X-Git-Url: http://4ch.mooo.com/gitweb/?a=blobdiff_plain;f=src%2Flib%2Fmodex16.c;h=62f5c4ef547aac9c64b767a742c53912e624cb19;hb=d5a4d9aafbf32d7224dbe7f284a7f7ee37b89f89;hp=b51b62231232f82a31dedcc2a457cb617b623268;hpb=8eedd2ca5b4a1c8bf2c6629a98d26deafc64e19f;p=16.git diff --git a/src/lib/modex16.c b/src/lib/modex16.c index b51b6223..62f5c4ef 100755 --- a/src/lib/modex16.c +++ b/src/lib/modex16.c @@ -62,7 +62,12 @@ void VGAmodeX(sword vq, boolean cmem, global_game_variables_t *gv) static void vgaSetMode(byte mode) { - int10_setmode(mode); + union REGS regs; + + regs.h.ah = SET_MODE; + regs.h.al = mode; + int86(VIDEO_INT, ®s, ®s); + //int10_setmode(mode); } //--------------------------------------------------- @@ -85,13 +90,21 @@ void modexEnter(sword vq, boolean cmem, global_game_variables_t *gv) vgaSetMode(VGA_256_COLOR_MODE); vga_enable_256color_modex(); + update_state_from_vga(); - vga_read_crtc_mode(&cm); + vga_read_crtc_mode_(&cm); + + /* reprogram the CRT controller */ + //outp(CRTC_INDEX, 0x11); /* VSync End reg contains register write prot */ + //outp(CRTC_DATA, 0x7f); /* get current write protect on varios regs */ switch(vq) { case 1: //CRTParmCount = sizeof(ModeX_320x240regs) / sizeof(ModeX_320x240regs[0]); + /*for(i=0; ivideo.page[0].sw = vga_state.vga_width = 320; // VGA lib currently does not update this gv->video.page[0].sh = vga_state.vga_height = 240; // VGA lib currently does not update this @@ -106,7 +119,7 @@ void modexEnter(sword vq, boolean cmem, global_game_variables_t *gv) cm.horizontal_total=0x5f + 5; /* CRTC[0] -5 */ cm.horizontal_display_end=0x4f + 1; /* CRTC[1] -1 */ cm.horizontal_blank_start=0x50 + 1; /* CRTC[2] */ - cm.horizontal_blank_end=0x82 + 1; /* CRTC[3] bit 0-4 & CRTC[5] bit 7 */ + //cm.horizontal_blank_end=0x82 + 1; /* CRTC[3] bit 0-4 & CRTC[5] bit 7 *///skewing ^^; cm.horizontal_start_retrace=0x54;/* CRTC[4] */ cm.horizontal_end_retrace=0x80; /* CRTC[5] bit 0-4 */ //cm.horizontal_start_delay_after_total=0x3e; /* CRTC[3] bit 5-6 */ @@ -148,11 +161,13 @@ void modexEnter(sword vq, boolean cmem, global_game_variables_t *gv) } break; } - gv->video.page[0].tilesw = gv->video.page[0].sw/TILEWH; - gv->video.page[0].tilesh = gv->video.page[0].sh/TILEWH; + +// gv->video.page[0].tw = gv->video.page[0].sw/TILEWH; +// gv->video.page[0].th = gv->video.page[0].sh/TILEWH; + //TODO MAKE FLEXIBLE~ - gv->video.page[0].tilemidposscreenx = gv->video.page[0].tilesw; - gv->video.page[0].tilemidposscreeny = (gv->video.page[0].tilesh/2)+1; +// gv->video.page[0].tilemidposscreenx = gv->video.page[0].tilesw; +// gv->video.page[0].tilemidposscreeny = (gv->video.page[0].tilesh/2)+1; } void @@ -167,20 +182,23 @@ modexDefaultPage(page_t *p) page_t page; /* default page values */ - page.data = vga_state.vga_graphics_ram;//VGA; + //page.data = VGA; + //page.data = (byte far *)(vga_state.vga_graphics_ram); + page.data = (vga_state.vga_graphics_ram); page.dx = 0; page.dy = 0; page.sw = p->sw; page.sh = p->sh; - page.width = p->sw; - page.height = p->sh; + page.width = p->sw+TILEWHD; + page.height = p->sh+TILEWHD; page.tw = page.sw/TILEWH; page.th = page.sh/TILEWH; + page.tilesw=page.width/TILEWH; + page.tilesh=page.height/TILEWH; page.tilemidposscreenx = page.tw/2; page.tilemidposscreeny = (page.th/2)+1; - page.tilesw=p->tilesw; - page.tilesh=p->tilesh; - page.pagesize = page.width*page.height; + page.stridew=page.width/4; + page.pagesize = (word)(page.width/4)*page.height; page.id = 0; return page; @@ -193,14 +211,19 @@ page_t modexNextPage(page_t *p) { page_t result; - result.data = p->data + (p->width/4)*p->height; + result.data = p->data + (p->pagesize); result.dx = 0; result.dy = 0; + result.sw = p->sw; + result.sh = p->sh; result.width = p->width; result.height = p->height; - result.tw = p->width/TILEWH; - result.th = p->height/TILEWH; + result.tw = p->tw; + result.th = p->th; + result.tilesw = p->tilesw; + result.tilesh = p->tilesh; result.id = p->id+1; + result.stridew=p->stridew; result.pagesize = p->pagesize; return result; @@ -212,15 +235,20 @@ modexNextPageFlexibleSize(page_t *p, word x, word y) { page_t result; - result.data = p->data + (p->width/4)*p->height; /* compute the offset */ + result.data = p->data + (p->pagesize); /* compute the offset */ result.dx = 0; result.dy = 0; + result.sw = x; + result.sh = y; result.width = x; result.height = y; - result.tw = p->width/TILEWH; - result.th = p->height/TILEWH; + result.tw = result.sw/TILEWH; + result.th = result.sh/TILEWH; + result.tilesw=result.width/TILEWH; + result.tilesh=result.height/TILEWH; result.id = p->id+1; - result.pagesize = result.width*result.height; + result.stridew=result.width/4; + result.pagesize = (word)(result.width/4)*result.height; return result; } @@ -228,24 +256,28 @@ modexNextPageFlexibleSize(page_t *p, word x, word y) void modexCalcVmemRemain(video_t *video) { byte i; - video->vmem_remain=262144; - for(i=0; i<=video->num_of_pages; i++) + //printf("\n\n 1st vmem_remain=%u\n", video->vmem_remain); + for(i=0; inum_of_pages; i++) { video->vmem_remain-=video->page[i].pagesize; + //printf(" [%u], video->page[%u].pagesize=%u\n", i, i, video->page[i].pagesize); + //printf(" [%u], vmem_remain=%u\n", i, video->vmem_remain); } } void modexHiganbanaPageSetup(video_t *video) { - (video->page[0]) = modexDefaultPage(&(video->page[0])); video->num_of_pages++; - video->page[0].width += (TILEWHD); video->page[0].height += (TILEWHD); + video->vmem_remain=65535U; + video->num_of_pages=0; + (video->page[0]) = modexDefaultPage(&(video->page[0])); video->num_of_pages++; //video->page[0].width += (TILEWHD); video->page[0].height += (TILEWHD); (video->page[1]) = modexNextPage(&(video->page[0])); video->num_of_pages++; -// (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), video->page[0].width, 16); video->num_of_pages++; -// (video->page[2]) = modexNextPage(&(video->page[1])); video->num_of_pages++; - //(352*176)+1024 is the remaining amount of memory left wwww -// modexCalcVmemRemain(video); -// (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), video->page[0].sw, 92); video->num_of_pages++; + (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), TILEWH*4, TILEWH*4); video->num_of_pages++; + (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), video->page[0].sw, 208); video->num_of_pages++; +// (video->page[2]) = modexNextPageFlexibleSize(&(video->page[1]), video->page[0].width, 172); video->num_of_pages++; +// (video->page[3]) = modexNextPageFlexibleSize(&(video->page[2]), 72, 128); video->num_of_pages++; modexCalcVmemRemain(video); + video->p=0; + video->r=1; } void @@ -281,28 +313,25 @@ modexShowPage(page_t *page) { outp(AC_INDEX, (page->dx & 0x03) << 1); } - void modexPanPage(page_t *page, int dx, int dy) { page->dx = dx; page->dy = dy; } - void modexSelectPlane(byte plane) { outp(SC_INDEX, MAP_MASK); /* select plane */ outp(SC_DATA, plane); } - void modexClearRegion(page_t *page, int x, int y, int w, int h, byte color) { word pageOff = (word) page->data; word xoff=x/4; /* xoffset that begins each row */ word scanCount=w/4; /* number of iterations per row (excluding right clip)*/ - word poffset = pageOff + y*(page->width/4) + xoff; /* starting offset */ - word nextRow = page->width/4-scanCount-1; /* loc of next row */ + word poffset = pageOff + y*(page->stridew) + xoff; /* starting offset */ + word nextRow = page->stridew-scanCount-1; /* loc of next row */ byte lclip[] = {0x0f, 0x0e, 0x0c, 0x08}; /* clips for rectangles not on 4s */ byte rclip[] = {0x00, 0x01, 0x03, 0x07}; byte left = lclip[x&0x03]; @@ -314,6 +343,14 @@ modexClearRegion(page_t *page, int x, int y, int w, int h, byte color) { } __asm { + PUSHF + PUSH ES + PUSH AX + PUSH BX + PUSH CX + PUSH DX + PUSH SI + PUSH DI MOV AX, SCREEN_SEG ; go to the VGA memory MOV ES, AX MOV DI, poffset ; go to the first pixel @@ -347,6 +384,14 @@ modexClearRegion(page_t *page, int x, int y, int w, int h, byte color) { ADD DI, nextRow ; go to the next row DEC h JNZ SCAN_START + POP DI + POP SI + POP DX + POP CX + POP BX + POP AX + POP ES + POPF } } @@ -362,17 +407,26 @@ modexCopyPageRegion(page_t *dest, page_t *src, word dx, word dy, word width, word height) { - word doffset = (word)dest->data + dy*(dest->width/4) + dx/4; - word soffset = (word)src->data + sy*(src->width/4) + sx/4; + word doffset = (word)dest->data + dy*(dest->stridew) + dx/4; + word soffset = (word)src->data + sy*(src->stridew) + sx/4; word scans = vga_state.vga_stride; - word nextSrcRow = src->width/4 - scans - 1; - word nextDestRow = dest->width/4 - scans - 1; + word nextSrcRow = src->stridew - scans - 1; + word nextDestRow = dest->stridew - scans - 1; byte lclip[] = {0x0f, 0x0e, 0x0c, 0x08}; /* clips for rectangles not on 4s */ byte rclip[] = {0x0f, 0x01, 0x03, 0x07}; byte left = lclip[sx&0x03]; byte right = rclip[(sx+width)&0x03]; __asm { + PUSHF + PUSH ES + PUSH AX + PUSH BX + PUSH CX + PUSH DX + PUSH SI + PUSH DI + MOV AX, SCREEN_SEG ; work in the vga space MOV ES, AX ; MOV DI, doffset ; @@ -421,6 +475,15 @@ modexCopyPageRegion(page_t *dest, page_t *src, MOV DX, GC_INDEX+1 ; go back to CPU data MOV AL, 0ffh ; none from latches OUT DX, AL ; + + POP DI + POP SI + POP DX + POP CX + POP BX + POP AX + POP ES + POPF } } @@ -774,7 +837,7 @@ modexPalUpdate0(byte *p) } void -modexPalOverscan(byte *p, word col) +modexPalOverscan(word col) { //modexWaitBorder(); vga_wait_for_vsync(); @@ -982,6 +1045,15 @@ void modexprintbig(page_t *page, word x, word y, word t, word col, word bgcol, c } //load the letter 'A' __asm { + PUSHF + PUSH ES + PUSH AX + PUSH BX + PUSH CX + PUSH DX + PUSH SI + PUSH DI + MOV DI, addr MOV SI, o MOV ES, s @@ -996,6 +1068,15 @@ void modexprintbig(page_t *page, word x, word y, word t, word col, word bgcol, c INC DI DEC CX JNZ L1 + + POP DI + POP SI + POP DX + POP CX + POP BX + POP AX + POP ES + POPF } for(i=0; ivmem_remain); + printf("page "); + for(i=0; inum_of_pages;i++) + { + printf(" [%u]=", i); + printf("(%Fp)", (v->page[i].data)); + printf(" size=%u", v->page[i].pagesize); + printf(" sw=%lu sh=%lu ", (unsigned long)v->page[i].sw, (unsigned long)v->page[i].sh); + printf(" width=%lu height=%lu", (unsigned long)v->page[i].width, (unsigned long)v->page[i].height); + printf("\n"); + } +} + +void vga_write_crtc_mode_(struct vga_mode_params *p,unsigned int flags) { + unsigned char c,c2,syncreset=0; + + if (!(vga_state.vga_flags & VGA_IS_VGA)) + return; + + /* sync disable unless told not to */ + if (!(flags & VGA_WRITE_CRTC_MODE_NO_CLEAR_SYNC)) { + c = vga_read_CRTC(0x17); + vga_write_CRTC(0x17,c&0x7F); + } + + c = inp(0x3CC); /* misc out reg */ + /* if changing the clock select bits then we need to do a reset of the sequencer */ + if (p->clock_select != ((c >> 2) & 3)) syncreset=1; + /* proceed to change bits */ + c &= ~((3 << 2) | (1 << 6) | (1 << 7)); + c |= (p->clock_select&3) << 2; + c |= p->hsync_neg << 6; + c |= p->vsync_neg << 7; + if (syncreset) vga_write_sequencer(0,0x01/*SR=0 AR=1 start synchronous reset*/); + outp(0x3C2,c); /* misc out */ + if (syncreset) vga_write_sequencer(0,0x03/*SR=1 AR=1 restart sequencer*/); + + vga_write_sequencer(1, + (p->shift_load_rate << 2) | + (p->shift4_enable << 4) | + ((p->clock9 ^ 1) << 0) | + (p->clock_div2 << 3)); + + c = 0; /* use 'c' as overflow register */ + c2 = vga_read_CRTC(0x09); /* read max scan line */ + c2 &= ~(1 << 5); /* mask out start vertical blank bit 9 */ + vga_write_CRTC(0x11, /* NTS: we leave bit 7 (protect) == 0 so we can program regs 0-7 in this routine */ + (((p->refresh_cycles_per_scanline == 5) ? 1 : 0) << 6) | + (p->vertical_end_retrace & 0xF)); + vga_write_CRTC(0x06,(p->vertical_total - 2)); + c |= (((p->vertical_total - 2) >> 8) & 1) << 0; + c |= (((p->vertical_total - 2) >> 9) & 1) << 5; + vga_write_CRTC(0x10,p->vertical_start_retrace); + c |= ((p->vertical_start_retrace >> 8) & 1) << 2; + c |= ((p->vertical_start_retrace >> 9) & 1) << 7; + vga_write_CRTC(0x12,p->vertical_display_end - 1); + c |= (((p->vertical_display_end - 1) >> 8) & 1) << 1; + c |= (((p->vertical_display_end - 1) >> 9) & 1) << 6; + vga_write_CRTC(0x15,p->vertical_blank_start - 1); + c |= (((p->vertical_blank_start - 1) >> 8) & 1) << 3; + c2|= (((p->vertical_blank_start - 1) >> 9) & 1) << 5; + + /* NTS: this field is 7 bits wide but "Some SVGA chipsets use all 8" as VGADOC says. */ + /* writing it in this way resolves the partial/full screen blanking problems with Intel 855/915/945 chipsets */ + vga_write_CRTC(0x16,p->vertical_blank_end - 1); + + vga_write_CRTC(0x14, /* NTS we write "underline location == 0" */ + (p->dword_mode << 6) | + (p->inc_mem_addr_only_every_4th << 5)); + vga_write_CRTC(0x07,c); /* overflow reg */ + + c2 &= ~(0x9F); /* mask out SD + Max scanline */ + c2 |= (p->scan_double << 7); + c2 |= (p->max_scanline - 1) & 0x1F; + vga_write_CRTC(0x09,c2); + vga_write_CRTC(0x13,p->offset); + vga_write_CRTC(0,(p->horizontal_total - 5)); + vga_write_CRTC(1,(p->horizontal_display_end - 1)); + vga_write_CRTC(2,p->horizontal_blank_start - 1); + vga_write_CRTC(3,((p->horizontal_blank_end - 1) & 0x1F) | (p->horizontal_start_delay_after_total << 5) | 0x80); + vga_write_CRTC(4,p->horizontal_start_retrace); + vga_write_CRTC(5,((((p->horizontal_blank_end - 1) >> 5) & 1) << 7) | (p->horizontal_start_delay_after_retrace << 5) | + (p->horizontal_end_retrace & 0x1F)); + + /* finish by writing reg 0x17 which also enables sync */ + vga_write_CRTC(0x17, + (p->sync_enable << 7) | + (vga_read_CRTC(0x17) & 0x10) | /* NTS: one undocumented bit, perhaps best not to change it */ + ((p->word_mode^1) << 6) | + (p->address_wrap_select << 5) | + (p->memaddr_div2 << 3) | + (p->scanline_div2 << 2) | + ((p->map14 ^ 1) << 1) | + ((p->map13 ^ 1) << 0)); + + /* reinforce write protect */ + c = vga_read_CRTC(0x11); + vga_write_CRTC(0x11,c|0x80); +} + +void vga_read_crtc_mode_(struct vga_mode_params *p) { + unsigned char c,c2; + + if (!(vga_state.vga_flags & VGA_IS_VGA)) + return; + + c = inp(0x3CC); /* misc out reg */ + p->clock_select = (c >> 2) & 3; + p->hsync_neg = (c >> 6) & 1; + p->vsync_neg = (c >> 7) & 1; + + c = vga_read_sequencer(1); + p->clock9 = (c & 1) ^ 1; + p->clock_div2 = (c >> 3) & 1; + p->shift4_enable = (c >> 4) & 1; + p->shift_load_rate = (c >> 2) & 1; + + p->sync_enable = (vga_read_CRTC(0x17) >> 7) & 1; + p->word_mode = ((vga_read_CRTC(0x17) >> 6) & 1) ^ 1; + p->address_wrap_select = (vga_read_CRTC(0x17) >> 5) & 1; + p->memaddr_div2 = (vga_read_CRTC(0x17) >> 3) & 1; + p->scanline_div2 = (vga_read_CRTC(0x17) >> 2) & 1; + p->map14 = ((vga_read_CRTC(0x17) >> 1) & 1) ^ 1; + p->map13 = ((vga_read_CRTC(0x17) >> 0) & 1) ^ 1; + + p->dword_mode = (vga_read_CRTC(0x14) >> 6) & 1; + p->horizontal_total = vga_read_CRTC(0) + 5; + p->horizontal_display_end = vga_read_CRTC(1);// + 1; + p->horizontal_blank_start = vga_read_CRTC(2) + 1; + p->horizontal_blank_end = ((vga_read_CRTC(3) & 0x1F) | ((vga_read_CRTC(5) >> 7) << 5) | + ((p->horizontal_blank_start - 1) & (~0x3F))) + 1; + if (p->horizontal_blank_start >= p->horizontal_blank_end) + p->horizontal_blank_end += 0x40; + p->horizontal_start_retrace = vga_read_CRTC(4); + p->horizontal_end_retrace = (vga_read_CRTC(5) & 0x1F) | + (p->horizontal_start_retrace & (~0x1F)); + if ((p->horizontal_start_retrace&0x1F) >= (p->horizontal_end_retrace&0x1F)) + p->horizontal_end_retrace += 0x20; + p->horizontal_start_delay_after_total = (vga_read_CRTC(3) >> 5) & 3; + p->horizontal_start_delay_after_retrace = (vga_read_CRTC(5) >> 5) & 3; + + c = vga_read_CRTC(7); /* c = overflow reg */ + c2 = vga_read_CRTC(9); + + p->scan_double = (c2 >> 7) & 1; + p->max_scanline = (c2 & 0x1F) + 1; + p->offset = vga_read_CRTC(0x13); + p->vertical_total = (vga_read_CRTC(6) | ((c & 1) << 8) | (((c >> 5) & 1) << 9)) + 2; + p->vertical_start_retrace = (vga_read_CRTC(0x10) | (((c >> 2) & 1) << 8) | (((c >> 7) & 1) << 9)); + p->vertical_end_retrace = (vga_read_CRTC(0x11) & 0xF) | + (p->vertical_start_retrace & (~0xF)); + if ((p->vertical_start_retrace&0xF) >= (p->vertical_end_retrace&0xF)) + p->vertical_end_retrace += 0x10; + p->refresh_cycles_per_scanline = ((vga_read_CRTC(0x11) >> 6) & 1) ? 5 : 3; + p->inc_mem_addr_only_every_4th = (vga_read_CRTC(0x14) >> 5) & 1; + p->vertical_display_end = ((vga_read_CRTC(0x12) | (((c >> 1) & 1) << 8) | (((c >> 6) & 1) << 9))) + 1; + p->vertical_blank_start = ((vga_read_CRTC(0x15) | (((c >> 3) & 1) << 8) | (((c2 >> 5) & 1) << 9))) + 1; + p->vertical_blank_end = ((vga_read_CRTC(0x16) & 0x7F) | ((p->vertical_blank_start - 1) & (~0x7F))) + 1; + if (p->vertical_blank_start >= p->vertical_blank_end) + p->vertical_blank_end += 0x80; +}