hmmm layers in map_t ....

[proj16/16.git] / src / lib / 16_vl.c

/* Project 16 Source Code~\r
 * Copyright (C) 2012-2017 sparky4 & pngwen & andrius4669 & joncampbell123 & yakui-lover\r
 *\r
 * This file is part of Project 16.\r
 *\r
 * Project 16 is free software; you can redistribute it and/or modify\r
 * it under the terms of the GNU General Public License as published by\r
 * the Free Software Foundation; either version 3 of the License, or\r
 * (at your option) any later version.\r
 *\r
 * Project 16 is distributed in the hope that it will be useful,\r
 * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the\r
 * GNU General Public License for more details.\r
 *\r
 * You should have received a copy of the GNU General Public License\r
 * along with this program.  If not, see <http://www.gnu.org/licenses/>, or\r
 * write to the Free Software Foundation, Inc., 51 Franklin Street,\r
 * Fifth Floor, Boston, MA 02110-1301 USA.\r
 *\r
 */\r
\r
#include <conio.h>\r
#include <stdio.h>\r
#include <stdlib.h>\r
#include "src/lib/16_vl.h"\r
\r
byte far* VGA=(byte far*) 0xA0000000;   /* this points to video memory. */\r
\r
static void fadePalette(sbyte fade, sbyte start, word iter, byte *palette);\r
static byte tmppal[PAL_SIZE];\r
\r
/////////////////////////////////////////////////////////////////////////////\r
//                                                                                                                                                                                                                                              //\r
// setvideo() - This function Manages the video modes                                                                                           //\r
//                                                                                                                                                                                                                                              //\r
/////////////////////////////////////////////////////////////////////////////\r
void VGAmodeX(sword vq, boolean cmem, global_game_variables_t *gv)\r
{\r
        union REGS in, out;\r
\r
        switch (vq)\r
        {\r
                case 0: // deinit the video\r
                        // change to the video mode we were in before we switched to mode 13h\r
                        modexLeave();\r
                        in.h.ah = 0x00;\r
                        in.h.al = gv->video.old_mode;\r
                        int86(0x10, &in, &out);\r
                break;\r
                default: // init the video\r
                        // get old video mode\r
                        //in.h.ah = 0xf;\r
                        //int86(0x10, &in, &out);\r
                        gv->video.old_mode = vgaGetMode();//out.h.al;\r
                        // enter mode\r
                        modexEnter(vq, cmem, gv);\r
                break;\r
        }\r
}\r
\r
static void\r
vgaSetMode(byte mode)\r
{\r
        union REGS regs;\r
\r
        regs.h.ah = SET_MODE;\r
        regs.h.al = mode;\r
        int86(VIDEO_INT, &regs, &regs);\r
  //int10_setmode(mode);\r
}\r
\r
//---------------------------------------------------\r
//\r
// Use the bios to get the current video mode\r
//\r
\r
byte/*FIXME: why long? "long" is 32-bit datatype, VGA modes are 8-bit numbers. */\r
vgaGetMode()\r
{\r
        return int10_getmode();\r
}\r
\r
/* -========================= Entry  Points ==========================- */\r
void modexEnter(sword vq, boolean cmem, global_game_variables_t *gv)\r
{\r
        word i;\r
        struct vga_mode_params cm;\r
        //int CRTParmCount;\r
\r
        vgaSetMode(VGA_256_COLOR_MODE);\r
        vga_enable_256color_modex();\r
\r
        update_state_from_vga();\r
        vga_read_crtc_mode(&cm);\r
\r
        /* reprogram the CRT controller */\r
        //outp(CRTC_INDEX, 0x11); /* VSync End reg contains register write prot */\r
        //outp(CRTC_DATA, 0x7f);  /* get current write protect on varios regs */\r
\r
        switch(vq)\r
        {\r
                case 1:\r
                        //CRTParmCount = sizeof(ModeX_320x240regs) / sizeof(ModeX_320x240regs[0]);\r
                        /*for(i=0; i<CRTParmCount; i++) {\r
                                outpw(CRTC_INDEX, ModeX_320x240regs[i]);\r
                        }*/\r
                        /* width and height */\r
                        gv->video.page[0].sw = vga_state.vga_width = 320; // VGA lib currently does not update this\r
                        gv->video.page[0].sh = vga_state.vga_height = 240; // VGA lib currently does not update this\r
                        /* virtual width and height. match screen, at first */\r
                        gv->video.page[0].height = gv->video.page[0].sh;\r
                        gv->video.page[0].width = gv->video.page[0].sw;\r
\r
                        // mode X BYTE mode\r
                        cm.word_mode = 0;\r
                        cm.dword_mode = 0;\r
                        // 320x240 mode 60Hz\r
                        cm.horizontal_total=0x5f + 5; /* CRTC[0]                         -5 */\r
                        cm.horizontal_display_end=0x4f + 1; /* CRTC[1]     -1 */\r
                        cm.horizontal_blank_start=0x50 + 1; /* CRTC[2] */\r
//                      cm.horizontal_blank_end=0x82 + 1;   /* CRTC[3] bit 0-4 & CRTC[5] bit 7 *///skewing ^^;\r
                        cm.horizontal_start_retrace=0x54;/* CRTC[4] */\r
                        cm.horizontal_end_retrace=0x80; /* CRTC[5] bit 0-4 */\r
                        //cm.horizontal_start_delay_after_total=0x3e; /* CRTC[3] bit 5-6 */\r
                        //cm.horizontal_start_delay_after_retrace=0x41; /* CRTC[5] bit 5-6 */\r
                        cm.vertical_total = 0x20D + 2;\r
                        cm.vertical_start_retrace = 0x1EA;\r
                        cm.vertical_end_retrace = 0x1EC;\r
                        cm.vertical_display_end = 480;\r
                        cm.vertical_blank_start = 0x1E7 + 1;\r
                        cm.vertical_blank_end = 0x206 + 1;\r
                        cm.clock_select = 0; /* misc register = 0xE3  25MHz */\r
                        cm.vsync_neg = 1;\r
                        cm.hsync_neg = 1;\r
                        cm.offset = (vga_state.vga_width / (4 * 2)); // 320 wide (40 x 4 pixel groups x 2)\r
                        break;\r
                case 2: // TODO: 160x120 according to ModeX_160x120regs\r
                        return;\r
                case 3: // TODO: 160x120 according to ModeX_320x200regs\r
                        return;\r
                case 4: // TODO: 160x120 according to ModeX_192x144regs\r
                        return;\r
                case 5: // TODO: 160x120 according to ModeX_256x192regs\r
                        return;\r
                default:\r
                        return;\r
        }\r
\r
        vga_state.vga_stride = cm.offset * 2;\r
        vga_write_crtc_mode(&cm,0);\r
\r
        /* clear video memory */\r
        switch (cmem)\r
        {\r
                case 1: {\r
                        /* clear video memory */\r
                        dword far*ptr=(dword far*)vga_state.vga_graphics_ram;//VGA;       /* used for faster screen clearing */\r
                        vga_write_sequencer(2/*map mask register*/,0xf/*all 4 planes*/);\r
                        for(i = 0;i < 0x4000; i++) ptr[i] = 0x0000; // 0x4000 x dword = 64KB\r
                        /* fix up the palette and everything */\r
                        modexPalBlack();        //reset the palette~\r
                }\r
                break;\r
        }\r
}\r
\r
void\r
modexLeave() {\r
        /* VGAmodeX restores original mode and palette */\r
        vgaSetMode(TEXT_MODE);\r
}\r
\r
page_t\r
modexDefaultPage(page_t *p)\r
{\r
        page_t page;\r
\r
        /* default page values */\r
        //page.data = VGA;\r
        //page.data = (byte far *)(vga_state.vga_graphics_ram);\r
        page.data = (vga_state.vga_graphics_ram);\r
        page.dx = 0;\r
        page.dy = 0;\r
        page.sw = p->sw;\r
        page.sh = p->sh;\r
        page.width = p->sw+TILEWHD;\r
        page.height = p->sh+TILEWHD;\r
        page.ti.tw = page.sw/TILEWH;\r
        page.ti.th = page.sh/TILEWH;\r
        page.ti.tilesw=page.width/TILEWH;\r
        page.ti.tilesh=page.height/TILEWH;\r
        page.ti.tilemidposscreenx = page.ti.tw/2;\r
        page.ti.tilemidposscreeny = (page.ti.th/2)+1;\r
        page.stridew=page.width/4;\r
        page.pagesize = (word)(page.stridew)*page.height;\r
        page.pi=page.width*4;\r
        page.id = 0;\r
\r
        return page;\r
}\r
\r
/* returns the next page in contiguous memory\r
 * the next page will be the same size as p, by default\r
 */\r
page_t\r
modexNextPage(page_t *p) {\r
        page_t result;\r
\r
        result.data = p->data + (p->pagesize);\r
        result.dx = p->dx;      // not used anymore we use page[0].dx\r
        result.dy = p->dy;      // not used anymore we use page[0].dy\r
        result.sw = p->sw;\r
        result.sh = p->sh;\r
        result.width = p->width;\r
        result.height = p->height;\r
        result.ti.tw = p->ti.tw;\r
        result.ti.th = p->ti.th;\r
        result.ti.tilesw = p->ti.tilesw;\r
        result.ti.tilesh = p->ti.tilesh;\r
        result.stridew=p->stridew;\r
        result.pagesize = p->pagesize;\r
        result.pi=result.width*4;\r
        result.id = p->id+1;\r
\r
        return result;\r
}\r
\r
//next page with defined dimentions~\r
page_t\r
modexNextPageFlexibleSize(page_t *p, word x, word y)\r
{\r
        page_t result;\r
\r
        result.data = p->data + (p->pagesize);  /* compute the offset */\r
        result.dx = 0;  // not used anymore we use page[0].dx\r
        result.dy = 0;  // not used anymore we use page[0].dy\r
        result.sw = x;\r
        result.sh = y;\r
        result.width = x;\r
        result.height = y;\r
        result.ti.tw = result.sw/TILEWH;\r
        result.ti.th = result.sh/TILEWH;\r
        result.ti.tilesw=result.width/TILEWH;\r
        result.ti.tilesh=result.height/TILEWH;\r
        result.id = p->id+1;\r
        result.stridew=result.width/4;//p->sw/4;\r
        result.pagesize = (word)(result.stridew)*result.height;\r
/*      switch(result.id)\r
        {\r
                case 2:\r
                        result.pi=p->width*4;\r
                break;\r
                case 3:\r
                        result.pi=p->pi;\r
                break;\r
        }*/\r
        result.pi=result.width*4;\r
\r
        return result;\r
}\r
\r
void modexCalcVmemRemain(video_t *video)\r
{\r
        byte i;\r
        //printf("\n\n  1st vmem_remain=%u\n", video->vmem_remain);\r
        for(i=0; i<video->num_of_pages; i++)\r
        {\r
                video->vmem_remain-=video->page[i].pagesize;\r
                //printf("              [%u], video->page[%u].pagesize=%u\n", i, i, video->page[i].pagesize);\r
                //printf("              [%u], vmem_remain=%u\n", i, video->vmem_remain);\r
        }\r
}\r
\r
void VL_Initofs(video_t *video)\r
{\r
        if(!video->bgps)\r
        {\r
                video->ofs.offscreen_ofs =      video->page[0].pagesize+video->page[1].pagesize;//(vga_state.vga_stride * vga_state.vga_height);\r
                video->ofs.pattern_ofs =        (uint16_t)video->page[2].data;\r
        }else{\r
                video->ofs.offscreen_ofs =      0;\r
                video->ofs.pattern_ofs =        0;//(uint16_t)video->page[0].data;\r
        }\r
}\r
\r
void modexHiganbanaPageSetup(video_t *video)\r
{\r
        video->vmem_remain=65535U;\r
        video->num_of_pages=0;\r
        (video->page[0]) = modexDefaultPage(&(video->page[0])); video->num_of_pages++;  //video->page[0].width += (TILEWHD); video->page[0].height += (TILEWHD);\r
        (video->page[1]) = modexNextPage(&(video->page[0]));    video->num_of_pages++;\r
//0000  (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), (video->page[0]).width, TILEWH*4);              video->num_of_pages++;\r
//0000  (video->page[3]) = (video->page[2]);            video->num_of_pages++;\r
////    (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), TILEWH*4, TILEWH*4);            video->num_of_pages++;\r
////    (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), video->page[0].sw, 208);        video->num_of_pages++;\r
        (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), video->page[0].width, 96);      video->num_of_pages++;\r
        (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), video->page[0].width, 96);      video->num_of_pages++;\r
        modexCalcVmemRemain(video);\r
\r
        video->sp=video->p =    0;      //showpage\r
        video->dorender =       1;                      //render\r
        video->vh=video->page[0].height+video->page[1].height+video->page[2].height+video->page[3].height;\r
\r
        VL_Initofs(video);\r
        //doslib origi var\r
        video->omemptr=                 vga_state.vga_graphics_ram;\r
        video->vga_draw_stride= vga_state.vga_draw_stride;\r
        video->vga_draw_stride_limit=   vga_state.vga_draw_stride_limit;\r
        //sprite render switch and bgpreservation switch\r
        video->rss=             1;\r
        video->bgps=    1;\r
\r
        //setup the buffersize\r
        video->page[0].dx=video->page[0].dy=\r
                video->page[1].dx=video->page[1].dy=TILEWH;     // 1 tile size buffer\r
        video->page[2].dx=video->page[2].dy=\r
                video->page[3].dx=video->page[3].dy=0;          // cache pages are buffer wwww\r
}\r
\r
//\r
// move page to appropriate part and show it\r
//\r
void\r
modexShowPage(page_t *page) {\r
        word high_address, low_address, offset;\r
        byte crtcOffset;\r
\r
        /* calculate offset */\r
        offset = (word) page->data;\r
        offset += page[0].dy * (page->width >> 2 );\r
        offset += page[0].dx >> 2;\r
\r
        /* calculate crtcOffset according to virtual width */\r
        crtcOffset = page->width >> 3;\r
\r
        high_address = HIGH_ADDRESS | (offset & 0xff00);\r
        low_address  = LOW_ADDRESS  | (offset << 8);\r
\r
        /* wait for appropriate timing and then program CRTC */\r
//+=+=                                                                          while ((inp(INPUT_STATUS_1) & DISPLAY_ENABLE));\r
        outpw(CRTC_INDEX, high_address);\r
        outpw(CRTC_INDEX, low_address);\r
        outp(CRTC_INDEX, 0x13);\r
        outp(CRTC_DATA, crtcOffset);\r
\r
        /* wait for one retrace */\r
//+=+=                                                                          while (!(inp(INPUT_STATUS_1) & VRETRACE));\r
\r
        /* do PEL panning here */\r
        outp(AC_INDEX, 0x33);\r
        outp(AC_INDEX, (page[0].dx & 0x03) << 1);\r
}\r
\r
//args: page, vertical sync switch, screen resolution switch, page0 switch\r
void\r
VL_ShowPage(page_t *page, boolean vsync, boolean sr) {\r
        word high_address, low_address, offset;\r
        byte crtcOffset;\r
\r
        // calculate offset\r
        offset = (word) page->data;\r
        offset += page->dy * (page->width >> 2 );\r
        offset += page->dx >> 2;\r
\r
        // calculate crtcOffset according to virtual width\r
        switch(sr)\r
        {\r
                case 1:\r
                        crtcOffset = page->sw >> 3;\r
                break;\r
                default:\r
                case 0:\r
                        crtcOffset = page->width >> 3;\r
                break;\r
        }\r
\r
        high_address = HIGH_ADDRESS | (offset & 0xff00);\r
        low_address  = LOW_ADDRESS  | (offset << 8);\r
\r
        // wait for appropriate timing and then program CRTC\r
        if(vsync) while ((inp(INPUT_STATUS_1) & DISPLAY_ENABLE));\r
        outpw(CRTC_INDEX, high_address);\r
        outpw(CRTC_INDEX, low_address);\r
        outp(CRTC_INDEX, 0x13);\r
        outp(CRTC_DATA, crtcOffset);\r
\r
        // wait for one retrace\r
        if(vsync) while (!(inp(INPUT_STATUS_1) & VRETRACE));\r
\r
        // do PEL panning here\r
        outp(AC_INDEX, 0x33);\r
        outp(AC_INDEX, (page->dx & 0x03) << 1);\r
        vga_state.vga_graphics_ram = (VGA_RAM_PTR)page->data;\r
}\r
\r
//=============================================================================\r
\r
void\r
modexPanPage(page_t *page, int dx, int dy) {\r
        page[0].dx = dx;\r
        page[0].dy = dy;\r
}\r
\r
void\r
modexSelectPlane(byte plane) {\r
        outp(SC_INDEX, MAP_MASK);         /* select plane */\r
        outp(SC_DATA,  plane);\r
}\r
\r
void\r
modexClearRegion(page_t *page, int x, int y, int w, int h, byte  color) {\r
        word pageOff = (word) page->data;\r
        word xoff=x/4;     /* xoffset that begins each row */\r
        word scanCount=w/4;  /* number of iterations per row (excluding right clip)*/\r
        word poffset = pageOff + y*(page->stridew) + xoff; /* starting offset */\r
        word nextRow = page->stridew-scanCount-1;  /* loc of next row */\r
        byte lclip[] = {0x0f, 0x0e, 0x0c, 0x08};  /* clips for rectangles not on 4s */\r
        byte rclip[] = {0x00, 0x01, 0x03, 0x07};\r
        byte left = lclip[x&0x03];\r
        byte right = rclip[(x+w)&0x03];\r
\r
        /* handle the case which requires an extra group */\r
        if((x & 0x03) && !((x+w) & 0x03)) {\r
          right=0x0f;\r
        }\r
\r
        //printf("modexClearRegion(x=%u, y=%u, w=%u, h=%u, left=%u, right=%u)\n", x, y, w, h, left, right);\r
\r
        __asm {\r
                PUSHF\r
                PUSH ES\r
                PUSH AX\r
                PUSH BX\r
                PUSH CX\r
                PUSH DX\r
                PUSH SI\r
                PUSH DI\r
                MOV AX, SCREEN_SEG        ; go to the VGA memory\r
                MOV ES, AX\r
                MOV DI, poffset  ; go to the first pixel\r
                MOV DX, SC_INDEX        ; point to the map mask\r
                MOV AL, MAP_MASK\r
                OUT DX, AL\r
                INC DX\r
                MOV AL, color      ; get ready to write colors\r
        SCAN_START:\r
                MOV CX, scanCount          ; count the line\r
                MOV BL, AL                ; remember color\r
                MOV AL, left            ; do the left clip\r
                OUT DX, AL                ; set the left clip\r
                MOV AL, BL                ; restore color\r
                STOSB              ; write the color\r
                DEC CX\r
                JZ SCAN_DONE            ; handle 1 group stuff\r
\r
                ;-- write the main body of the scanline\r
                MOV BL, AL                ; remember color\r
                MOV AL, 0x0f            ; write to all pixels\r
                OUT DX, AL\r
                MOV AL, BL                ; restore color\r
                REP STOSB                  ; write the color\r
        SCAN_DONE:\r
                MOV BL, AL                ; remeber color\r
                MOV AL, right\r
                OUT DX, AL                ; do the right clip\r
                MOV AL, BL                ; restore color\r
                STOSB              ; write pixel\r
                ADD DI, nextRow  ; go to the next row\r
                DEC h\r
                JNZ SCAN_START\r
                POP DI\r
                POP SI\r
                POP DX\r
                POP CX\r
                POP BX\r
                POP AX\r
                POP ES\r
                POPF\r
        }\r
}\r
\r
/* moved to src/lib/modex16/16render.c */\r
\r
/* copy a region of video memory from one page to another.\r
 * It assumes that the left edge of the tile is the same on both\r
 * regions and the memory areas do not overlap.\r
 */\r
void\r
modexCopyPageRegion(page_t *dest, page_t *src,\r
                        word sx, word sy,\r
                        word dx, word dy,\r
                        word width, word height)\r
{\r
        word doffset = (word)dest->data + dy*(dest->stridew) + dx/4;\r
        word soffset = (word)src->data + sy*(src->stridew) + sx/4;\r
        word scans   = vga_state.vga_stride;                            //++++0000 the quick and dirty fix of the major issue with p16 video display wwww\r
        word nextSrcRow = src->stridew - scans - 1;\r
        word nextDestRow = dest->stridew - scans - 1;\r
        byte lclip[] = {0x0f, 0x0e, 0x0c, 0x08};  /* clips for rectangles not on 4s */\r
        byte rclip[] = {0x00, 0x01, 0x03, 0x07};\r
        byte left = lclip[sx&0x03];\r
        byte right = rclip[(sx+width)&0x03];\r
\r
        /* handle the case which requires an extra group */\r
        if((sx & 0x03) && !((sx+width) & 0x03)) {\r
                right=0x0f;\r
        }\r
\r
//      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);\r
\r
        __asm {\r
                PUSHF\r
                PUSH ES\r
                PUSH AX\r
                PUSH BX\r
                PUSH CX\r
                PUSH DX\r
                PUSH SI\r
                PUSH DI\r
\r
                MOV AX, SCREEN_SEG        ; work in the vga space\r
                MOV ES, AX                ;\r
                MOV DI, doffset  ;\r
                MOV SI, soffset  ;\r
\r
                MOV DX, GC_INDEX        ; turn off cpu bits\r
                MOV AX, 0008h      ;\r
                OUT DX, AX\r
\r
                MOV AX, SC_INDEX        ; point to the mask register\r
                MOV DX, AX                ;\r
                MOV AL, MAP_MASK        ;\r
                OUT DX, AL                ;\r
                INC DX            ;\r
\r
        ROW_START:\r
                PUSH DS\r
                MOV AX, ES\r
                MOV DS, AX\r
                MOV CX, scans      ; the number of latches\r
\r
                MOV AL, left            ; do the left column\r
                OUT DX, AL                ;\r
                MOVSB              ;\r
                DEC CX            ;\r
\r
                MOV AL, 0fh              ; do the inner columns\r
                OUT DX, AL\r
                REP MOVSB                  ; copy the pixels\r
\r
                MOV AL, right      ; do the right column\r
                OUT DX, AL\r
                MOVSB\r
                POP DS\r
\r
                MOV AX, SI                ; go the start of the next row\r
                ADD AX, nextSrcRow        ;\r
                MOV SI, AX                ;\r
                MOV AX, DI                ;\r
                ADD AX, nextDestRow      ;\r
                MOV DI, AX                ;\r
\r
                DEC height                ; do the rest of the actions\r
                JNZ ROW_START      ;\r
\r
                MOV DX, GC_INDEX+1        ; go back to CPU data\r
                MOV AL, 0ffh            ; none from latches\r
                OUT DX, AL                ;\r
\r
                POP DI\r
                POP SI\r
                POP DX\r
                POP CX\r
                POP BX\r
                POP AX\r
                POP ES\r
                POPF\r
        }\r
}\r
\r
\r
/* fade and flash */\r
void\r
modexFadeOn(word fade, byte *palette) {\r
        fadePalette(-fade, 64, 64/fade+1, palette);\r
}\r
\r
\r
void\r
modexFadeOff(word fade, byte *palette) {\r
        fadePalette(fade, 0, 64/fade+1, palette);\r
}\r
\r
\r
void\r
modexFlashOn(word fade, byte *palette) {\r
        fadePalette(fade, -64, 64/fade+1, palette);\r
}\r
\r
\r
void\r
modexFlashOff(word fade, byte *palette) {\r
        fadePalette(-fade, 0, 64/fade+1, palette);\r
}\r
\r
\r
static void\r
fadePalette(sbyte fade, sbyte start, word iter, byte *palette) {\r
        word i;\r
        byte dim = start;\r
\r
        /* handle the case where we just update */\r
        if(iter == 0) {\r
        modexPalUpdate(palette);\r
        return;\r
        }\r
\r
        while(iter > 0) {  /* FadeLoop */\r
        for(i=0; i<PAL_SIZE; i++) { /* loadpal_loop */\r
                tmppal[i] = palette[i] - dim;\r
                if(tmppal[i] > 127) {\r
                tmppal[i] = 0;\r
                } else if(tmppal[i] > 63) {\r
                tmppal[i] = 63;\r
                }\r
        }\r
        modexPalUpdate(tmppal);\r
        iter--;\r
        dim += fade;\r
        }\r
}\r
\r
\r
/* save and load */\r
void\r
modexPalSave(byte *palette) {\r
        int  i;\r
\r
        outp(PAL_READ_REG, 0);    /* start at palette entry 0 */\r
        for(i=0; i<PAL_SIZE; i++) {\r
        palette[i] = inp(PAL_DATA_REG); /* read the palette data */\r
        }\r
}\r
\r
\r
byte *\r
modexNewPal() {\r
        byte *ptr;\r
        ptr = malloc(PAL_SIZE);\r
\r
        /* handle errors */\r
        if(!ptr) {\r
                printf("Could not allocate palette.\n");\r
        }\r
\r
        return ptr;\r
}\r
\r
\r
void\r
modexLoadPalFile(byte *filename, byte **palette) {\r
        FILE *file;\r
        byte *ptr;\r
\r
        /* free the palette if it exists */\r
        if(*palette) {\r
        free(*palette);\r
        }\r
\r
        /* allocate the new palette */\r
        *palette = modexNewPal();\r
\r
        /* open the file */\r
        file = fopen(filename, "rb");\r
        if(!file) {\r
        printf("Could not open palette file: %s\n", filename);\r
        }\r
\r
        /* read the file */\r
        ptr = *palette;\r
        while(!feof(file)) {\r
        *ptr++ = fgetc(file);\r
        }\r
\r
        fclose(file);\r
}\r
\r
\r
void VL_LoadPalFile(const char *filename, byte *palette)\r
{\r
        VL_LoadPalFilewithoffset(filename, palette, 0);\r
}\r
\r
void VL_LoadPalFilewithoffset(const char *filename, byte *palette, word o)\r
{\r
        int fd;\r
\r
        fd = open(filename,O_RDONLY|O_BINARY);\r
        if (fd >= 0) {\r
                read(fd,palette,        PAL_SIZE);\r
                close(fd);\r
\r
                VL_UpdatePaletteWrite(palette, o);\r
        }\r
}\r
\r
void VL_UpdatePaletteWrite(byte *palette, word o)\r
{\r
        word i;\r
        vga_palette_lseek(/*1+*/o);\r
        for (i=o;i < 256-o;i++) vga_palette_write(palette[(i*3)+0]>>2,palette[(i*3)+1]>>2,palette[(i*3)+2]>>2);\r
}\r
\r
void\r
modexSavePalFile(char *filename, byte *pal) {\r
        //unsigned int i;\r
        FILE *file;\r
\r
        /* open the file for writing */\r
        file = fopen(filename, "wb");\r
        if(!file) {\r
        printf("Could not open %s for writing\n", filename);\r
        }\r
\r
        /* write the data to the file */\r
        fwrite(pal, 1, PAL_SIZE, file);\r
        fclose(file);\r
}\r
\r
\r
/* blanking */\r
void\r
modexPalBlack() {\r
        fadePalette(-1, 64, 1, tmppal);\r
}\r
\r
\r
void\r
modexPalWhite() {\r
        fadePalette(-1, -64, 1, tmppal);\r
}\r
\r
\r
/* utility */\r
//moved to 16_vlpal.c\r
\r
void\r
modexPalUpdate(byte *p)\r
{\r
        int i;\r
        //modexWaitBorder();\r
        vga_wait_for_vsync();\r
        outp(PAL_WRITE_REG, 0);  /* start at the beginning of palette */\r
        for(i=0; i<PAL_SIZE/2; i++)\r
        {\r
                outp(PAL_DATA_REG, p[i]);\r
        }\r
        //modexWaitBorder();      /* waits one retrace -- less flicker */\r
        vga_wait_for_vsync();\r
        for(; i<PAL_SIZE; i++)\r
        {\r
                outp(PAL_DATA_REG, p[(i)]);\r
        }\r
}\r
\r
void\r
modexPalUpdate0(byte *p)\r
{\r
        int i;\r
        //modexWaitBorder();\r
        vga_wait_for_vsync();\r
        outp(PAL_WRITE_REG, 0);  /* start at the beginning of palette */\r
        for(i=0; i<PAL_SIZE/2; i++)\r
        {\r
                outp(PAL_DATA_REG, rand());\r
        }\r
        //modexWaitBorder();      /* waits one retrace -- less flicker */\r
        vga_wait_for_vsync();\r
        for(; i<PAL_SIZE; i++)\r
        {\r
                outp(PAL_DATA_REG, rand());\r
        }\r
}\r
\r
void\r
modexPalOverscan(word col)\r
{\r
        //modexWaitBorder();\r
        vga_wait_for_vsync();\r
        outp(PAL_WRITE_REG, 0);  /* start at the beginning of palette */\r
        outp(PAL_DATA_REG, col);\r
}\r
\r
void modexputPixel(page_t *page, int x, int y, byte color)\r
{\r
        word pageOff = (word) page->data;\r
        /* Each address accesses four neighboring pixels, so set\r
           Write Plane Enable according to which pixel we want\r
           to modify.  The plane is determined by the two least\r
           significant bits of the x-coordinate: */\r
        modexSelectPlane(PLANE(x));\r
        //outp(SC_INDEX, 0x02);\r
        //outp(SC_DATA, 0x01 << (x & 3));\r
\r
        /* The offset of the pixel into the video segment is\r
           offset = (width * y + x) / 4, and write the given\r
           color to the plane we selected above.  Heed the active\r
           page start selection. */\r
        VGA[(unsigned)((page->width/4) * y) + (x / 4) + pageOff] = color;\r
\r
}\r
\r
byte modexgetPixel(page_t *page, int x, int y)\r
{\r
        word pageOff = (word) page->data;\r
        /* Select the plane from which we must read the pixel color: */\r
        outpw(GC_INDEX, 0x04);\r
        outpw(GC_INDEX+1, x & 3);\r
\r
        return VGA[(unsigned)((page->width/4) * y) + (x / 4) + pageOff];\r
\r
}\r
\r
void modexDrawChar(page_t *page, int x/*for planar selection only*/, word t, word col, word bgcol, word addr)\r
{\r
        /* vertical drawing routine by joncampbell123.\r
         *\r
         * optimize for VGA mode X planar memory to minimize the number of times we do I/O write to map mask register.\r
         * so, we enumerate over columns (not rows!) to draw every 4th pixel. bit masks are used because of the font bitmap.\r
         *\r
         * NTS: addr defines what VGA memory address we use, "x" is redundant except to specify which of the 4 pixels we select in the map mask register. */\r
        word rows = romFonts[t].charSize;\r
        word drawaddr;\r
        word colm, row;\r
        byte fontbyte;\r
        byte plane;\r
        byte m1,m2;\r
\r
        plane = x & 3;\r
        m1 = 0x80; // left half\r
        m2 = 0x08; // right half\r
        for (colm=0;colm < 4;colm++) {\r
                drawaddr = addr;\r
                modexSelectPlane(PLANE(plane));\r
                for (row=0;row < rows;row++) {\r
                        fontbyte = romFontsData.l[row];\r
                        vga_state.vga_graphics_ram[drawaddr  ] = (fontbyte & m1) ? col : bgcol;\r
                        vga_state.vga_graphics_ram[drawaddr+1] = (fontbyte & m2) ? col : bgcol;\r
                        drawaddr += page->width >> 2;\r
                }\r
\r
                m1 >>= 1;\r
                m2 >>= 1;\r
                if ((++plane) == 4) {\r
                        addr++;\r
                        plane = 0;\r
                }\r
        }\r
}\r
\r
void modexprint(page_t *page, sword x, sword y, word t, word col, word bgcol, const byte *str)\r
{\r
        word s, o, w;\r
        word x_draw;\r
        //word addr = (word) romFontsData.l;\r
        word addrq;\r
        word addrr;\r
        byte c;\r
\r
        x-=page->tlx; y-=page->tly;\r
        x_draw = x/4;\r
        addrq = (page->stridew) * y + (word)(x_draw) +\r
                ((word)page->data);\r
        addrr = addrq;\r
        s=romFonts[t].seg;\r
        o=romFonts[t].off;\r
        w=romFonts[t].charSize;\r
        romFontsData.chw=0;\r
\r
        for(; *str != '\0'; str++)\r
        {\r
                c = (*str);\r
                if(c=='\n')\r
                {\r
                        x = x_draw;\r
                        romFontsData.chw = 0;\r
                        addrq += (page->stridew) * 8;\r
                        addrr = addrq;\r
                        y += 8;\r
                        continue;\r
                }\r
\r
        // load the character into romFontsData.l\r
        // no need for inline assembly!\r
        // NTS: It might even be faster to just let the modexDrawChar point directly at ROM font than to copy per char! --J.C.\r
                _fmemcpy(romFontsData.l,MK_FP(s,o+(w*c))/*ROM font location*/,w/*char size*/);\r
                modexDrawChar(page, x_draw/*for mode X planar use*/, t, col, bgcol, addrr);\r
                x_draw += 8; /* track X for edge of screen */\r
                addrr += 2; /* move 8 pixels over (2 x 4 planar pixels per byte) */\r
        }\r
        //printf("print xy:%dx%d        tlxy:%dx%d\n", x, y, page->tlx, page->tly);\r
}\r
\r
void modexprintbig(page_t *page, word x, word y, word t, word col, word bgcol, const byte *str)\r
{\r
        word i, s, o, w, j, xp;\r
        byte l[1024];\r
        word addr = (word) l;\r
        word chw=0;\r
        byte c;\r
\r
        switch(t)\r
        {\r
                case 0:\r
                        w=14;\r
                break;\r
                case 1:\r
                        w=8;\r
                break;\r
                case 2:\r
                        w=8;\r
                break;\r
                case 3:\r
                        w=16;\r
                break;\r
                default:\r
                        t=3;\r
                        w=16;\r
                break;\r
        }\r
\r
        s=romFonts[t].seg;\r
        o=romFonts[t].off;\r
\r
        for(; *str != '\0'; str++)\r
        {\r
        c = (*str);\r
        if((c=='\n'/* || c=="\\r
"*/)/* || chw>=page->width*/)\r
        {\r
                chw=0;\r
                y+=w;\r
                continue;\r
        }\r
        //load the letter 'A'\r
        __asm {\r
                PUSHF\r
                PUSH ES\r
                PUSH AX\r
                PUSH BX\r
                PUSH CX\r
                PUSH DX\r
                PUSH SI\r
                PUSH DI\r
\r
                MOV DI, addr\r
                MOV SI, o\r
                MOV ES, s\r
                SUB AH, AH\r
                MOV AL, c       ; the letter\r
                MOV CX, w\r
                MUL CX\r
                ADD SI, AX      ;the address of charcter\r
        L1:     MOV AX, ES:SI\r
                MOV DS:DI, AX\r
                INC SI\r
                INC DI\r
                DEC CX\r
                JNZ L1\r
\r
                POP DI\r
                POP SI\r
                POP DX\r
                POP CX\r
                POP BX\r
                POP AX\r
                POP ES\r
                POPF\r
        }\r
\r
                for(i=0; i<w; i++)\r
                {\r
                        j=1<<8;\r
                        xp=0;\r
                        while(j)\r
                        {\r
                                //modexputPixel(page, x+xp+chw, y+i, l[i] & j ? col:bgcol);\r
                                modexClearRegion(page, (x+xp+chw)*8, (y+i)*8, 8, 8, l[i] & j ? col:bgcol);\r
                                xp++;\r
                                j>>=1;\r
                        }\r
                }\r
                chw += xp;\r
        }\r
}\r
\r
/* palette dump on display! */\r
void modexpdump(page_t *pee)\r
{\r
        int mult=(QUADWH);\r
        int palq=(mult)*TILEWH;\r
        int palcol=0;\r
        int palx, paly;\r
        for(paly=TILEWH*8; paly<palq+TILEWH*8; paly+=mult){\r
                for(palx=TILEWH*12; palx<palq+TILEWH*12; palx+=mult){\r
                                modexClearRegion(pee, palx+TILEWH, paly+TILEWH, mult, mult, palcol);\r
                        palcol++;\r
                }\r
        }\r
}\r
\r
/////////////////////////////////////////////////////////////////////////////\r
//                                                                                                                                               //\r
// cls() - This clears the screen to the specified color, on the VGA or on //\r
//               the Virtual screen.                                                                                     //\r
//                                                                                                                                               //\r
/////////////////////////////////////////////////////////////////////////////\r
void modexcls(page_t *page, byte color, byte *Where)\r
{\r
        //modexClearRegion(page, 0, 0, page->width, page->height, color);\r
        /* set map mask to all 4 planes */\r
        outpw(SC_INDEX, 0xff02);\r
        //_fmemset(VGA, color, 16000);\r
        _fmemset(Where, color, page->stridew*page->height);\r
}\r
\r
//\r
// pattern filler from joncampbell123's code\r
//\r
void VL_PatternDraw(video_t *video, word pn, boolean sw, boolean allsw)\r
{\r
        unsigned int i,j,o,     d,h,s;\r
        word w;\r
\r
        switch(sw)\r
        {\r
                case 0:\r
                        w=vga_state.vga_width;\r
                        d=0;\r
                        s=vga_state.vga_stride;\r
                        switch(allsw)\r
                        {\r
                                case 0:\r
                                        h=vga_state.vga_height;\r
                                break;\r
                                case 1:\r
                                        h=video->vh;\r
                                break;\r
                        }\r
                break;\r
                default:\r
                        w=video->page[pn].width;\r
                        d=(0x10000UL - (uint16_t)video->page[pn].data);\r
                        s=video->page[pn].stridew;\r
                        switch(allsw)\r
                        {\r
                                case 0:\r
                                        h=video->page[pn].height;\r
                                break;\r
                                case 1:\r
                                        if(!pn) h=video->vh;\r
                                        else h=video->page[pn].height;\r
                                break;\r
                        }\r
                break;\r
        }\r
\r
        /* fill screen/pattern with a distinctive pattern */\r
        for (i=0;i < w;i++) {\r
                o = (i >> 2) + d;\r
                vga_write_sequencer(0x02/*map mask*/,1 << (i&3));\r
                for (j=0;j < h;j++,o += s)\r
                        vga_state.vga_graphics_ram[o] = (i^j)&15; // VRL samples put all colors in first 15!\r
        }\r
}\r
\r
void\r
modexWaitBorder() {\r
        while(inp(INPUT_STATUS_1)  & 8)  {\r
        // spin\r
        }\r
\r
        while(!(inp(INPUT_STATUS_1)  & 8))  {\r
        //spin\r
        }\r
}\r
\r
void\r
modexWaitBorder_start()\r
{\r
        while(inp(INPUT_STATUS_1)  & 8)  {\r
        // spin\r
        }\r
\r
}\r
\r
void\r
modexWaitBorder_end()\r
{\r
        while(!(inp(INPUT_STATUS_1)  & 8))  {\r
        // spin\r
        }\r
\r
}\r
\r
//\r
// printings of video memory information\r
//\r
void VL_PrintmodexmemInfo(video_t *v)\r
{\r
        byte i;\r
\r
//      printf("========================================\n");\r
        printf("VL_PrintmodexmemInfo:\n");\r
//      printf("========================================\n");\r
        printf("  Virtual Screen: %dx", v->page[0].width);      printf("%d      ", v->page[0].height);  printf("Tile: %dx", v->page[0].ti.tilesw);              printf("%d", v->page[0].ti.tilesh);     printf("=((Virtual Screen)/16)\n");\r
        printf("          Screen: %dx", v->page[0].sw);         printf("%d      ", v->page[0].sh);              printf("Tile: %dx", v->page[0].ti.tw);                  printf("%d", v->page[0].ti.th);         printf("=((Screen)/16)\n");\r
\r
        printf("  Free Video Memory: %u\n", v->vmem_remain);\r
        printf("  page");\r
        for(i=0; i<v->num_of_pages;i++)\r
        {\r
                printf("        [%u]=", i);\r
                printf("(%Fp)", (v->page[i].data));\r
                printf(" size=%u        ", v->page[i].pagesize);\r
                printf("w=%-3lu  h=%-3lu ", (unsigned long)v->page[i].width, (unsigned long)v->page[i].height);\r
                printf("sw=%-3lu  sh=%-3lu ", (unsigned long)v->page[i].sw, (unsigned long)v->page[i].sh);\r
                printf("pi=%u", v->page[i].pi);\r
                printf("\n");\r
        }\r
}\r