyFromXMS() - Copies the specified number of bytes from an XMS
src/lib/16_pm.c:// page to the specified real mode address
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_ShutdownXMS()
src/lib/16_pm.c://
src/lib/16_pm.c: //XMS_CALL(XMS_FREE);
src/lib/16_pm.c: //mov err,ah
src/lib/16_pm.c: //return;
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// Main memory code
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_SetMainMemPurge() - Sets the purge level for all allocated main memory
src/lib/16_pm.c:// blocks. This shouldn't be called directly - the PM_LockMainMem() and
src/lib/16_pm.c:// PM_UnlockMainMem() macros should be used instead.
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_CheckMainMem() - If something besides the Page Mgr makes requests of
src/lib/16_pm.c:// the Memory Mgr, some of the Page Mgr's blocks may have been purged,
src/lib/16_pm.c:// so this function runs through the block list and checks to see if
src/lib/16_pm.c:// any of the blocks have been purged. If so, it marks the corresponding
src/lib/16_pm.c:// page as purged & unlocked, then goes through the block list and
src/lib/16_pm.c:// tries to reallocate any blocks that have been purged.
src/lib/16_pm.c:// This routine now calls PM_LockMainMem() to make sure that any allocation
src/lib/16_pm.c:// attempts made during the block reallocation sweep don't purge any
src/lib/16_pm.c:// of the other blocks. Because PM_LockMainMem() is called,
src/lib/16_pm.c:// PM_UnlockMainMem() needs to be called before any other part of the
src/lib/16_pm.c:// program makes allocation requests of the Memory Mgr.
src/lib/16_pm.c://
src/lib/16_pm.c: if (n != -1) // Is the page using main memory?
src/lib/16_pm.c: if (!gvar->pm.mm.MainMemPages[n]) // Yep, was the block purged?
src/lib/16_pm.c: page->mainPage = -1; // Yes, mark page as purged & unlocked
src/lib/16_pm.c: // Prevent allocation attempts from purging any of our other blocks
src/lib/16_pm.c: if (!*p) // If the page got purged
src/lib/16_pm.c: if (*used & pmba_Allocated) // If it was allocated
src/lib/16_pm.c: *used &= ~pmba_Allocated; // Mark as unallocated
src/lib/16_pm.c: gvar->pm.mm.MainPagesAvail--; // and decrease available count
src/lib/16_pm.c: if (*used & pmba_Used) // If it was used
src/lib/16_pm.c: *used &= ~pmba_Used; // Mark as unused
src/lib/16_pm.c: gvar->pm.MainPagesUsed--; // and decrease used count
src/lib/16_pm.c: MM_GetPtr(p,PMPageSize, gvar); // Try to reallocate
src/lib/16_pm.c: if (gvar->mm.mmerror) // If it failed,
src/lib/16_pm.c: allocfailed = true; // don't try any more allocations
src/lib/16_pm.c: else // If it worked,
src/lib/16_pm.c: *used |= pmba_Allocated; // Mark as allocated
src/lib/16_pm.c: gvar->pm.mm.MainPagesAvail++; // and increase available count
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_StartupMainMem() - Allocates as much main memory as is possible for
src/lib/16_pm.c:// the Page Mgr. The memory is allocated as non-purgeable, so if it's
src/lib/16_pm.c:// necessary to make requests of the Memory Mgr, PM_UnlockMainMem()
src/lib/16_pm.c:// needs to be called.
src/lib/16_pm.c://
src/lib/16_pm.c: int i;//,n;
src/lib/16_pm.c: //return;
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_ShutdownMainMem() - Frees all of the main memory blocks used by the
src/lib/16_pm.c:// Page Mgr.
src/lib/16_pm.c://
src/lib/16_pm.c: // DEBUG - mark pages as unallocated & decrease page count as appropriate
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// File management code
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_ReadFromFile() - Reads some data in from the page file
src/lib/16_pm.c://
src/lib/16_pm.c: //return;
src/lib/16_pm.c: //return;
src/lib/16_pm.c: //return;
src/lib/16_pm.c: //return;
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_OpenPageFile() - Opens the page file and sets up the page info
src/lib/16_pm.c://
src/lib/16_pm.c: //__SEGA buf;
src/lib/16_pm.c: //return;
src/lib/16_pm.c: // Read in header variables
src/lib/16_pm.c: // Allocate and clear the page list
src/lib/16_pm.c: // Read in the chunk offsets
src/lib/16_pm.c: //return;
src/lib/16_pm.c: // Read in the chunk lengths
src/lib/16_pm.c: //return;
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_ClosePageFile() - Closes the page file
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// Allocation, etc., code
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_GetEMSAddress()
src/lib/16_pm.c://
src/lib/16_pm.c:// Page is in EMS, so figure out which EMS physical page should be used
src/lib/16_pm.c:// to map our page in. If normal page, use EMS physical page 3, else
src/lib/16_pm.c:// use the physical page specified by the lock type
src/lib/16_pm.c://
src/lib/16_pm.c:#pragma argsused // DEBUG - remove lock parameter
src/lib/16_pm.c: // See if this page is already mapped in
src/lib/16_pm.c: emspage = i; // Yep - don't do a redundant remapping
src/lib/16_pm.c: // If page isn't already mapped in, find LRU EMS frame, and use it
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_GetPageAddress() - Returns the address of a given page
src/lib/16_pm.c:// Maps in EMS if necessary
src/lib/16_pm.c:// Returns nil if block isn't cached into Main Memory or EMS
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_GiveLRUPage() - Returns the page # of the least recently used
src/lib/16_pm.c:// present & unlocked main/EMS page (or main page if mainonly is true)
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_GiveLRUXMSPage() - Returns the page # of the least recently used
src/lib/16_pm.c:// (and present) XMS page.
src/lib/16_pm.c:// This routine won't return the XMS page protected (by XMSProtectPage)
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_PutPageInXMS() - If page isn't in XMS, find LRU XMS page and replace
src/lib/16_pm.c:// it with the main/EMS page
src/lib/16_pm.c://
src/lib/16_pm.c: return; // Already in XMS
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_TransferPageSpace() - A page is being replaced, so give the new page
src/lib/16_pm.c:// the old one's address space. Returns the address of the new page.
src/lib/16_pm.c://
src/lib/16_pm.c: // Copy page that's about to be purged into XMS
src/lib/16_pm.c: // Get the address, and force EMS into a physical page if necessary
src/lib/16_pm.c: // Steal the address
src/lib/16_pm.c: // Mark replaced page as purged
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_GetAPageBuffer() - A page buffer is needed. Either get it from the
src/lib/16_pm.c:// main/EMS free pool, or use PML_GiveLRUPage() to find which page to
src/lib/16_pm.c:// steal the buffer from. Returns a far pointer to the page buffer, and
src/lib/16_pm.c:// sets the fields inside the given page structure appropriately.
src/lib/16_pm.c:// If mainonly is true, free EMS will be ignored, and only main pages
src/lib/16_pm.c:// will be looked at by PML_GiveLRUPage().
src/lib/16_pm.c://
src/lib/16_pm.c: // There's remaining EMS - use it
src/lib/16_pm.c: // There's remaining main memory - use it
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_GetPageFromXMS() - If page is in XMS, find LRU main/EMS page and
src/lib/16_pm.c:// replace it with the page from XMS. If mainonly is true, will only
src/lib/16_pm.c:// search for LRU main page.
src/lib/16_pm.c:// XMSProtectPage is set to the page to be retrieved from XMS, so that if
src/lib/16_pm.c:// the page from which we're stealing the main/EMS from isn't in XMS,
src/lib/16_pm.c:// it won't copy over the page that we're trying to get from XMS.
src/lib/16_pm.c:// (pages that are being purged are copied into XMS, if possible)
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PML_LoadPage() - A page is not in main/EMS memory, and it's not in XMS.
src/lib/16_pm.c:// Load it into either main or EMS. If mainonly is true, the page will
src/lib/16_pm.c:// only be loaded into main.
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_GetPage() - Returns the address of the page, loading it if necessary
src/lib/16_pm.c:// First, check if in Main Memory or EMS
src/lib/16_pm.c:// Then, check XMS
src/lib/16_pm.c:// If not in XMS, load into Main Memory or EMS
src/lib/16_pm.c://
src/lib/16_pm.c:#ifdef __DEBUG_2__ // for debugging
src/lib/16_pm.c: mov al,10 // bright green
src/lib/16_pm.c:if (!gvar->pm.PMPages[pagenum].offset) // JDC: sparse page
src/lib/16_pm.c:#ifdef __DEBUG_2__ // for debugging
src/lib/16_pm.c: mov al,3 // blue
src/lib/16_pm.c: mov al,0x20 // normal
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_SetPageLock() - Sets the lock type on a given page
src/lib/16_pm.c:// pml_Unlocked: Normal, page can be purged
src/lib/16_pm.c:// pml_Locked: Cannot be purged
src/lib/16_pm.c:// pml_EMS?: Same as pml_Locked, but if in EMS, use the physical page
src/lib/16_pm.c:// specified when returning the address. For sound stuff.
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_Preload() - Loads as many pages as possible into all types of memory.
src/lib/16_pm.c:// Calls the update function after each load, indicating the current
src/lib/16_pm.c:// page, and the total pages that need to be loaded (for thermometer).
src/lib/16_pm.c://
src/lib/16_pm.c: int i,//j,
src/lib/16_pm.c: //totalnonxms,totalxms,
src/lib/16_pm.c: //emstotal,emsfree,
src/lib/16_pm.c: continue; // sparse
src/lib/16_pm.c: continue; // already in main mem
src/lib/16_pm.c://
src/lib/16_pm.c:// cache main/ems blocks
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c:// load stuff to XMS
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// General code
src/lib/16_pm.c://
src/lib/16_pm.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_NextFrame() - Increments the frame counter and adjusts the thrash
src/lib/16_pm.c:// avoidence variables
src/lib/16_pm.c://
src/lib/16_pm.c:// If currently in panic mode (to avoid thrashing), check to see if the
src/lib/16_pm.c:// appropriate number of frames have passed since the last time that
src/lib/16_pm.c:// we would have thrashed. If so, take us out of panic mode.
src/lib/16_pm.c://
src/lib/16_pm.c://
src/lib/16_pm.c: // Frame count overrun - kill the LRU hit entries & reset frame count
src/lib/16_pm.c://#if 0
src/lib/16_pm.c://#endif
src/lib/16_pm.c: // DEBUG - set border color
src/lib/16_pm.c: // DEBUG - reset border color
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_Reset() - Sets up caching structures
src/lib/16_pm.c://
src/lib/16_pm.c: // Initialize page list
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_Startup() - Start up the Page Mgr
src/lib/16_pm.c://
src/lib/16_pm.c: //strcpy(&(gvar->pm.fi.PageFileName), "VSWAP.");
src/lib/16_pm.c: //0000+=+=PML_OpenPageFile(gvar);
src/lib/16_pm.c: //return;
src/lib/16_pm.c://
src/lib/16_pm.c:// PM_Shutdown() - Shut down the Page Mgr
src/lib/16_pm.c://
src/lib/16_pm.c: //PML_ClosePageFile(gvar);
src/lib/16_pm.h: * along with this program. If not, see , or
src/lib/16_pm.h://
src/lib/16_pm.h:// ID_PM.H
src/lib/16_pm.h:// Header file for Id Engine's Page Manager
src/lib/16_pm.h://
src/lib/16_pm.h:/*// NOTE! PMPageSize must be an even divisor of EMSPageSize, and >= 1024
src/lib/16_pm.h:#define PMMinMainMem 10 // Min acceptable # of pages from main
src/lib/16_pm.h:#define PMMaxMainMem 100 // Max number of pages in main memory
src/lib/16_pm.h:#define PMThrashThreshold 1 // Number of page thrashes before panic mode
src/lib/16_pm.h:#define PMUnThrashThreshold 5 // Number of non-thrashing frames before leaving panic mode
src/lib/16_pm.h: dword offset; // Offset of chunk into file
src/lib/16_pm.h: word length; // Length of the chunk
src/lib/16_pm.h: int xmsPage; // If in XMS, (xmsPage * PMPageSize) gives offset into XMS handle
src/lib/16_pm.h: PMLockType locked; // If set, this page can't be purged
src/lib/16_pm.h: int emsPage; // If in EMS, logical page/offset into page
src/lib/16_pm.h: int mainPage; // If in Main, index into handle array
src/lib/16_pm.h: dword lastHit; // Last frame number of hit
src/lib/16_pm.h: int baseEMSPage; // Base EMS page for this phys frame
src/lib/16_pm.h: dword lastHit; // Last frame number of hit
src/lib/16_pm.h:extern PageListStruct far *PMPages;*///moved to src/lib/typdefst.h
src/lib/16_pm.h: PM_GetPage(int pagenum, global_game_variables_t *gvar); // Use this one to cache page
src/lib/16render.c: * along with this program. If not, see , or
src/lib/16render.c://TODO! ADD CLIPPING!!
src/lib/16render.c://memory management needs to be added
src/lib/16render.c://void
src/lib/16render.c://modexDrawBmpRegion (page_t *page, int x, int y, int rx, int ry, int rw, int rh, bitmap_t *bmp)
src/lib/16render.c: //fine tuning
src/lib/16render.c: //^^;
src/lib/16render.c: //printf("%d,%d p(%d,%d) r(%d,%d) rwh(%d,%d)\n", x, y, px, py, rx, ry, rw, rh);
src/lib/16render.c:// byte near *buff;
src/lib/16render.c:// buff = _nmalloc(p->pwidth+1);
src/lib/16render.c: // TODO Make this fast. It's SLOOOOOOW
src/lib/16render.c:// for(plane=0; plane < 4; plane++) {
src/lib/16render.c:// i=0;
src/lib/16render.c:// modexSelectPlane(PLANE(plane+x));
src/lib/16render.c:// for(px = plane; px < p->width; px+=4) {
src/lib/16render.c:// offset=px;
src/lib/16render.c:// for(py=0; pyheight/2; py++) {
src/lib/16render.c:// //SELECT_ALL_PLANES();
src/lib/16render.c:// if(!sprite || p->plane[offset])
src/lib/16render.c:// page->data = &(p->plane[offset][i++]);
src/lib/16render.c:// offset+=p->width;
src/lib/16render.c:// offset++;
src/lib/16render.c:// }
src/lib/16render.c:// }
src/lib/16render.c:// }
src/lib/16render.c: //for(px=0; px < p->width; px++) {
src/lib/16render.c: //printf("%02X ", (int) p->plane[plane][i++]);
src/lib/16render.c:// _fmemcpy(buff, &(p->plane[plane][i+=p->pwidth]), p->pwidth);
src/lib/16render.c:// printf("buff %u==%s\n", y, *buff);
src/lib/16render.c:// _fmemcpy(page->data + (((page->width/4) * (y+page->dy)) + ((x+page->dx) / 4)), buff, p->pwidth);
src/lib/16render.c: //}
src/lib/16render.c://getch();
src/lib/16render.c:// _nfree(buff);*/
src/lib/16render.c://* normal versions *//
src/lib/16render.c: byte *data = bmp->data;//+bmp->offset;
src/lib/16render.c: byte *data = bmp->data;//+bmp->offset;
src/lib/16render.c://* planar buffer versions *//
src/lib/16render.h: * along with this program. If not, see , or
src/lib/16_snd.c: * along with this program. If not, see , or
src/lib/16_snd.c: //FMSetPercusiveMode(percusiveMode);
src/lib/16_snd.c: regNum = 0xB0 + voice % 11;//NUMVOICE;
src/lib/16_snd.c: regNum = 0xA0 + voice % 11;//NUMVOICE;
src/lib/16_snd.c: regNum = 0xB0 + voice % 11;//NUMVOICE;
src/lib/16_snd.c: voiceNum %= 11;//NUMVOICE;
src/lib/16_snd.h: * along with this program. If not, see , or
src/lib/16_sprit.c: // Retrive animation name list
src/lib/16_sprit.c: // Upon new animation, start from the first sprite in it
src/lib/16_sprit.c: // Retruve animation ids list
src/lib/16_sprit.c: // Loop through animation id untill match or end of list
src/lib/16_sprit.c: // Return on successful match
src/lib/16_sprit.c: // Retruve animation ids list
src/lib/16_sprit.c: // Loop through animation id untill match or end of list
src/lib/16_sprit.c: // Events go here
src/lib/16_sprit.c: // Draw sprite
src/lib/16_sprit.c: // Depending on delay, update indices
src/lib/16_sprit.c: // Delay = 0 means that sprite should loop. Nothing to change here
src/lib/16_sprit.c: // Delay = 1 means that on next time unit sprite should be changed
src/lib/16_sprit.c: // If we hit the end of an animation sequence, restart it
src/lib/16_sprit.c: // Delay > 1 means that we should not change sprite yet. Decrease delay
src/lib/16_sprit.h: * along with this program. If not, see , or
src/lib/16_sprit.h: // VRS container from which we will extract animation and image data
src/lib/16_sprit.h: // Container for a vrl sprite
src/lib/16_sprit.h: // Current sprite id
src/lib/16_sprit.h: // Index of a current sprite in an animation sequence
src/lib/16_sprit.h: // Current animation sequence
src/lib/16_sprit.h: // Index of current animation in relevant VRS offsets table
src/lib/16_sprit.h: // Delay in time units untill we should change sprite
src/lib/16_sprit.h: // Position of sprite on screen
src/lib/16_tail.c: * along with this program. If not, see , or
src/lib/16_tail.c: // DOSLIB: check our environment
src/lib/16_tail.c: // DOSLIB: what CPU are we using?
src/lib/16_tail.c: // NTS: I can see from the makefile Sparky4 intends this to run on 8088 by the -0 switch in CFLAGS.
src/lib/16_tail.c: // So this code by itself shouldn't care too much what CPU it's running on. Except that other
src/lib/16_tail.c: // parts of this project (DOSLIB itself) rely on CPU detection to know what is appropriate for
src/lib/16_tail.c: // the CPU to carry out tasks. --J.C.
src/lib/16_tail.c: // DOSLIB: check for VGA
src/lib/16_tail.c: // hardware must be VGA or higher!
src/lib/16_tail.c: _DEBUG("Serial debug output started\n"); // NTS: All serial output must end messages with newline, or DOSBox-X will not emit text to log
src/lib/16_tail.c://===========================================================================
src/lib/16_tail.c://===========================================================================
src/lib/16_tail.c: //unsigned finscreen;
src/lib/16_tail.c: //ClearMemory ();
src/lib/16_tail.c: //WriteConfig ();
src/lib/16_tail.c: //CA_CacheGrChunk (ERRORSCREEN);
src/lib/16_tail.c: //screen = grsegs[ERRORSCREEN];
src/lib/16_tail.c: //ShutdownId ();
src/lib/16_tail.c: //modexLeave();
src/lib/16_tail.c: //movedata ((unsigned)screen,7,0xb800,0,7*160);
src/lib/16_tail.c: //gotoxy (10,4);
src/lib/16_tail.c: //gotoxy (1,8);
src/lib/16_tail.c: //clrscr();
src/lib/16_tail.c: //#ifndef JAPAN
src/lib/16_tail.c: //gotoxy(1,24);
src/lib/16_tail.c: //#endif
src/lib/16_tail.c://asm mov bh,0
src/lib/16_tail.c://asm mov dh,23 // row
src/lib/16_tail.c://asm mov dl,0 // collumn
src/lib/16_tail.c://asm mov ah,2
src/lib/16_tail.c://asm int 0x10
src/lib/16_tail.c://===========================================================================
src/lib/16_tail.h: * along with this program. If not, see , or
src/lib/16text.c: * along with this program. If not, see , or
src/lib/16text.c: //romFontsData
src/lib/16text.h: * along with this program. If not, see , or
src/lib/16text.h: word seg; //segment for the font
src/lib/16text.h: word off; //offset in the segment for the font
src/lib/16text.h: byte charSize; //bytes in each character
src/lib/16text.h: byte col; //color
src/lib/16text.h: byte bgcol; //bg color!
src/lib/16text.h: word chw; //char width
src/lib/16_timer.c: * along with this program. If not, see , or
src/lib/16_timer.c: //gv->kurokku.frames_per_second = 60;
src/lib/16_timer.c: //turn this off if XT
src/lib/16_timer.c:// big global status text buffer
src/lib/16_timer.c: //float t;
src/lib/16_timer.c: //t=(((*(gv->clock))-gv->clock_start) /18.2);
src/lib/16_timer.c: //(gv->clock_start)=*(gv->clock);
src/lib/16_timer.c:// switch(gv->kurokku.fpscap)
src/lib/16_timer.c:// {
src/lib/16_timer.c:// case 0:
src/lib/16_timer.c:// gv->kurokku.frames_per_second=1;
src/lib/16_timer.c:// break;
src/lib/16_timer.c:// case 1:
src/lib/16_timer.c:// //turn this off if XT
src/lib/16_timer.c:// WaitPee();
src/lib/16_timer.c:// gv->kurokku.frames_per_second=60;
src/lib/16_timer.c:// break;
src/lib/16_timer.c:// }
src/lib/16_timer.h: * along with this program. If not, see , or
src/lib/16_timer.h://double time_in_seconds(time_t in_t);
src/lib/16_vl.c: * along with this program. If not, see , or
src/lib/16_vl.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_vl.c:// //
src/lib/16_vl.c:// setvideo() - This function Manages the video modes //
src/lib/16_vl.c:// //
src/lib/16_vl.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_vl.c: case 0: // deinit the video
src/lib/16_vl.c: // change to the video mode we were in before we switched to mode 13h
src/lib/16_vl.c: default: // init the video
src/lib/16_vl.c: // get old video mode
src/lib/16_vl.c: //in.h.ah = 0xf;
src/lib/16_vl.c: //int86(0x10, &in, &out);
src/lib/16_vl.c: gv->video.old_mode = vgaGetMode();//out.h.al;
src/lib/16_vl.c: // enter mode
src/lib/16_vl.c: //int10_setmode(mode);
src/lib/16_vl.c://---------------------------------------------------
src/lib/16_vl.c://
src/lib/16_vl.c:// Use the bios to get the current video mode
src/lib/16_vl.c://
src/lib/16_vl.c: //int CRTParmCount;
src/lib/16_vl.c: //outp(CRTC_INDEX, 0x11); /* VSync End reg contains register write prot */
src/lib/16_vl.c: //outp(CRTC_DATA, 0x7f); /* get current write protect on varios regs */
src/lib/16_vl.c: //CRTParmCount = sizeof(ModeX_320x240regs) / sizeof(ModeX_320x240regs[0]);
src/lib/16_vl.c: gv->video.page[0].sw = vga_state.vga_width = 320; // VGA lib currently does not update this
src/lib/16_vl.c: gv->video.page[0].sh = vga_state.vga_height = 240; // VGA lib currently does not update this
src/lib/16_vl.c: // mode X BYTE mode
src/lib/16_vl.c: // 320x240 mode 60Hz
src/lib/16_vl.c:// cm.horizontal_blank_end=0x82 + 1; /* CRTC[3] bit 0-4 & CRTC[5] bit 7 *///skewing ^^;
src/lib/16_vl.c: //cm.horizontal_start_delay_after_total=0x3e; /* CRTC[3] bit 5-6 */
src/lib/16_vl.c: //cm.horizontal_start_delay_after_retrace=0x41; /* CRTC[5] bit 5-6 */
src/lib/16_vl.c: cm.offset = (vga_state.vga_width / (4 * 2)); // 320 wide (40 x 4 pixel groups x 2)
src/lib/16_vl.c: case 2: // TODO: 160x120 according to ModeX_160x120regs
src/lib/16_vl.c: case 3: // TODO: 160x120 according to ModeX_320x200regs
src/lib/16_vl.c: case 4: // TODO: 160x120 according to ModeX_192x144regs
src/lib/16_vl.c: case 5: // TODO: 160x120 according to ModeX_256x192regs
src/lib/16_vl.c: dword far*ptr=(dword far*)vga_state.vga_graphics_ram;//VGA; /* used for faster screen clearing */
src/lib/16_vl.c: for(i = 0;i < 0x4000; i++) ptr[i] = 0x0000; // 0x4000 x dword = 64KB
src/lib/16_vl.c:// gv->video.page[0].tw = gv->video.page[0].sw/TILEWH;
src/lib/16_vl.c:// gv->video.page[0].th = gv->video.page[0].sh/TILEWH;
src/lib/16_vl.c: //TODO MAKE FLEXIBLE~
src/lib/16_vl.c:// gv->video.page[0].tilemidposscreenx = gv->video.page[0].tilesw;
src/lib/16_vl.c:// gv->video.page[0].tilemidposscreeny = (gv->video.page[0].tilesh/2)+1;
src/lib/16_vl.c: //page.data = VGA;
src/lib/16_vl.c: //page.data = (byte far *)(vga_state.vga_graphics_ram);
src/lib/16_vl.c://next page with defined dimentions~
src/lib/16_vl.c: result.stridew=p->sw/4;//result.width/4;
src/lib/16_vl.c: //printf("\n\n 1st vmem_remain=%u\n", video->vmem_remain);
src/lib/16_vl.c: //printf(" [%u], video->page[%u].pagesize=%u\n", i, i, video->page[i].pagesize);
src/lib/16_vl.c: //printf(" [%u], vmem_remain=%u\n", i, video->vmem_remain);
src/lib/16_vl.c: (video->page[0]) = modexDefaultPage(&(video->page[0])); video->num_of_pages++; //video->page[0].width += (TILEWHD); video->page[0].height += (TILEWHD);
src/lib/16_vl.c://0000 (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), (video->page[0]).width, TILEWH*4); video->num_of_pages++;
src/lib/16_vl.c://0000 (video->page[3]) = (video->page[2]); video->num_of_pages++;
src/lib/16_vl.c:// (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), video->page[0].width, 176); video->num_of_pages++;
src/lib/16_vl.c:// (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), video->page[0].width, 172); video->num_of_pages++;
src/lib/16_vl.c:// (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), 72, 128); video->num_of_pages++;
src/lib/16_vl.c: //while ((inp(INPUT_STATUS_1) & DISPLAY_ENABLE));
src/lib/16_vl.c: //while (!(inp(INPUT_STATUS_1) & VRETRACE));
src/lib/16_vl.c: //printf("modexClearRegion(x=%u, y=%u, w=%u, h=%u, left=%u, right=%u)\n", x, y, w, h, left, right);
src/lib/16_vl.c: word scans = vga_state.vga_stride; //++++0000 the quick and dirty fix of the major issue with p16 video display wwww
src/lib/16_vl.c:// printf("modexCopyPageRegion(src->stridew=%u, dest->stridew=%u, sx=%u, sy=%u, dx=%u, dy=%u, width=%u, height=%u, left=%u, right=%u)\n", src->stridew, dest->stridew, sx, sy, dx, dy, width, height, left, right);
src/lib/16_vl.c: //unsigned int i;
src/lib/16_vl.c: static word a[PAL_SIZE]; //palette array of change values!
src/lib/16_vl.c: //modexWaitBorder();
src/lib/16_vl.c:// printf("q: %02d\n", (q));
src/lib/16_vl.c:// printf("qq: %02d\n", (qq));
src/lib/16_vl.c: //printf(" (*i)-q=%02d\n", (*i)-q);
src/lib/16_vl.c: //if(i%3==0 && (p[i+5]==p[i+4] && p[i+4]==p[i+3] && p[i+3]==p[i+2] && p[i+2]==p[i+1] && p[i+1]==p[i] && p[i+5]==p[i]))
src/lib/16_vl.c://____ if((qp>0)&&((*i)-q)%3==0 && (p[((*i)-q)]==p[((*i)-q)+3] && p[((*i)-q)+1]==p[((*i)-q)+4] && p[((*i)-q)+2]==p[((*i)-q)+5])) outp(PAL_DATA_REG, p[(*i)-q]); else
src/lib/16_vl.c: //printf("qp=%d\n", qp);
src/lib/16_vl.c: //printf(" (*i)=%d a[%d]=%d\n", (*i), qp, a[qp]);
src/lib/16_vl.c: //outp(PAL_DATA_REG, p[((a[qp])-(bmp->offset*3)+qp)]);// fix this shit!
src/lib/16_vl.c: else{ //outp(PAL_DATA_REG, p[((*i)-(bmp->offset*3)+qp)]);
src/lib/16_vl.c: //if(qp>0) printf("qp=%d\n", qp);
src/lib/16_vl.c: //if(qp>0) printf(" (*i)=%d\n", (*i)/3);
src/lib/16_vl.c: //modexWaitBorder(); /* waits one retrace -- less flicker */
src/lib/16_vl.c://____ if((qp>0)&&((*i)-q)%3==0 && (p[((*i)-q)]==p[((*i)-q)+3] && p[((*i)-q)+1]==p[((*i)-q)+4] && p[((*i)-q)+2]==p[((*i)-q)+5])) outp(PAL_DATA_REG, p[(*i)-q]); else
src/lib/16_vl.c: //printf("qp=%d\n", qp);
src/lib/16_vl.c: //printf(" (*i)=%d a[%d]=%d\n", (*i), qp, a[qp]);
src/lib/16_vl.c: //outp(PAL_DATA_REG, p[((a[qp])-(bmp->offset*3)+qp)]);// fix this shit!
src/lib/16_vl.c: else{ //outp(PAL_DATA_REG, p[((*i)-(bmp->offset*3)+qp)]);
src/lib/16_vl.c: //printf(" (*i)=%d\n", (*i)/3);
src/lib/16_vl.c: //palette checker~
src/lib/16_vl.c: //printf("1(*i)=%02d\n", (*i)/3);
src/lib/16_vl.c: //printf("1z=%02d\n", z/3);
src/lib/16_vl.c: //printf("2(*i)=%02d\n", (*i)/3);
src/lib/16_vl.c: //printf("2z=%02d\n", z/3);
src/lib/16_vl.c:// printf("a[%02d]=(%d)\n", aq, a[aq]);
src/lib/16_vl.c://update the image data here!
src/lib/16_vl.c: //(offset/bmp->offset)*bmp->offset
src/lib/16_vl.c: //printf("%02d ",bmp->data[lq]+bmp->offset);
src/lib/16_vl.c: //if(lq > 0 && lq%bmp->width==0) printf("\n");
src/lib/16_vl.c: //printf("%02d_", bmp->data[lq]+bmp->offset);
src/lib/16_vl.c: //printf("%02d", bmp->data[lq]);
src/lib/16_vl.c: //printf("\n%02d\n", bmp->offset);
src/lib/16_vl.c: //bmp->data[lq]=((bmp->data[lq]+bmp->offset)-a[aq]);
src/lib/16_vl.c://++++ bmp->data[lq]=a[aq]-aqpp;
src/lib/16_vl.c:// printf("_%d ", bmp->data[lq]);
src/lib/16_vl.c: //if(lq > 0 && lq%bmp->width==0) printf("\n");
src/lib/16_vl.c: bmp->data[lq]=(bmp->data[lq]+bmp->offset)-aqpp;//-((z-(*i))/3);
src/lib/16_vl.c: //printf("_%d ", bmp->data[lq]+bmp->offset)-aqpp-((z-(*i))/3);
src/lib/16_vl.c: //printf("%02d`", bmp->data[lq]);
src/lib/16_vl.c: //if(lq > 0 && lq%bmp->width==0) printf("\n");
src/lib/16_vl.c://printf(" aq=%02d\n", aq);
src/lib/16_vl.c://printf(" aa=%02d\n", aa);
src/lib/16_vl.c: //update the palette~
src/lib/16_vl.c: //modexWaitBorder();
src/lib/16_vl.c: //modexWaitBorder(); /* waits one retrace -- less flicker */
src/lib/16_vl.c: //modexWaitBorder();
src/lib/16_vl.c: //modexWaitBorder(); /* waits one retrace -- less flicker */
src/lib/16_vl.c: //modexWaitBorder();
src/lib/16_vl.c://color checker~
src/lib/16_vl.c://i want to make another vesion that checks the palette when the palette is being appened~
src/lib/16_vl.c: //printf("q: %02d\n", (*q));
src/lib/16_vl.c:// printf("1 offset of color in palette (*q): %d\n", (*q)/3);
src/lib/16_vl.c: //check palette for dups
src/lib/16_vl.c: //printf("\n z: %d\n", (*z));
src/lib/16_vl.c: //printf(" q: %d\n", (*q));
src/lib/16_vl.c: //printf(" z+q: %d\n\n", ((*z)+(*q)));
src/lib/16_vl.c: //if((*z)%3==0)
src/lib/16_vl.c: //{
src/lib/16_vl.c://---- if(pal[(*z)]==pal[(*z)+3] && pal[(*z)+1]==pal[(*z)+4] && pal[(*z)+2]==pal[(*z)+5])
src/lib/16_vl.c:// printf("\n%d [%02d][%02d][%02d]\n", (*z), pal[(*z)], pal[(*z)+1], pal[(*z)+2]);
src/lib/16_vl.c:// printf("%d [%02d][%02d][%02d]\n\n", (*z)+3, pal[(*z)+3], pal[(*z)+4], pal[(*z)+5]);
src/lib/16_vl.c://0000 (*z)-=3;
src/lib/16_vl.c: //printf("zz: %02d\n", zz/3);
src/lib/16_vl.c: if(pal[((*z)+(*q))]==pal[((*z)+(*q))+3] && pal[((*z)+(*q))+1]==pal[((*z)+(*q))+4] && pal[((*z)+(*q))+2]==pal[((*z)+(*q))+5]) //break if duplicate colors found in palette because it have reached the end of the current data of the palette
src/lib/16_vl.c:// (*z)-=3;
src/lib/16_vl.c:// (*i)-=3;
src/lib/16_vl.c:// printf("\nzq1:%d[%02d][%02d][%02d]\n", (zz+q), pal[(zz+q)], pal[(zz+q)+1], pal[(zz+q)+2]);
src/lib/16_vl.c:// printf("zq2:%d[%02d][%02d][%02d]\n\n", (zz+q)+3, pal[(zz+q)+3], pal[(zz+q)+4], pal[(zz+q)+5]);
src/lib/16_vl.c:// printf("\n\nwwwwwwwwwwwwwwww\n");
src/lib/16_vl.c:// printf(" zq: %d [%02d][%02d][%02d] value that is needing to be changed~\n", ((*z)+(*q))/3, pal[((*z)+(*q))], pal[((*z)+(*q))+1], pal[((*z)+(*q))+2]);
src/lib/16_vl.c:// printf(" zz: %d [%02d][%02d][%02d] value that the previous value is going to change to~\n", (zz)/3, pal[zz], pal[zz+1], pal[zz+2]);
src/lib/16_vl.c:// //printf(" zv: %d [%02d][%02d][%02d] wwww\n", (zz-z+q)/3, pal[(zz-z+q)], pal[(zz-z+q)+1], pal[(zz-z+q)+2]);
src/lib/16_vl.c:// printf(" z : %d [%02d][%02d][%02d] offset value~\n", (*z)/3, pal[(*z)], pal[(*z)+1], pal[(*z)+2]);
src/lib/16_vl.c://++++ (*i)--;
src/lib/16_vl.c:// (*z)--;
src/lib/16_vl.c: //expand dong here
src/lib/16_vl.c: //for(zzii=0; zzii<3; zzii++)
src/lib/16_vl.c: //{
src/lib/16_vl.c: //printf("z+q: %d\n\n", ((*z)+(*q)));
src/lib/16_vl.c: //}
src/lib/16_vl.c:// printf("\n aa: %d\n\n", (*aa));
src/lib/16_vl.c:// printf(" a[%02d]=(%02d) offset array i think the palette should be updated again~\n", ((*z)+(*q))/3, a[((*z)+(*q))/3]);
src/lib/16_vl.c:// printf("wwwwwwwwwwwwwwww\n\n");
src/lib/16_vl.c: //printf("[%d]", (zz+q));
src/lib/16_vl.c:// printf("2 offset of color in palette (*q): %d\n", (*q)/3);
src/lib/16_vl.c: //outp(SC_INDEX, 0x02);
src/lib/16_vl.c: //outp(SC_DATA, 0x01 << (x & 3));
src/lib/16_vl.c: m1 = 0x80; // left half
src/lib/16_vl.c: m2 = 0x08; // right half
src/lib/16_vl.c: //word addr = (word) romFontsData.l;
src/lib/16_vl.c: // load the character into romFontsData.l
src/lib/16_vl.c: // no need for inline assembly!
src/lib/16_vl.c: // NTS: It might even be faster to just let the modexDrawChar point directly at ROM font than to copy per char! --J.C.
src/lib/16_vl.c: //load the letter 'A'
src/lib/16_vl.c: //modexputPixel(page, x+xp+chw, y+i, l[i] & j ? col:bgcol);
src/lib/16_vl.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_vl.c:// //
src/lib/16_vl.c:// cls() - This clears the screen to the specified color, on the VGA or on //
src/lib/16_vl.c:// the Virtual screen. //
src/lib/16_vl.c:// //
src/lib/16_vl.c://///////////////////////////////////////////////////////////////////////////
src/lib/16_vl.c: //modexClearRegion(page, 0, 0, page->width, page->height, color);
src/lib/16_vl.c: //_fmemset(VGA, color, 16000);
src/lib/16_vl.c: // spin
src/lib/16_vl.c: //spin
src/lib/16_vl.h: * along with this program. If not, see , or
src/lib/16_vl.h://#include "src/lib/planar.h"
src/lib/16_vl.h://#include "src/lib/modex16/16planar.h"
src/lib/16_vl.h:////#include "src/lib/modex16/320x240.h"
src/lib/16_vl.h:// #include "src/lib/modex16/320x200.h"
src/lib/16_vl.h:// #include "src/lib/modex16/256x192.h"
src/lib/16_vl.h:// #include "src/lib/modex16/192x144_.h"
src/lib/16_vl.h:// #include "src/lib/modex16/160x120.h"
src/lib/16_vl.h://320x240 = 20x15
src/lib/16_vl.h://192x144 = 12x9
src/lib/16_vl.h://temp defines
src/lib/16_vl.h://#define INPUT_STATUS_1 0x03da defined in 16_head
src/lib/16_vl.h:#if 0 // not needed anymore. maybe good for reference purposes though.
src/lib/16_vl.h: //outp(SC_INDEX, 0x02);
src/lib/16_vl.h: //outp(SC_DATA, 0x01 << (x & 3));
src/lib/16_vrs.c: * along with this program. If not, see , or
src/lib/16_vrs.c:// Read .vrs file into far memory
src/lib/16_vrs.c: // Open filename, get size of file,
src/lib/16_vrs.c: // populate the vrs_container if all tests pass
src/lib/16_vrs.c: // Insert sanity cheks later
src/lib/16_vrs.c: // Calculate vrl offsets
src/lib/16_vrs.c: // Count sprites
src/lib/16_vrs.c: // Allocate memory for vrl line offsets table
src/lib/16_vrs.c: // Calculate line offsets for each vrl
src/lib/16_vrs.c: // Calc. vrl size as (next_offset - curr_offset)
src/lib/16_vrs.c: // If it's the last vrl, size is (next_vrs_struct_offset - curr_offset)
src/lib/16_vrs.c:// Seek and return a specified .vrl blob from .vrs blob in far memory
src/lib/16_vrs.c: // If id is invalid, return -1
src/lib/16_vrs.c: // Probably add an error message?
src/lib/16_vrs.c: // Get id list from .vrs blob (base + offset)
src/lib/16_vrs.c: // Loop through the id list until we found the right one or hit the end of the list
src/lib/16_vrs.c: // Counter is keeping track of the offset(in ids/vrl blobs)
src/lib/16_vrs.c: // Return -2 if we couldn't find the requested id
src/lib/16_vrs.c: // Error message?
src/lib/16_vrs.c: // Get vrl offsets list from .vrs blob (base + offset)
src/lib/16_vrs.c: // Get vrl_header from .vrs (base + offset from vrl_list)
src/lib/16_vrs.c: // Counter is number of vrls to skip (ids and vrls are aligned according to the .vrs specification)
src/lib/16_vrs.c: // Get .vrl size by integer arithmetics (next vrl offset - current vrl offset)
src/lib/16_vrs.c: // If we are retriving the last vrl, size is ids_list offset - current vrl offset, as next vrl offs is 0
src/lib/16_vrs.c: // Retrive line offsets form .vrs
src/lib/16_vrs.h: * along with this program. If not, see , or
src/lib/16_vrs.h://#include
src/lib/16_vrs.h://#include
src/lib/16_vrs.h: // Size of a .vrs lob in memory
src/lib/16_vrs.h: // minus header
src/lib/16_vrs.h: // Array of corresponding vrl line offsets
src/lib/16_vrs.h: // Size of a .vrl blob in memory
src/lib/16_vrs.h: // minus header
src/lib/16_vrs.h: // Pointer to a corresponding vrl line offsets struct
src/lib/bakapee.c: * along with this program. If not, see , or
src/lib/bakapee.c://color てすと
src/lib/bakapee.c: //if(pee->coor < 256)
src/lib/bakapee.c: //{
src/lib/bakapee.c: //}else pee->coor = 0;
src/lib/bakapee.c://color てすと
src/lib/bakapee.c://slow spectrum down
src/lib/bakapee.c: //mxPutPixel(sx, sy, coor);
src/lib/bakapee.c: //printf("%d %d %d %d\n", pee->sx, pee->sy, svq, pee->coor);
src/lib/bakapee.c://plot pixel or plot tile
src/lib/bakapee.c: //fill_block(pee->xx, pee->yy, pee->xx+TILEWH, pee->yy+TILEWH, pee->coor);
src/lib/bakapee.c://assigning values from randomizer
src/lib/bakapee.c://randomizer
src/lib/bakapee.c://++++ if(q <= 4 && q!=2 && gq == BONK-1) coor = rand()%HGQ;
src/lib/bakapee.c: dingpp(page, pee); //plot the pixel/tile
src/lib/bakapee.c: dingpp(page, pee); //plot the pixel/tile
src/lib/bakapee.c: dingpp(page, pee); //plot the pixel/tile
src/lib/bakapee.c: case 16: //interesting effects
src/lib/bakapee.c: //printf("%d %d %d %d %d %d\n", pee->xx, pee->yy, tx, ty, TILEWH);
src/lib/bakapee.c: //pee->coor++;
src/lib/bakapee.h: * along with this program. If not, see , or
src/lib/bakapee.h: * along with this program. If not, see , or
src/lib/bakapee.h://#include "src/lib/modex/modex.h"
src/lib/bakapee.h://#include "16/x/modex.h"
src/lib/bakapee.h://which lib?
src/lib/bitmap.c: * along with this program. If not, see , or
src/lib/bitmap.c: //long bufSize;
src/lib/bitmap.c: //int index;
src/lib/bitmap.c: //byte count, val;
src/lib/bitmap.c: //long int pos;
src/lib/bitmap.c: //printf("%zu\n", _memmax());
src/lib/bitmap.c:// result.data = (byte far *)_fmalloc(bufSize);
src/lib/bitmap.c:// result.data = (byte __huge *)halloc(bufSize, sizeof(byte));
src/lib/bitmap.c: //exit(0);
src/lib/bitmap.c: //printf("index=%d\n", index);
src/lib/bitmap.c://TODO: update!!
src/lib/bitmap.c: //ts.data[0] = malloc(sizeof(byte) * ts.ntiles * twidth * theight);
src/lib/bitmap.h: * along with this program. If not, see , or
src/lib/ems.c: sregs.ds = 0; //????
src/lib/mapread.c: * along with this program. If not, see , or
src/lib/mapread.c://this function is quite messy ^^; sorry! it is a quick and dirty fix~
src/lib/mapread.c: word j;//, k;
src/lib/mapread.c://0000fprintf(stderr, "t->type=%d\n", t->type);
src/lib/mapread.c:// fprintf(stdout, "[[[[%d|%d]]]]\n", &(t+1)->size, (t+1)->size);
src/lib/mapread.c:// fprintf(stdout, "\n%.*s[xx[%d|%d]xx]\n", (t+1)->end - (t+1)->start, js+(t+1)->start, &(t+1)->size, (t+1)->size);
src/lib/mapread.c: //fix this to be far~
src/lib/mapread.c://0000 bp = bitmapLoadPcx("data/ed.pcx");
src/lib/mapread.c:// bp = bitmapLoadPcx("data/koishi^^.pcx");
src/lib/mapread.c://---- map->tiles->data = planar_buf_from_bitmap(&bp);
src/lib/mapread.c: //map->tiles->data->data = malloc((16/**2*/)*16);
src/lib/mapread.c: //map->tiles->data->width = (16/**2*/);
src/lib/mapread.c: //map->tiles->data->height= 16;
src/lib/mapread.c: strcpy(js_sv, "data");//strdup(js+t->start);//, t->end - t->start);
src/lib/mapread.c: strcpy(js_sv, "height");//strdup(js+t->start);//, t->end - t->start);
src/lib/mapread.c: strcpy(js_sv, "width");//strdup(js+t->start);//, t->end - t->start);
src/lib/mapread.c: //fprintf(stdout, "\n");
src/lib/mapread.c: //for (k = 0; k < indent; k++) fprintf(stdout, "\t");
src/lib/mapread.c: //fprintf(stdout, ": ");
src/lib/mapread.c: //fprintf(stdout, "\n");
src/lib/mapread.c: //fprintf(stdout, "==\n");
src/lib/mapread.c: //for (k = 0; k < indent-1; k++) fprintf(stdout, "\t");
src/lib/mapread.c: //fprintf(stdout, "\t-");
src/lib/mapread.c: //fprintf(stdout, "==\n");
src/lib/mapread.c://0000fprintf(stderr, "tok malloc\n");
src/lib/mapread.c://0000fprintf(stderr, "read\n");
src/lib/mapread.c://0000fprintf(stdout, "r= [%d] BUFSIZ=%d\n", r, BUFSIZ);
src/lib/mapread.c://0000fprintf(stderr, "js alloc~\n");
src/lib/mapread.c://0000fprintf(stdout, " parse~ tok=%zu jslen=%zu r=%d _memavl()=%u BUFSIZ=%d~\n", tokcount, jslen, r, _memavl(), BUFSIZ);
src/lib/mapread.c://0000fprintf(stdout, "p=[%u] [%u] [%d]\n", p.pos, p.toknext, p.toksuper);
src/lib/mapread.c://0000fprintf(stdout, "r= [%d]\n", r);
src/lib/mapread.c://0000fprintf(stderr, "tok realloc~ %zu\n", tokcount);
src/lib/mapread.c: //printf("js=%Fp\n", (js));
src/lib/mapread.c: //printf("*js=%Fp\n", (*(js)));
src/lib/mapread.c: //printf("&*js=%s\n", &(*(js)));
src/lib/mapread.c: //printf("&buf=[%Fp]\n", &buf);
src/lib/mapread.c: //printf("&buf_seg=[%x]\n", FP_SEG(&buf));
src/lib/mapread.c: //printf("&buf_off=[%x]\n", FP_OFF(&buf));
src/lib/mapread.c: //printf("&buf_fp=[%Fp]\n", MK_FP(FP_SEG(&buf), FP_OFF(&buf)));
src/lib/mapread.c: //printf("buf=[\n%s\n]\n", buf);
src/lib/mapread.c: //printf("buff=[%Fp]\n", buff);
src/lib/mapread.c: //printf("(*buff)=[%Fp]\n", (*buff));
src/lib/mapread.c: //printf("&(*buff)=[\n%s\n]\n", &(*buff));
src/lib/mapread.c: //free(js);
src/lib/mapread.c: //free(tok);
src/lib/mapread.c: //fclose(fh);
src/lib/mapread.h: * along with this program. If not, see , or
src/lib/mapread.h://#define DEBUG_MAPDATA
src/lib/mapread.h://#define DEBUG_MAPVAR
src/lib/mapread.h://#define DEBUG_DUMPVARS
src/lib/mapread.h://#define DEBUG_JS
src/lib/mapread.h: boolean debug_text; //show the value of the tile! wwww
src/lib/mapread.h: int width; //this has to be signed!
src/lib/mapread.h: int height; //this has to be signed!
src/lib/midi.c://====
src/lib/midi.c://====
src/lib/midi.c://====
src/lib/midi.c://====
src/lib/midi.c://====
src/lib/midi.c://====
src/lib/midi.c://void adlib_shut_up();
src/lib/midi.c:// midi_tick();
src/lib/midi.h://#include "src/lib/doslib/vga.h"
src/lib/midi.h://#include "src/lib/doslib/vgagui.h"
src/lib/midi.h://#include "src/lib/doslib/vgatty.h"
src/lib/scroll16.c: * along with this program. If not, see , or
src/lib/scroll16.c: //printf("player[%d].d=%d\n", pn, player[pn].d);
src/lib/scroll16.c: //no direction
src/lib/scroll16.c: //0000pip[0].video->startclk = (*clockw);
src/lib/scroll16.c: //right movement
src/lib/scroll16.c: //printf("pip[0].page->tilesw=%d ", pip[0].page->tilesw); printf("pip[0].page->tw=%d\n", pip[0].page->tw);
src/lib/scroll16.c: !(pip[0].map->data[(player[pn].tx)+(pip[0].map->width*(player[pn].ty-1))] == 0))//!(player[pn].tx+1 == TRIGGX && player[pn].ty == TRIGGY)) //collision detection!
src/lib/scroll16.c: //0000pip[0].video->clk = ((*clockw)-pip[0].video->startclk)/18.2;
src/lib/scroll16.c: else if(player[pn].tx < pip[0].map->width && !(pip[0].map->data[(player[pn].tx)+(pip[0].map->width*(player[pn].ty-1))] == 0))//!(player[pn].tx+1 == TRIGGX && player[pn].ty == TRIGGY))
src/lib/scroll16.c: //left movement
src/lib/scroll16.c: !(pip[0].map->data[(player[pn].tx-2)+(pip[0].map->width*(player[pn].ty-1))] == 0))//!(player[pn].tx-1 == TRIGGX && player[pn].ty == TRIGGY)) //collision detection!
src/lib/scroll16.c: //0000pip[0].video->clk = ((*clockw)-pip[0].video->startclk)/18.2;
src/lib/scroll16.c: else if(player[pn].tx > 1 && !(pip[0].map->data[(player[pn].tx-2)+(pip[0].map->width*(player[pn].ty-1))] == 0))//!(player[pn].tx-1 == TRIGGX && player[pn].ty == TRIGGY))
src/lib/scroll16.c: //down movement
src/lib/scroll16.c: !(pip[0].map->data[(player[pn].tx-1)+(pip[0].map->width*(player[pn].ty))] == 0))//!(player[pn].tx == TRIGGX && player[pn].ty+1 == TRIGGY)) //collision detection!
src/lib/scroll16.c: //0000pip[0].video->clk = ((*clockw)-pip[0].video->startclk)/18.2;
src/lib/scroll16.c: else if(player[pn].ty < pip[0].map->height && !(pip[0].map->data[(player[pn].tx-1)+(pip[0].map->width*(player[pn].ty))] == 0))//!(player[pn].tx == TRIGGX && player[pn].ty+1 == TRIGGY))
src/lib/scroll16.c: //up movement
src/lib/scroll16.c: !(pip[0].map->data[(player[pn].tx-1)+(pip[0].map->width*(player[pn].ty-2))] == 0))//!(player[pn].tx == TRIGGX && player[pn].ty-1 == TRIGGY)) //collision detection!
src/lib/scroll16.c: //0000pip[0].video->clk = ((*clockw)-pip[0].video->startclk)/18.2;
src/lib/scroll16.c: else if(player[pn].ty > 1 && !(pip[0].map->data[(player[pn].tx-1)+(pip[0].map->width*(player[pn].ty-2))] == 0))//!(player[pn].tx == TRIGGX && player[pn].ty-1 == TRIGGY))
src/lib/scroll16.c://panning page
src/lib/scroll16.c: //right movement
src/lib/scroll16.c: //left movement
src/lib/scroll16.c: //down movement
src/lib/scroll16.c: //up movement
src/lib/scroll16.c: //if (player[pn].d!=2) printf("player[%u].d=%u player[%u].q=%u\n", pn, player[pn].d, pn, player[pn].q);
src/lib/scroll16.c: //result.data = (byte *)alloc_emem(((int)sizeof(byte) * w * h)/1024);
src/lib/scroll16.c: //emmhandle = mallocEMS(coretotalEMS());//alloc_emem((int)sizeof(map))
src/lib/scroll16.c: // just a place holder to fill out an alternating pattern
src/lib/scroll16.c:// int tile = 1;
src/lib/scroll16.c: //if(!isEMS() || !checkEMS())
src/lib/scroll16.c:// map->tiles = malloc(sizeof(tiles_t));
src/lib/scroll16.c: //else
src/lib/scroll16.c: // map->tiles = (tiles_t *)alloc_emem(sizeof(tiles_t));
src/lib/scroll16.c: //create the tile set
src/lib/scroll16.c: //if(!isEMS() || !checkEMS())
src/lib/scroll16.c:// map->tiles->data = malloc(sizeof(bitmap_t));
src/lib/scroll16.c: //else
src/lib/scroll16.c: // map->tiles->data = (bitmap_t *)alloc_emem(sizeof(bitmap_t));
src/lib/scroll16.c:// map->tiles->data->width = (TILEWH);
src/lib/scroll16.c:// map->tiles->data->height= TILEWH;
src/lib/scroll16.c: //if(!isEMS() || !checkEMS())
src/lib/scroll16.c:// map->tiles->data->data = malloc((TILEWH*2)*TILEWH);
src/lib/scroll16.c: //else
src/lib/scroll16.c: // map->tiles->data->data = (byte *)alloc_emem((TILEWH*2)*TILEWH);
src/lib/scroll16.c:// map->tiles->tileHeight = TILEWH;
src/lib/scroll16.c:// map->tiles->tileWidth =TILEWH;
src/lib/scroll16.c:// map->tiles->rows = 1;
src/lib/scroll16.c:// map->tiles->cols = 1;//2;
src/lib/scroll16.c: //for(y=0; yheight; y++) {
src/lib/scroll16.c: //for(x=0; xwidth; x++) {
src/lib/scroll16.c: //if(xtiles->data->data[i+1] = map->data[q];//28;//0x24;
src/lib/scroll16.c:// printf("[%d]", map->tiles->data->data[i]);
src/lib/scroll16.c: //}else{
src/lib/scroll16.c: //map->tiles->data->data[i] = map->data[q];//0;//0x34;
src/lib/scroll16.c: //printf("]%d[==[%d]", i, map->tiles->data->data[i]);
src/lib/scroll16.c: //}
src/lib/scroll16.c:// printf("\n");
src/lib/scroll16.c:// printf("[%d]", map->data[q]);
src/lib/scroll16.c:// }
src/lib/scroll16.c: //printf("\n\n");
src/lib/scroll16.c:// }
src/lib/scroll16.c:// map->data[i]=255;
src/lib/scroll16.c: //tile = tile ? 0 : 1;
src/lib/scroll16.c: //tile = tile ? 0 : 1;
src/lib/scroll16.c: word x;//, y; /* coordinate for drawing */
src/lib/scroll16.c: word x;//,y; /* coordinate for drawing */
src/lib/scroll16.c: word y;//x, /* coordinate for drawing */
src/lib/scroll16.c: word y;//x, /* coordinate for drawing */
src/lib/scroll16.c://TODO finish this wwww
src/lib/scroll16.c:// vga_setup_wm1_block_copy();
src/lib/scroll16.c:// _fmemmove(mv[id].page->data+4, mv[id].page->data, mv[id].page->pagesize);
src/lib/scroll16.c:// vga_restore_rm0wm0();
src/lib/scroll16.c:// vga_setup_wm1_block_copy();
src/lib/scroll16.c:// _fmemmove(mv[id].page->data-4, mv[id].page->data, mv[id].page->pagesize);
src/lib/scroll16.c:// vga_restore_rm0wm0();
src/lib/scroll16.c:// vga_setup_wm1_block_copy();
src/lib/scroll16.c:// _fmemmove(mv[id].page->data-mv[id].page->pi, mv[id].page->data, mv[id].page->pagesize);
src/lib/scroll16.c:// vga_restore_rm0wm0();
src/lib/scroll16.c:// vga_setup_wm1_block_copy();
src/lib/scroll16.c:// _fmemmove(mv[id].page->data+mv[id].page->pi, mv[id].page->data, mv[id].page->pagesize);
src/lib/scroll16.c:// vga_restore_rm0wm0();
src/lib/scroll16.c:// bitmap_t bp;
src/lib/scroll16.c: //check for failed to load map
src/lib/scroll16.c: //initiate a null map!
src/lib/scroll16.c: map->width=MAPW;///2;
src/lib/scroll16.c: map->height=MAPH;///2;
src/lib/scroll16.c:// map->data = malloc(((map->width*map->height)+1)*sizeof(byte));
src/lib/scroll16.c: //fix this to be far~
src/lib/scroll16.c:// bp = bitmapLoadPcx("data/ed.pcx");
src/lib/scroll16.c:// map->tiles->data = &bp;
src/lib/scroll16.c://TODO: player position here
src/lib/scroll16.c: int py;//px,
src/lib/scroll16.c:// {
src/lib/scroll16.c:// unsigned int k,j,o;
src/lib/scroll16.c:// /* fill screen with a distinctive pattern */
src/lib/scroll16.c:// for (k=0;k < vga_state.vga_width;k++) {
src/lib/scroll16.c:// o = k >> 2;
src/lib/scroll16.c:// vga_write_sequencer(0x02/*map mask*/,1 << (k&3));
src/lib/scroll16.c:// for (j=0;j < (mv[0].page->height)+(mv[1].page->height)+(mv[2].page->height)+(mv[3].page->height);j++,o += vga_state.vga_stride)
src/lib/scroll16.c:// vga_state.vga_graphics_ram[o] = (k^j)&15; // VRL samples put all colors in first 15!
src/lib/scroll16.c:// }
src/lib/scroll16.c:// }
src/lib/scroll16.c: //word textx=0, texty=0;
src/lib/scroll16.c: //if(i==0) i=2;
src/lib/scroll16.c: //wwww
src/lib/scroll16.c: modexClearRegion(page, x, y, t->tileWidth, t->tileHeight, 0); //currently the over scan color!
src/lib/scroll16.c:////0000printf("i=%d\n", i);
src/lib/scroll16.c: //modexprint(page, x, y, 1, 15, 0, (char const *)(t->debug_data[i]));
src/lib/scroll16.c: //draw_vrl1_vgax_modex(x-rx,y-ry,vrl_header,vrl_lineoffs,buffer+sizeof(*vrl_header),bufsz-sizeof(*vrl_header));
src/lib/scroll16.c: //modexDrawBmpRegion (page, x, y, rx, ry, t->tileWidth, t->tileHeight, (t->data));
src/lib/scroll16.c: //modexprintbig(page, x, y, 1, 15, 0, (t->debug_data));
src/lib/scroll16.c:// modexprint(page, x+(textx*8), y+(texty*8), 1, (word)(t->debug_data), 0, (t->debug_data));
src/lib/scroll16.c://printf("y: %d\n", poopoffset);
src/lib/scroll16.c://printf("x: %d\n", poopoffset);
src/lib/scroll16.c: //setkb(0);
src/lib/scroll16.c: word x = (0) + gv->video.page[/*!*/(gv->video.p)].dx; // follow the screen
src/lib/scroll16.c: word y = (0) + gv->video.page[/*!*/(gv->video.p)].dy; // follow the screen
src/lib/scroll16.c: word col = 7, bgcol = 0, type = 1;//w = 64, h = 8,
src/lib/scroll16.c: //byte o,o2,i;
src/lib/scroll16.c: //modexCopyPageRegion(pip[1].page, pip[2].page, 16, 16, 16, 16, (14*8)+4, 8+4);
src/lib/scroll16.c:// vga_setup_wm1_block_copy();
src/lib/scroll16.c:// modexCopyPageRegion(&(gv->video.page[shinku_fps_indicator_page]), &(gv->video.page[!shinku_fps_indicator_page]), x, y, x+w, 0, w, h);
src/lib/scroll16.c:// o = *(gv->video.page[2].data); // source offscreen
src/lib/scroll16.c:// o2 = *(gv->video.page[shinku_fps_indicator_page].data)+(y * vga_state.vga_stride) + (x >> 2); // dest visible (original stride)
src/lib/scroll16.c:// for (i=0;i < h;i++,o += vga_state.vga_draw_stride,o2 += vga_state.vga_stride) vga_wm1_mem_block_copy(o2,o,w >> 2);
src/lib/scroll16.c:// vga_restore_rm0wm0();
src/lib/scroll16.c: // NTS: For some bizarre reason, gv->pee is not initialized, but the pointer is not NULL even
src/lib/scroll16.c: // though it should be. Instead it's NULL as a near pointer but contains a non-null
src/lib/scroll16.c: // segment value, so testing against NULL doesn't work. It is initialized properly if
src/lib/scroll16.c: // you call start_timer() though which uses near malloc. Rather than fight with that,
src/lib/scroll16.c: // I decided it would be better to declare a temp buffer statically and sprintf to that.
src/lib/scroll16.c: //
src/lib/scroll16.c: // This fixes *** Null pointer assignment detected error message in ZCROLL.EXE on exit.
src/lib/scroll16.c: //modexClearRegion(&(gv->video.page[shinku_fps_indicator_page]), x, y, w, h, 45);
src/lib/scroll16.c:// vga_setup_wm1_block_copy();
src/lib/scroll16.c:// o = *(gv->video.page[shinku_fps_indicator_page].data); // source offscreen
src/lib/scroll16.c:// o2 = *(gv->video.page[2].data)+(y * vga_state.vga_stride) + (x >> 2); // dest visible (original stride)
src/lib/scroll16.c:// for (i=0;i < h;i++,o += vga_state.vga_draw_stride,o2 += vga_state.vga_stride) vga_wm1_mem_block_copy(o2,o,w >> 2);
src/lib/scroll16.c:// modexCopyPageRegion(&(gv->video.page[shinku_fps_indicator_page]), &(gv->video.page[!shinku_fps_indicator_page]), x, y, x, 0, w, h);
src/lib/scroll16.c:// vga_restore_rm0wm0();
src/lib/scroll16.c: }else //copy dat sheet
src/lib/scroll16.c: //modexprint(&(gv->video.page[shinku_fps_indicator_page]), x, y+8, type, col, bgcol, "sanic!");
src/lib/scroll16.c: //turn this off if XT
src/lib/scroll16.c: //modexWaitBorder();
src/lib/scroll16.c: //vga_setup_wm1_block_copy();
src/lib/scroll16.c: //_fmemcpy((gv->video.page[(gv->video.p)]).data, (gv->video.page[(!gv->video.p)]).data, gv->video.page[(!gv->video.p)].pagesize);
src/lib/scroll16.c: //vga_restore_rm0wm0();
src/lib/scroll16.c: //0000gv->video.tickclk = ((*clockw)-gv->video.startclk)/18.2;
src/lib/scroll16.c: sword bx = x+16; //buffer's x
src/lib/scroll16.c: sword by = y+16; //buffer's y
src/lib/scroll16.c: word dire=32; //direction
src/lib/scroll16.c: sword qq; //scroll offset
src/lib/scroll16.c: //x-=4;
src/lib/scroll16.c: //up
src/lib/scroll16.c: // right
src/lib/scroll16.c: //down
src/lib/scroll16.c: //left
src/lib/scroll16.c: //copy old bg to page0
src/lib/scroll16.c: //modexCopyPageRegion(pip[3].page, pip[0].page, bx, by, 0, 0, 20, 36);
src/lib/scroll16.c: //update buffer
src/lib/scroll16.c: //modexCopyPageRegion(pip[0].page, pip[3].page, 0, 0, x, y, 20, 36);
src/lib/scroll16.c://modexCopyPageRegion(page_t *dest, page_t *src, word sx, word sy, word dx, word dy, word width, word height);
src/lib/scroll16.c: //modexCopyPageRegion(pip[3].page, pip[!(pip->video->p)].page, x-4, y-4, 0, 128, 28, 36);
src/lib/scroll16.c:// else modexCopyPageRegion(pip[1].page, pip[0].page, x-4, y-4, x-4, y-4, 28, 40);
src/lib/scroll16.c:// if(2>ls && ls>=1) { FRAME1 }else
src/lib/scroll16.c:// if(3>ls && ls>=2) { FRAME2 }else
src/lib/scroll16.c:// if(4>ls && ls>=3) { FRAME3 }else
src/lib/scroll16.c:// if(5>ls && ls>=4) { FRAME4 }
src/lib/scroll16.c: //modexCopyPageRegion(pip[0].page, pip[3].page, 0, 0, x, y, 24, 32);
src/lib/scroll16.c: //printf("x=%d y=%d bx=%d by=%d\n", x, y, bx, by);
src/lib/scroll16.h: * along with this program. If not, see , or
src/lib/scroll16.h:#include "src/lib/mapread.h" //map is loaded here www
src/lib/scroll16.h://#include "src/lib/16_map.h" //new map stuff
src/lib/scroll16.h://#define TILERENDER
src/lib/scroll16.h://modexDrawSpritePBufRegion
src/lib/scroll16.h://modexDrawBmpPBufRegion
src/lib/scroll16.h: int tx; //appears to be the top left tile position on the viewable screen map
src/lib/scroll16.h: int ty; //appears to be the top left tile position on the viewable screen map
src/lib/scroll16.h: word dxThresh; //????
src/lib/scroll16.h: word dyThresh; //????
src/lib/scroll16.h: video_t *video; //pointer to game variables of the video
src/lib/scroll16.h: pan_t *pan; //pointer the the page panning debug system
src/lib/scroll16.h://for null map!
src/lib/scroll16.h://map_t allocMap(int w, int h);
src/lib/scroll16.h://void initMap(map_t *map);
src/lib/scroll16.h://void qclean();
src/lib/typdefst.h: * along with this program. If not, see , or
src/lib/typdefst.h: int dx, dy; //backwards compait
src/lib/typdefst.h: word delta; // How much should we shift the page for smooth scrolling
src/lib/typdefst.h: enum direction d; // Direction we should shift the page
src/lib/typdefst.h: //sprite ....
src/lib/typdefst.h: //vrs with sprite ....
src/lib/typdefst.h: dword tiku; //frames passed
src/lib/typdefst.h: word clock_start; //timer start
src/lib/typdefst.h: word *clock; //current time on clock
src/lib/typdefst.h: boolean fpscap; //cap the fps var
src/lib/typdefst.h://video
src/lib/typdefst.h:#define NUMCHUNKS 416 //keen
src/lib/typdefst.h: char old_mode; //old video mode before game!
src/lib/typdefst.h: page_t page[MAXPAGE]; //pointer to root page[0]
src/lib/typdefst.h: word vmem_remain; //remaining video memory
src/lib/typdefst.h: byte num_of_pages; //number of actual pages
src/lib/typdefst.h: boolean __near p; //render page number
src/lib/typdefst.h: boolean __near r; //page flip if true
src/lib/typdefst.h: word pr[MAXPAGE][4]; //render sections of pages
src/lib/typdefst.h: //0000word startclk; float clk, tickclk; //timer
src/lib/typdefst.h://from 16_mm
src/lib/typdefst.h://==========================================================================
src/lib/typdefst.h: //word start; dword length;
src/lib/typdefst.h: word blob; //for data larger than 64k
src/lib/typdefst.h: memptr *useptr; // pointer to the segment start
src/lib/typdefst.h: //huge struct mmblockstruct huge *next;
src/lib/typdefst.h:// boolean PMStarted, MainPresent, EMSPresent, XMSPresent;
src/lib/typdefst.h: //huge void huge *farheap;
src/lib/typdefst.h: //dword numUMBs,UMBbase[MAXUMBS];
src/lib/typdefst.h: //huge mmblocktype huge mmblocks[MAXBLOCKS],huge *mmhead,huge *mmfree,huge *mmrover,huge *mmnew;
src/lib/typdefst.h://==========================================================================
src/lib/typdefst.h://from 16_pm
src/lib/typdefst.h://==========================================================================
src/lib/typdefst.h:// NOTE! PMPageSize must be an even divisor of EMSPageSize, and >= 1024
src/lib/typdefst.h:#define PMMinMainMem 10 // Min acceptable # of pages from main
src/lib/typdefst.h:#define PMMaxMainMem 100 // Max number of pages in main memory
src/lib/typdefst.h:#define PMThrashThreshold 1 // Number of page thrashes before panic mode
src/lib/typdefst.h:#define PMUnThrashThreshold 5 // Number of non-thrashing frames before leaving panic mode
src/lib/typdefst.h: dword offset; // Offset of chunk into file
src/lib/typdefst.h: word length; // Length of the chunk
src/lib/typdefst.h: int xmsPage; // If in XMS, (xmsPage * PMPageSize) gives offset into XMS handle
src/lib/typdefst.h: PMLockType locked; // If set, this page can't be purged
src/lib/typdefst.h: int emsPage; // If in EMS, logical page/offset into page
src/lib/typdefst.h: int mainPage; // If in Main, index into handle array
src/lib/typdefst.h: dword lastHit; // Last frame number of hit
src/lib/typdefst.h: int baseEMSPage; // Base EMS page for this phys frame
src/lib/typdefst.h: dword lastHit; // Last frame number of hit
src/lib/typdefst.h:// Main Mem specific variables
src/lib/typdefst.h:// EMS specific variables
src/lib/typdefst.h:// XMS specific variables
src/lib/typdefst.h: word XMSAvail,XMSPagesAvail,XMSHandle;//,XMSVer;
src/lib/typdefst.h: int XMSProtectPage;// = -1;
src/lib/typdefst.h:// File specific variables
src/lib/typdefst.h: char PageFileName[13];// = {"VSWAP."};
src/lib/typdefst.h: int PageFile;// = -1;
src/lib/typdefst.h:// General usage variables
src/lib/typdefst.h://==========================================================================
src/lib/typdefst.h://from 16_ca
src/lib/typdefst.h://==========================================================================
src/lib/typdefst.h:#define NUMMAPS 4//39
src/lib/typdefst.h: word bit0,bit1; // 0-255 is a character, > is a pointer to a node
src/lib/typdefst.h: int maphandle[4]; // handle to MAPTEMP / GAMEMAPS
src/lib/typdefst.h: ca_handle_t file; //files to open
src/lib/typdefst.h://==========================================================================
src/lib/typdefst.h://actual global game varables!
src/lib/typdefst.h: video_t video; // video settings variable
src/lib/typdefst.h: ca_t ca; // ca stuff
src/lib/typdefst.h: pm_t pm; // pm stuff
src/lib/typdefst.h: loghandle_t handle; //handles for file logging
src/lib/typdefst.h: kurokku_t kurokku; //clock struct
src/lib/types.h: * along with this program. If not, see , or
src/lib/types.h://typedef unsigned short _seg; // it will contains segment value (as Borland _seg)
src/lib/types.h://typedef void _seg * memptr;
src/lib/types.h:typedef void _seg * memptr;//typedef void __based( void ) * memptr; ////old //----typedef void __based(__self) * memptr;
src/lib/xms.c: * Documentation on the XMS API was found on http://www.qzx.com/pc-gpe/xms30.txt
src/lib/xms.c: //fprintf(stream, "XMS Version number: %d\n", XMSVersionNumber);
src/lib/xms.c: //fprintf(stream, "Largest available block: %d kB (%d kB total)\n", XMSLargestBlock, XMSTotal);
src/lib/zcroll16.c: * along with this program. If not, see , or
src/lib/zcroll16.c: // Assume everything crosses at most 1 tile at once
src/lib/zcroll16.c: return dx && 1;//crossable_tile(x + dx, map_v) || dy && crossable_tile(y + dy, map_v);
src/lib/zcroll16.c: // Allow movement
src/lib/zcroll16.c: // Set speed
src/lib/zcroll16.c: // Start animation
src/lib/zcroll16.c: // Mark next tile as occupied
src/lib/zcroll16.c: // Mark this tile as vacant
src/lib/zcroll16.c: // (Un)load stuff?
src/lib/zcroll16.c:// bitmap_t bp;
src/lib/zcroll16.c: //check for failed to load map
src/lib/zcroll16.c: //initiate a null map!
src/lib/zcroll16.c: map->width=MAPW;///2;
src/lib/zcroll16.c: map->height=MAPH;///2;
src/lib/zcroll16.c:// map->data = malloc(((map->width*map->height)+1)*sizeof(byte));
src/lib/zcroll16.c: //fix this to be far~
src/lib/zcroll16.c:// bp = bitmapLoadPcx("data/ed.pcx");
src/lib/zcroll16.c:// map->tiles->data = &bp;
src/lib/zcroll16.c://TODO: player position here
src/lib/zcroll16.c: //if(i==0) i=2;
src/lib/zcroll16.c: //wwww
src/lib/zcroll16.c: modexClearRegion(page, x, y, t->tileWidth, t->tileHeight, 0); //currently the over scan color!
src/lib/zcroll16.c:////0000printf("i=%d\n", i);
src/lib/zcroll16.c: //modexprint(page, x, y, 1, 15, 0, (char const *)(t->debug_data[i]));
src/lib/zcroll16.c: //draw_vrl1_vgax_modex(x-rx,y-ry,vrl_header,vrl_lineoffs,buffer+sizeof(*vrl_header),bufsz-sizeof(*vrl_header));
src/lib/zcroll16.c: //modexDrawBmpRegion (page, x, y, rx, ry, t->tileWidth, t->tileHeight, (t->data));
src/lib/zcroll16.c: //modexprintbig(page, x, y, 1, 15, 0, (t->debug_data));
src/lib/zcroll16.c:// modexprint(page, x+(textx*8), y+(texty*8), 1, (word)(t->debug_data), 0, (t->debug_data));
src/lib/zcroll16.c: word x = (0) + gv->video.page[/*!*/(gv->video.p)].dx; // follow the screen
src/lib/zcroll16.c: word y = (0) + gv->video.page[/*!*/(gv->video.p)].dy; // follow the screen
src/lib/zcroll16.c: //modexClearRegion(&(gv->video.page[shinku_fps_indicator_page]), x, y, w, h, 45);
src/lib/zcroll16.c: }else //copy dat sheet
src/lib/zcroll16.c: //turn this off if XT
src/lib/zcroll16.c: sword bx = x+16; //buffer's x
src/lib/zcroll16.c: sword by = y+16; //buffer's y
src/lib/zcroll16.c: word dire=32; //direction
src/lib/zcroll16.c: sword qq; //scroll offset
src/lib/zcroll16.c: //x-=4;
src/lib/zcroll16.c: //y-=pip->map->tiles->tileHeight;
src/lib/zcroll16.c: //up
src/lib/zcroll16.c: // right
src/lib/zcroll16.c: //down
src/lib/zcroll16.c: //left
src/lib/zcroll16.c: //copy old bg to page0
src/lib/zcroll16.c: //modexCopyPageRegion(pip[3].page, pip[0].page, bx, by, 0, 0, 20, 36);
src/lib/zcroll16.c: //update buffer
src/lib/zcroll16.c: //modexCopyPageRegion(pip[0].page, pip[3].page, 0, 0, x, y, 20, 36);
src/lib/zcroll16.h: * along with this program. If not, see , or
src/lib/zcroll16.h://#include "src/lib/bakapee.h"
src/lib/zcroll16.h://#include "src/lib/16_in.h"
src/lib/zcroll16.h:#include "src/lib/16_map.h" //map is loaded here www
src/lib/zcroll16.h://#define TILERENDER
src/lib/zcroll16.h://modexDrawSpritePBufRegion
src/lib/zcroll16.h://modexDrawBmpPBufRegion
src/lib/zcroll16.h: int tx; //appears to be the top left tile position on the viewable screen map
src/lib/zcroll16.h: int ty; //appears to be the top left tile position on the viewable screen map
src/lib/zcroll16.h: word dxThresh; //Threshold for physical tile switch
src/lib/zcroll16.h: word dyThresh; //Threshold for physical tile switch
src/lib/zcroll16.h: video_t *video; //pointer to game variables of the video
src/lib/zcroll16.h: pan_t *pan; //pointer the the page panning debug system
src/lib/zcroll16.h:// Move an entity around. Should actually be in 16_entity
src/lib/zcroll16.h:// Move player around and call map scrolling if required/possible
src/lib/zcroll16.h:// Scroll map in one direction (assumed from player's movement)
src/lib/zcroll16.h://void qclean();