#include "emu.h" #include "includes/tatsumi.h" /******************************************************************************/ WRITE16_HANDLER(tatsumi_sprite_control_w) { tatsumi_state *state = space->machine().driver_data(); COMBINE_DATA(&state->m_sprite_control_ram[offset]); /* 0xe0 is bank switch, others unknown */ // if ((offset==0xe0 && data&0xefff) || offset!=0xe0) // logerror("%08x: Tatsumi TZB215 sprite control %04x %08x\n", cpu_get_pc(&space->device()), offset, data); } /******************************************************************************/ WRITE16_HANDLER( apache3_road_z_w ) { tatsumi_state *state = space->machine().driver_data(); state->m_apache3_road_z = data & 0xff; } WRITE8_HANDLER( apache3_road_x_w ) { tatsumi_state *state = space->machine().driver_data(); // Note: Double buffered. Yes, this is correct :) state->m_apache3_road_x_ram[data] = offset; } READ16_HANDLER( roundup5_vram_r ) { tatsumi_state *state = space->machine().driver_data(); offset+=((state->m_control_word&0x0c00)>>10) * 0xc000; return state->m_roundup5_vram[offset]; } WRITE16_HANDLER( roundup5_vram_w ) { tatsumi_state *state = space->machine().driver_data(); offset+=((state->m_control_word&0x0c00)>>10) * 0xc000; // if (offset>=0x30000) // logerror("effective write to vram %06x %02x (control %04x)\n",offset,data,state->m_control_word); COMBINE_DATA(&state->m_roundup5_vram[offset]); offset=offset%0xc000; gfx_element_mark_dirty(space->machine().gfx[1],offset/0x10); } WRITE16_HANDLER( roundup5_palette_w ) { // static int hack=0; int word; COMBINE_DATA(&space->machine().generic.paletteram.u16[offset]); // if (offset==0xbfe) // hack++; // if (hack>1) // return; /* apache 3 schematics state bit 4: 250 bit 3: 500 bit 2: 1k bit 1: 2k bit 0: 3.9kOhm resistor */ // logerror("PAL: %04x %02x\n",offset,data); offset&=~1; word = ((space->machine().generic.paletteram.u16[offset] & 0xff)<<8) | (space->machine().generic.paletteram.u16[offset+1] & 0xff); palette_set_color_rgb(space->machine(),offset/2,pal5bit(word >> 10),pal5bit(word >> 5),pal5bit(word >> 0)); } WRITE16_HANDLER( apache3_palette_w ) { // static int hack=0; COMBINE_DATA(&space->machine().generic.paletteram.u16[offset]); // if (offset==0xbfe) // hack++; // if (hack>1) // return; /* apache 3 schematics state bit 4: 250 bit 3: 500 bit 2: 1k bit 1: 2k bit 0: 3.9kOhm resistor */ // logerror("PAL: %04x %02x\n",offset,data); data = space->machine().generic.paletteram.u16[offset]; palette_set_color_rgb(space->machine(),offset,pal5bit(data >> 10),pal5bit(data >> 5),pal5bit(data >> 0)); } WRITE16_HANDLER( roundup5_text_w ) { tatsumi_state *state = space->machine().driver_data(); UINT16 *videoram = state->m_videoram; COMBINE_DATA(&videoram[offset]); tilemap_mark_tile_dirty( state->m_tx_layer,offset); } READ16_HANDLER( cyclwarr_videoram0_r ) { tatsumi_state *state = space->machine().driver_data(); return state->m_cyclwarr_videoram0[offset]; } READ16_HANDLER( cyclwarr_videoram1_r ) { tatsumi_state *state = space->machine().driver_data(); return state->m_cyclwarr_videoram1[offset]; } WRITE16_HANDLER( cyclwarr_videoram0_w ) { tatsumi_state *state = space->machine().driver_data(); COMBINE_DATA(&state->m_cyclwarr_videoram0[offset]); if (offset>=0x400) { tilemap_mark_tile_dirty( state->m_layer0, offset-0x400); tilemap_mark_tile_dirty( state->m_layer1, offset-0x400); } } WRITE16_HANDLER( cyclwarr_videoram1_w ) { tatsumi_state *state = space->machine().driver_data(); COMBINE_DATA(&state->m_cyclwarr_videoram1[offset]); if (offset>=0x400) { tilemap_mark_tile_dirty( state->m_layer2, offset-0x400); tilemap_mark_tile_dirty( state->m_layer3, offset-0x400); } } WRITE16_HANDLER( roundup5_crt_w ) { tatsumi_state *state = space->machine().driver_data(); if (offset==0 && ACCESSING_BITS_0_7) state->m_roundupt_crt_selected_reg=data&0x3f; if (offset==1 && ACCESSING_BITS_0_7) { state->m_roundupt_crt_reg[state->m_roundupt_crt_selected_reg]=data; // if (state->m_roundupt_crt_selected_reg!=0xa && state->m_roundupt_crt_selected_reg!=0xb && state->m_roundupt_crt_selected_reg!=29) // logerror("%08x: Crt write %02x %02x\n",cpu_get_pc(&space->device()),state->m_roundupt_crt_selected_reg,data); } } /********************************************************************/ static TILE_GET_INFO( get_text_tile_info ) { tatsumi_state *state = machine.driver_data(); UINT16 *videoram = state->m_videoram; int tile = videoram[tile_index]; SET_TILE_INFO( 1, tile & 0xfff, tile >> 12, 0); } static TILE_GET_INFO( get_tile_info_bigfight_0 ) { tatsumi_state *state = machine.driver_data(); int tile=state->m_cyclwarr_videoram0[(tile_index+0x400)%0x8000]; int bank = (state->m_bigfight_a40000[0] >> (((tile&0xc00)>>10)*4))&0xf; SET_TILE_INFO(1,(tile&0x3ff)+(bank<<10),(tile>>12)&0xf,0); } static TILE_GET_INFO( get_tile_info_bigfight_1 ) { tatsumi_state *state = machine.driver_data(); int tile=state->m_cyclwarr_videoram1[(tile_index+0x400)%0x8000]; int bank = (state->m_bigfight_a40000[0] >> (((tile&0xc00)>>10)*4))&0xf; SET_TILE_INFO(1,(tile&0x3ff)+(bank<<10),(tile>>12)&0xf,0); } /********************************************************************/ VIDEO_START( apache3 ) { tatsumi_state *state = machine.driver_data(); state->m_tx_layer = tilemap_create(machine, get_text_tile_info,tilemap_scan_rows,8,8,64,64); state->m_shadow_pen_array = auto_alloc_array_clear(machine, UINT8, 8192); state->m_temp_bitmap = auto_bitmap_alloc(machine, 512, 512, BITMAP_FORMAT_RGB32); state->m_apache3_road_x_ram = auto_alloc_array(machine, UINT8, 512); tilemap_set_transparent_pen(state->m_tx_layer,0); } VIDEO_START( roundup5 ) { tatsumi_state *state = machine.driver_data(); state->m_tx_layer = tilemap_create(machine, get_text_tile_info,tilemap_scan_rows,8,8,128,64); state->m_shadow_pen_array = auto_alloc_array_clear(machine, UINT8, 8192); state->m_roundup5_vram = auto_alloc_array(machine, UINT16, (0x48000 * 4)/2); tilemap_set_transparent_pen(state->m_tx_layer,0); gfx_element_set_source(machine.gfx[1], (UINT8 *)state->m_roundup5_vram); } VIDEO_START( cyclwarr ) { tatsumi_state *state = machine.driver_data(); state->m_layer0 = tilemap_create(machine, get_tile_info_bigfight_0,tilemap_scan_rows,8,8,64,512); //state->m_layer1 = tilemap_create(machine, get_tile_info_bigfight_0,tilemap_scan_rows,8,8,64,512); state->m_layer1 = tilemap_create(machine, get_tile_info_bigfight_0,tilemap_scan_rows,8,8,128,256); state->m_layer2 = tilemap_create(machine, get_tile_info_bigfight_1,tilemap_scan_rows,8,8,64,512); state->m_layer3 = tilemap_create(machine, get_tile_info_bigfight_1,tilemap_scan_rows,8,8,64,512); state->m_shadow_pen_array = auto_alloc_array_clear(machine, UINT8, 8192); } VIDEO_START( bigfight ) { tatsumi_state *state = machine.driver_data(); state->m_layer0 = tilemap_create(machine, get_tile_info_bigfight_0,tilemap_scan_rows,8,8,128,256); state->m_layer1 = tilemap_create(machine, get_tile_info_bigfight_0,tilemap_scan_rows,8,8,128,256); state->m_layer2 = tilemap_create(machine, get_tile_info_bigfight_1,tilemap_scan_rows,8,8,128,256); state->m_layer3 = tilemap_create(machine, get_tile_info_bigfight_1,tilemap_scan_rows,8,8,128,256); state->m_shadow_pen_array = auto_alloc_array_clear(machine, UINT8, 8192); } /********************************************************************/ INLINE void roundupt_drawgfxzoomrotate( bitmap_t *dest_bmp, const rectangle *clip, const gfx_element *gfx, UINT32 code,UINT32 color,int flipx,int flipy,UINT32 ssx,UINT32 ssy, int scalex, int scaley, int rotate, int write_priority_only ) { tatsumi_state *state = gfx->machine().driver_data(); rectangle myclip; if (!scalex || !scaley) return; /* scalex and scaley are 16.16 fixed point numbers 1<<15 : shrink to 50% 1<<16 : uniform scale 1<<17 : double to 200% */ /* KW 991012 -- Added code to force clip to bitmap boundary */ if(clip) { myclip.min_x = clip->min_x; myclip.max_x = clip->max_x; myclip.min_y = clip->min_y; myclip.max_y = clip->max_y; if (myclip.min_x < 0) myclip.min_x = 0; if (myclip.max_x >= dest_bmp->width) myclip.max_x = dest_bmp->width-1; if (myclip.min_y < 0) myclip.min_y = 0; if (myclip.max_y >= dest_bmp->height) myclip.max_y = dest_bmp->height-1; clip=&myclip; } { if( gfx ) { const pen_t *pal = &gfx->machine().pens[gfx->color_base + gfx->color_granularity * (color % gfx->total_colors)]; const UINT8 *shadow_pens = state->m_shadow_pen_array + (gfx->color_granularity * (color % gfx->total_colors)); const UINT8 *code_base = gfx_element_get_data(gfx, code % gfx->total_elements); int block_size = 8 * scalex; int sprite_screen_height = ((ssy&0xffff)+block_size)>>16; int sprite_screen_width = ((ssx&0xffff)+block_size)>>16; if (sprite_screen_width && sprite_screen_height) { /* compute sprite increment per screen pixel */ int dx = (gfx->width<<16)/sprite_screen_width; int dy = (gfx->height<<16)/sprite_screen_height; int sx;//=ssx>>16; int sy;//=ssy>>16; // int ex = sx+sprite_screen_width; // int ey = sy+sprite_screen_height; int x_index_base; int y_index; int ex,ey; int incxx=0x10000;//(int)((float)dx * cos(theta)); // int incxy=0x0;//(int)((float)dy * -sin(theta)); int incyx=0x0;//(int)((float)dx * sin(theta)); // int incyy=0x10000;//(int)((float)dy * cos(theta)); if (flipx) { } if (ssx&0x80000000) sx=0-(0x10000 - (ssx>>16)); else sx=ssx>>16; if (ssy&0x80000000) sy=0-(0x10000 - (ssy>>16)); else sy=ssy>>16; ex = sx+sprite_screen_width; ey = sy+sprite_screen_height; if( flipx ) { x_index_base = (sprite_screen_width-1)*dx; dx = -dx; incxx=-incxx; incyx=-incyx; } else { x_index_base = 0; } if( flipy ) { y_index = (sprite_screen_height-1)*dy; dy = -dy; } else { y_index = 0; } if( clip ) { if( sx < clip->min_x) { /* clip left */ int pixels = clip->min_x-sx; sx += pixels; x_index_base += pixels*dx; } if( sy < clip->min_y ) { /* clip top */ int pixels = clip->min_y-sy; sy += pixels; y_index += pixels*dy; } /* NS 980211 - fixed incorrect clipping */ if( ex > clip->max_x+1 ) { /* clip right */ int pixels = ex-clip->max_x-1; ex -= pixels; } if( ey > clip->max_y+1 ) { /* clip bottom */ int pixels = ey-clip->max_y-1; ey -= pixels; } } if( ex>sx ) { /* skip if inner loop doesn't draw anything */ int y; #if 0 { { int startx=0; int starty=0; // int incxx=0x10000; // int incxy=0; // int incyx=0; // int incyy=0x10000; double theta=rotate * ((2.0 * M_PI)/512.0); double c=cos(theta); double s=sin(theta); // if (ey-sy > 0) // dy=dy / (ey-sy); { float angleAsRadians=(float)rotate * (7.28f / 512.0f); //float ccx = cosf(angleAsRadians); //float ccy = sinf(angleAsRadians); float a=0; } for( y=sy; y>16) * gfx->line_modulo; int c = source[(cx >> 16)]; if( c != transparent_color ) { if (write_priority_only) dest[x]=shadow_pens[c]; else dest[x]=pal[c]; } cx += incxx; cy += incxy; } startx += incyx; starty += incyy; } } } #endif #if 1 // old { { for( y=sy; y>16) * gfx->line_modulo; UINT32 *dest = BITMAP_ADDR32(dest_bmp, y, 0); UINT8 *priority_dest = BITMAP_ADDR8(dest_bmp, y, 0); int x, x_index = x_index_base; for( x=sx; x>16]; if( c ) { // Only draw shadow pens if writing priority buffer if (write_priority_only) priority_dest[x]=shadow_pens[c]; else if (!shadow_pens[c]) dest[x]=pal[c]; } x_index += dx; } y_index += dy; } } } #endif } } } } } static void mycopyrozbitmap_core(bitmap_t *bitmap,bitmap_t *srcbitmap, int dstx,int dsty, int srcwidth, int srcheight,int incxx,int incxy,int incyx,int incyy, const rectangle *clip,int transparent_color) { UINT32 cx; UINT32 cy; int x; int sx; int sy; int ex; int ey; // const int xmask = srcbitmap->width-1; // const int ymask = srcbitmap->height-1; const int widthshifted = srcwidth << 16; const int heightshifted = srcheight << 16; UINT32 *dest; UINT32 startx=0; UINT32 starty=0; sx = dstx; sy = dsty; ex = dstx + srcwidth; ey = dsty + srcheight; if (sxmin_x) sx=clip->min_x; if (ex>clip->max_x) ex=clip->max_x; if (symin_y) sy=clip->min_y; if (ey>clip->max_y) ey=clip->max_y; if (sx <= ex) { while (sy <= ey) { x = sx; cx = startx; cy = starty; dest = BITMAP_ADDR32(bitmap, sy, sx); while (x <= ex) { if (cx < widthshifted && cy < heightshifted) { int c = *BITMAP_ADDR32(srcbitmap, cy >> 16, cx >> 16); if (c != transparent_color) *dest = c; } cx += incxx; cy += incxy; x++; dest++; } startx += incyx; starty += incyy; sy++; } } } static void draw_sprites(running_machine &machine, bitmap_t *bitmap, const rectangle *cliprect, int write_priority_only, int rambank) { tatsumi_state *state = machine.driver_data(); UINT16 *spriteram16 = state->m_spriteram; int offs, flip_x, flip_y, x, y, color; int w, h, index, lines, scale, rotate; UINT8 *src1, *src2; int y_offset; int render_x, render_y; int extent_x, extent_y; // Sprite data is double buffered for (offs = rambank;offs < rambank + 0x800;offs += 6) { /* Sprite RAM itself uses an index into two ROM tables to actually draw the object. Sprite RAM format: Word 0: 0xf000 - ? 0x0fff - Index into ROM sprite table Word 1: 0x8000 - X Flip 0x4000 - Y Flip 0x3000 - ? 0x0ff8 - Color 0x0007 - ? Word 2: 0xffff - X position Word 3: 0xffff - Y position Word 4: 0x01ff - Scale Word 5: 0x01ff - Rotation Sprite ROM table format, alternate lines come from each bank, with the very first line indicating control information: First bank: Byte 0: Y destination offset (in scanlines, unaffected by scale). Byte 1: Always 0? Byte 2: Number of source scanlines to render from (so unaffected by destination scale). Byte 3: Usually 0, sometimes 0x80?? Other banks: Byte 0: Width of line in tiles (-1) Byte 1: X offset to start drawing line at (multipled by scale * 8) Bytes 2/3: Tile index to start fetching tiles from (increments per tile). */ y = spriteram16[offs+3]; x = spriteram16[offs+2]; scale = spriteram16[offs+4] & 0x1ff; color = spriteram16[offs+1] >> 3 & 0x1ff; flip_x = spriteram16[offs+1] & 0x8000; flip_y = spriteram16[offs+1] & 0x4000; rotate = 0;//spriteram16[offs+5]&0x1ff; // Todo: Turned off for now index = spriteram16[offs]; // if (spriteram16[offs+1]&0x7) // color=rand()%0xff; /* End of sprite list marker */ if (index == 0xffff || spriteram16[offs + 4] == 0xffff) // todo return; if (index >= 0x4000) continue; src1 = state->m_rom_sprite_lookup1 + (index * 4); src2 = state->m_rom_sprite_lookup2 + (index * 4); lines = src1[2]; y_offset = src1[0]&0xf8; lines -= y_offset; render_x = x << 16; render_y = y << 16; scale = scale << 9; /* 0x80 becomes 0x10000 */ if (flip_y) render_y -= y_offset * scale; else render_y += y_offset * scale; if (rotate) { render_y = 0; bitmap_fill(state->m_temp_bitmap, 0, 0); } extent_x = extent_y = 0; src1 += 4; h = 0; while (lines > 0) { int base, x_offs, x_width, x_pos, draw_this_line = 1; int this_extent = 0; /* Odd and even lines come from different banks */ if (h & 1) { x_width = src1[0] + 1; x_offs = src1[1] * scale * 8; base = src1[2] | (src1[3] << 8); } else { x_width = src2[0] + 1; x_offs = src2[1] * scale * 8; base = src2[2] | (src2[3] << 8); } if (draw_this_line) { base *= 2; if (!rotate) { if (flip_x) x_pos = render_x - x_offs - scale * 8; else x_pos = render_x + x_offs; } else x_pos = x_offs; for (w = 0; w < x_width; w++) { if (rotate) roundupt_drawgfxzoomrotate( state->m_temp_bitmap,cliprect,machine.gfx[0], base, color,flip_x,flip_y,x_pos,render_y, scale,scale,0,write_priority_only); else roundupt_drawgfxzoomrotate( bitmap,cliprect,machine.gfx[0], base, color,flip_x,flip_y,x_pos,render_y, scale,scale,0,write_priority_only); base++; if (flip_x) x_pos -= scale * 8; else x_pos += scale * 8; this_extent += scale * 8; } if (h & 1) src1 += 4; else src2 += 4; if (this_extent > extent_x) extent_x = this_extent; this_extent = 0; if (flip_y) render_y -= 8 * scale; else render_y += 8 * scale; extent_y += 8 * scale; h++; lines -= 8; } else { h = 32; // hack } } if (rotate) { double theta = rotate * ((2.0 * M_PI) / 512.0); int incxx = (int)((float)65536.0 * cos(theta)); int incxy = (int)((float)65536.0 * -sin(theta)); int incyx = (int)((float)65536.0 * sin(theta)); int incyy = (int)((float)65536.0 * cos(theta)); extent_x = extent_x >> 16; extent_y = extent_y >> 16; if (extent_x > 2 && extent_y > 2) mycopyrozbitmap_core(bitmap, state->m_temp_bitmap, x/* + (extent_x/2)*/, y /*+ (extent_y/2)*/, extent_x, extent_y, incxx, incxy, incyx, incyy, cliprect, 0); } } } static void draw_sky(running_machine &machine, bitmap_t *bitmap,const rectangle *cliprect, int palette_base, int start_offset) { // all todo int x,y; if (start_offset&0x8000) start_offset=-(0x10000 - start_offset); start_offset=-start_offset; start_offset-=48; for (y=0; y<256; y++) { for (x=0; x<320; x++) { int col=palette_base + y + start_offset; if (colpalette_base+127) col=palette_base+127; *BITMAP_ADDR32(bitmap, y, x) = machine.pens[col]; } } } static void draw_road(running_machine &machine, bitmap_t *bitmap,const rectangle *cliprect,bitmap_t *shadow_bitmap) { tatsumi_state *state = machine.driver_data(); /* 0xf980 0x0008 0x8c80 0x4a00 - road right to below, width unknown (32 pixels guess) 0xfa80 0x0008 0x8c80 0x4a00 - road right to below, width unknown (32 pixels guess) 0xfb80 0x0008 0x8c80 0x4a00 - road in middle of screen, width unknown (32 pixels guess) 0xfc80 0x0008 0x8c80 0x4a00 - road width above to left, same width as above (ie, xpos - 32) 0xfd80 0x0008 0x8c80 0x4a00 - road width above to left, same width as above (ie, xpos - 32) 0xfe80 0x0008 0x8c80 0x4a00 - road width above to left, same width as above (ie, xpos - 32) 0xff80 0x0008 0x8c80 0x4a00 - road width above to left, same width as above (ie, xpos - 32) 0x0001 - road half/width above to left, (ie, xpos - 16) 0x0081 - road width to left as usual (xpos-16 from above, or 32 from above2) 0xfb0b 0x210b 0x8cf5 0x0dea - blue & left & right, with blue|----|----|----|----|blue in this mode changing columns 2 & 3 have no apparent effect 0xfb0b 0x7b09 0x8cf5 0x0dea - as above, but scaled up - perhaps 18 pixels shifted (twice that overall size) 0xfb0b 0x6c07 0x8cf5 0x0dea - as above, but scaled up - perhaps 40 pixels shifted from above 0xfb0b 0xaa06 0x8cf5 0x0dea - as above, but scaled up - perhaps 16 pixels shifted from above 0xfb0b 0xb005 0x8cf5 0x0dea - as above, but scaled up - perhaps 38 pixels shifted from above b21 diff is 1a6 97b 20f 76c c2 6aa fa 5b0 0x0000 0x0008 0xxxxx 0xxxx - line starting at 0 for 128 pixels - 1 to 1 with road pixel data 0xff00 0x0008 0xxxxx 0xxxx - line starting at 32 for 128 pixels - 1 to 1 with road pixel data 0xfe00 0x0008 0xxxxx 0xxxx - line starting at 64 for 128 pixels - 1 to 1 with road pixel data at standard zoom (0x800) shift of 0x100 moves 32 pixels so shift of 8 is assumed to move 1 pixel at double zoom (0x1000) assume shift of 0x100 only moves 16 pixels so 0x100 * 0x400 => 0x40 0x100 * step 0x800 = must come out at 0x20 0x100 * step 0x1000 = must come out at 0x10 0x100 * step 0x2000 = 0x5 pos is 11.5 fixed point -0x580 = middle -0x180 -0x080 0 0x80 */ int y,x; int visible_line=0; const UINT16* data=state->m_roundup_r_ram; // Road layer enable (?) if ((state->m_roundup5_unknown0[0x1]&0x1)==0) return; // Road data bank select (double buffered) if (state->m_roundup5_e0000_ram[0]&0x10) data+=0x400; // ?? Todo: This is wrong - don't know how to clip the road properly y=256 - (state->m_roundup5_unknown0[0xb/2] >> 8); data+=y*4; visible_line=0; for (/*y=0*/; y<256; y++) { int shift=data[0]; int shift2=data[2]; int pal=4; //(data[3]>>8)&0xf; int step=((data[1]&0xff)<<8)|((data[1]&0xff00)>>8); int samplePos=0; const UINT16* linedata=state->m_roundup_p_ram;// + (0x100 * pal); int startPos=0, endPos=0; int palette_byte;//=state->m_roundup_l_ram[visible_line/8]; /* Each road line consists of up to two sets of 128 pixel data that can be positioned on the x-axis and stretched/compressed on the x-axis. Any screen pixels to the left of the first set are drawn with pen 0 of the road pixel data. Any screen pixels to the right of the second set line are drawn with pen 127 of the road pixel data. The road control data is laid out as follows (4 words per screen line, with 2 banks): Word 0: Line shift for 1st set - 13.3 signed fixed point value. Word 1: Line scale - 5.11 fixed point value. So 0x800 is 1:1, 0x400 is 1:2, etc Word 2: Line shift for 2nd set - 13.3 signed fixed point value. Word 3: ? The scale is shared between both pixel sets. The 2nd set is only used when the road forks into two between stages. The 2nd line shift is an offset from the last pixel of the 1st set. The 2nd line shift uses a different palette bank. 2nd road uses upper palette - confirmed by water stage. offset is from last pixel of first road segment? //last pixel of first road is really colour from 2nd road line? */ palette_byte=state->m_roundup_l_ram[visible_line/8]; pal=4 + ((palette_byte>>(visible_line%8))&1); visible_line++; if (shift&0x8000) shift=-(0x10000 - shift); shift=-shift; if (step) startPos=((shift<<8) + 0x80 )/ step; /* Fill in left of road segment */ for (x=0; x>11)<0x80; x++) { // look up colour int col = linedata[(samplePos>>11)&0x7f]&0xf; UINT8 shadow=*BITMAP_ADDR8(shadow_bitmap, y, x); /* Clamp if we have reached the end of the pixel data */ //if ((samplePos>>11) > 0x7f) // col=linedata[0x7f]&0xf; if (shadow) *BITMAP_ADDR32(bitmap, y, x) = machine.pens[768 + pal*16 + col]; else *BITMAP_ADDR32(bitmap, y, x) = machine.pens[256 + pal*16 + col]; samplePos+=step; } /* Now work out how many pixels until start of 2nd segment */ startPos=x; if (shift2&0x8000) shift2=-(0x10000 - shift2); shift2=-shift2; if (step) endPos=((shift2<<8) + 0x80) / step; else endPos=0; endPos-=128; endPos=startPos+endPos; /* Fill pixels */ for (x=startPos; x<320 && x>11) > 0x7f) // col=linedata[0x7f]&0xf; if (shadow) *BITMAP_ADDR32(bitmap, y, x) = machine.pens[768 + pal*16 + col + 32]; else *BITMAP_ADDR32(bitmap, y, x) = machine.pens[256 + pal*16 + col + 32]; } if (endPos<0) { samplePos=step*(0-startPos); } else if (endPos>11)&0x7f) + 0x200]&0xf; UINT8 shadow=*BITMAP_ADDR8(shadow_bitmap, y, x); /* Clamp if we have reached the end of the pixel data */ if ((samplePos>>11) > 0x7f) col=linedata[0x7f + 0x200]&0xf; if (shadow) *BITMAP_ADDR32(bitmap, y, x) = machine.pens[768 + pal*16 + col + 32]; else *BITMAP_ADDR32(bitmap, y, x) = machine.pens[256 + pal*16 + col + 32]; samplePos+=step; } data+=4; } } static void update_cluts(running_machine &machine, int fake_palette_offset, int object_base, int length) { tatsumi_state *state = machine.driver_data(); /* Object palettes are build from a series of cluts stored in the object roms. We update 'Mame palettes' from the clut here in order to simplify the draw routines. We also note down any uses of the 'shadow' pen (index 255). */ int i; const UINT8* bank1=state->m_rom_clut0; const UINT8* bank2=state->m_rom_clut1; for (i=0; im_shadow_pen_array[i+0]=(bank1[1]==255); palette_set_color(machine,fake_palette_offset+i+1,palette_get_color(machine,bank1[0]+object_base)); state->m_shadow_pen_array[i+1]=(bank1[0]==255); palette_set_color(machine,fake_palette_offset+i+2,palette_get_color(machine,bank1[3]+object_base)); state->m_shadow_pen_array[i+2]=(bank1[3]==255); palette_set_color(machine,fake_palette_offset+i+3,palette_get_color(machine,bank1[2]+object_base)); state->m_shadow_pen_array[i+3]=(bank1[2]==255); palette_set_color(machine,fake_palette_offset+i+4,palette_get_color(machine,bank2[1]+object_base)); state->m_shadow_pen_array[i+4]=(bank2[1]==255); palette_set_color(machine,fake_palette_offset+i+5,palette_get_color(machine,bank2[0]+object_base)); state->m_shadow_pen_array[i+5]=(bank2[0]==255); palette_set_color(machine,fake_palette_offset+i+6,palette_get_color(machine,bank2[3]+object_base)); state->m_shadow_pen_array[i+6]=(bank2[3]==255); palette_set_color(machine,fake_palette_offset+i+7,palette_get_color(machine,bank2[2]+object_base)); state->m_shadow_pen_array[i+7]=(bank2[2]==255); bank1+=4; bank2+=4; } } /**********************************************************************/ static void draw_bg(running_machine &machine, bitmap_t *dst, tilemap_t *src, const UINT16* scrollx, const UINT16* scrolly, const UINT16* tilemap_ram, int tile_bank, int xscroll_offset, int yscroll_offset, int xsize, int ysize) { /* Each tile (0x4000 of them) has a lookup table in ROM to build an individual 3-bit palette from sets of 8 bit palettes! */ const UINT8* tile_cluts = machine.region("gfx4")->base(); const bitmap_t *src_bitmap = tilemap_get_pixmap(src); int src_y_mask=ysize-1; int src_x_mask=xsize-1; int tile_y_mask=(ysize/8)-1; int tile_x_mask=(xsize/8)-1; int tiles_per_x_line=(xsize/8); int x, y, p, pp, ppp; for (y=0; y<240; y++) { for (x=0; x<320; x++) { int src_x = x + scrollx[y] + xscroll_offset; int src_y = y + scrolly[y] + yscroll_offset; int tile_index = (((src_x>>3)&tile_x_mask) + (((src_y>>3)&tile_y_mask) * tiles_per_x_line)); int bank = (tile_bank >> (((tilemap_ram[(tile_index+0x400)&0x7fff]&0xc00)>>10)*4))&0xf; int tile = (tilemap_ram[(tile_index+0x400)&0x7fff]&0x3ff) | (bank<<10); p=*BITMAP_ADDR16(src_bitmap, src_y&src_y_mask, src_x&src_x_mask); pp=tile_cluts[tile*8 + (p&0x7)]; ppp=pp + ((p&0x78)<<5); if ((p&0x7)!=0 || ((p&0x7)==0 && (pp&0x7)!=0)) // Transparent pixels are set by both the tile pixel data==0 AND colour palette==0 *BITMAP_ADDR32(dst, y, x) = machine.pens[ppp]; } } } /* Draw the sky and ground, applying rotation (eventually). Experimental! */ #if 0 static void draw_ground(running_machine &machine, bitmap_t *dst, const rectangle *cliprect) { tatsumi_state *state = machine.driver_data(); int x, y; const UINT8 *lut = machine.region("proms")->base(); UINT16 gva = 0x180; // TODO UINT8 sky_val = state->m_apache3_rotate_ctrl[1] & 0xff; for (y = cliprect->min_y; y <= cliprect->max_y; ++y) { UINT16 rgdb = 0;//state->m_apache3_road_x_ram[gva & 0xff]; UINT16 gha = 0xf60; // test int ln = (((lut[gva & 0x7f] & 0x7f) + (state->m_apache3_road_z & 0x7f)) >> 5) & 3; if (gva & 0x100) { /* Sky */ for (x = cliprect->min_x; x <= cliprect->max_x; ++x) { *BITMAP_ADDR32(dst, y, x) = machine.pens[0x100 + (sky_val & 0x7f)]; /* Update horizontal counter? */ gha = (gha + 1) & 0xfff; } } else { /* Ground */ for (x = cliprect->min_x; x <= cliprect->max_x; ++x) { UINT8 colour; UINT16 hval; UINT8 pixels; int pix_sel; hval = (rgdb + gha) & 0xfff; // Not quite if (hval & 0x800) hval ^= 0x1ff; // TEST else hval = hval; pixels = state->m_apache3_g_ram[(((gva & 0xff) << 7) | ((hval >> 2) & 0x7f))]; pix_sel = hval & 3; colour = (pixels >> (pix_sel << 1)) & 3; colour = (BIT(hval, 11) << 4) | (colour << 2) | ln; /* Draw the pixel */ *BITMAP_ADDR32(dst, y, x) = machine.pens[0x200 + colour]; /* Update horizontal counter */ gha = (gha + 1) & 0xfff; } } /* Update sky counter */ sky_val++; gva = (gva + 1) & 0x1ff; } } #endif /**********************************************************************/ SCREEN_UPDATE( apache3 ) { tatsumi_state *state = screen->machine().driver_data(); update_cluts(screen->machine(), 1024, 0, 2048); tilemap_set_scrollx(state->m_tx_layer,0,24); bitmap_fill(bitmap,cliprect,screen->machine().pens[0]); draw_sky(screen->machine(), bitmap, cliprect, 256, state->m_apache3_rotate_ctrl[1]); // draw_ground(screen->machine(), bitmap, cliprect); draw_sprites(screen->machine(), bitmap,cliprect,0, (state->m_sprite_control_ram[0x20]&0x1000) ? 0x1000 : 0); tilemap_draw(bitmap,cliprect,state->m_tx_layer,0,0); return 0; } SCREEN_UPDATE( roundup5 ) { tatsumi_state *state = screen->machine().driver_data(); // UINT16 bg_x_scroll=state->m_roundup5_unknown1[0]; // UINT16 bg_y_scroll=state->m_roundup5_unknown2[0]; update_cluts(screen->machine(), 1024, 512, 4096); tilemap_set_scrollx(state->m_tx_layer,0,24); tilemap_set_scrolly(state->m_tx_layer,0,0); //(((state->m_roundupt_crt_reg[0xe]<<8)|state->m_roundupt_crt_reg[0xf])>>5) + 96); bitmap_fill(bitmap,cliprect,screen->machine().pens[384]); // todo bitmap_fill(screen->machine().priority_bitmap,cliprect,0); draw_sprites(screen->machine(), screen->machine().priority_bitmap,cliprect,1,(state->m_sprite_control_ram[0xe0]&0x1000) ? 0x1000 : 0); // Alpha pass only draw_road(screen->machine(), bitmap,cliprect,screen->machine().priority_bitmap); draw_sprites(screen->machine(), bitmap,cliprect,0,(state->m_sprite_control_ram[0xe0]&0x1000) ? 0x1000 : 0); // Full pass tilemap_draw(bitmap,cliprect,state->m_tx_layer,0,0); return 0; } SCREEN_UPDATE( cyclwarr ) { tatsumi_state *state = screen->machine().driver_data(); state->m_bigfight_bank=state->m_bigfight_a40000[0]; if (state->m_bigfight_bank!=state->m_bigfight_last_bank) { tilemap_mark_all_tiles_dirty(state->m_layer0); tilemap_mark_all_tiles_dirty(state->m_layer1); tilemap_mark_all_tiles_dirty(state->m_layer2); tilemap_mark_all_tiles_dirty(state->m_layer3); state->m_bigfight_last_bank=state->m_bigfight_bank; } bitmap_fill(bitmap,cliprect,screen->machine().pens[0]); draw_bg(screen->machine(), bitmap, state->m_layer3, &state->m_cyclwarr_videoram1[0x000], &state->m_cyclwarr_videoram1[0x100], state->m_cyclwarr_videoram1, state->m_bigfight_a40000[0], 8, -0x80, 512, 4096); draw_bg(screen->machine(), bitmap, state->m_layer2, &state->m_cyclwarr_videoram1[0x200], &state->m_cyclwarr_videoram1[0x300], state->m_cyclwarr_videoram1, state->m_bigfight_a40000[0], 8, -0x80, 512, 4096); draw_bg(screen->machine(), bitmap, state->m_layer1, &state->m_cyclwarr_videoram0[0x000], &state->m_cyclwarr_videoram0[0x100], state->m_cyclwarr_videoram0, state->m_bigfight_a40000[0], 8, -0x40, 1024, 2048); update_cluts(screen->machine(), 8192, 4096, 8192); draw_sprites(screen->machine(), bitmap,cliprect,0,(state->m_sprite_control_ram[0xe0]&0x1000) ? 0x1000 : 0); draw_bg(screen->machine(), bitmap, state->m_layer0, &state->m_cyclwarr_videoram0[0x200], &state->m_cyclwarr_videoram0[0x300], state->m_cyclwarr_videoram0, state->m_bigfight_a40000[0], 0x10, -0x80, 512, 4096); return 0; } SCREEN_UPDATE( bigfight ) { tatsumi_state *state = screen->machine().driver_data(); state->m_bigfight_bank=state->m_bigfight_a40000[0]; if (state->m_bigfight_bank!=state->m_bigfight_last_bank) { tilemap_mark_all_tiles_dirty(state->m_layer0); tilemap_mark_all_tiles_dirty(state->m_layer1); tilemap_mark_all_tiles_dirty(state->m_layer2); tilemap_mark_all_tiles_dirty(state->m_layer3); state->m_bigfight_last_bank=state->m_bigfight_bank; } bitmap_fill(bitmap,cliprect,screen->machine().pens[0]); draw_bg(screen->machine(), bitmap, state->m_layer3, &state->m_cyclwarr_videoram1[0x000], &state->m_cyclwarr_videoram1[0x100], state->m_cyclwarr_videoram1, state->m_bigfight_a40000[0], 8, -0x40, 1024, 2048); draw_bg(screen->machine(), bitmap, state->m_layer2, &state->m_cyclwarr_videoram1[0x200], &state->m_cyclwarr_videoram1[0x300], state->m_cyclwarr_videoram1, state->m_bigfight_a40000[0], 8, -0x40, 1024, 2048); draw_bg(screen->machine(), bitmap, state->m_layer1, &state->m_cyclwarr_videoram0[0x000], &state->m_cyclwarr_videoram0[0x100], state->m_cyclwarr_videoram0, state->m_bigfight_a40000[0], 8, -0x40, 1024, 2048); update_cluts(screen->machine(), 8192, 4096, 8192); draw_sprites(screen->machine(), bitmap,cliprect,0,(state->m_sprite_control_ram[0xe0]&0x1000) ? 0x1000 : 0); draw_bg(screen->machine(), bitmap, state->m_layer0, &state->m_cyclwarr_videoram0[0x200], &state->m_cyclwarr_videoram0[0x300], state->m_cyclwarr_videoram0, state->m_bigfight_a40000[0], 0x10, -0x40, 1024, 2048); return 0; }